Dental floss quantity detects packaging all-in-one machine

文档序号:1434 发布日期:2021-09-17 浏览:57次 中文

1. The utility model provides a dental floss quantity detects packaging all-in-one machine, connects to link to each other based on rigidity platform cabinet and built-in main control unit dress, its characterized in that includes:

the hanging rack circulating carrying unit is characterized in that a rigid platform cabinet is provided with a first conveying mechanism which circulates along the linear length direction, and more than one tray for movably replacing the hanging rack is distributed and carried in the first conveying mechanism;

the rack feeding and replacing unit is provided with a rack carrying mechanism and a rotating mechanism in a distributed mode, wherein one end, close to the first conveying mechanism, of the rack carrying mechanism is controlled between the first conveying mechanism and the rotating mechanism to replace and take out the rack, the rotating mechanism is provided with a tray and is controlled to adjust the direction of the rack, and the top of the rotating mechanism is provided with a CCD for detecting the number of dental floss in a hanging mode;

the packaging box carrying unit is provided with a second conveying mechanism which is parallel to the first conveying mechanism in the same direction and circulates on the surface of the rigid platform cabinet, and packaging boxes in an uncapped state are seated in the second conveying mechanism at equal intervals;

and the dental floss carrying and filling unit is arranged on the surface of the rigid platform cabinet and is provided with a servo module and a dental floss carrying mechanism which are vertically bridged over the two conveying mechanisms, the dental floss carrying mechanism is provided with a three-axis cylinder and linked parallel gas claws along the servo module, and the parallel gas claws are controlled to move back and forth between the two conveying mechanisms and regularly and quantitatively clamp dental floss along with the unidirectional transmission of the packaging box and fill the packaging box.

2. The integrated machine for detecting and packaging dental floss according to claim 1, wherein: the first conveying mechanism is provided with an upper layer conveying belt on the surface of the rigid platform cabinet, a lower layer conveying belt which is different from the upper layer conveying belt in driving direction is arranged in the rigid platform cabinet, lifting type conveying belt groups are respectively arranged at two ends of the two conveying belts, and trays are alternated between the upper layer conveying belt and the lower layer conveying belt to form a circulating path of the trays.

3. The integrated machine for detecting and packaging dental floss according to claim 1, wherein: the first conveying mechanism is provided with a blocking cylinder and a lifting cylinder which are arranged in the upper layer conveying belt at the position of a material taking station corresponding to the dental floss carrying and filling unit.

4. The integrated machine for detecting and packaging dental floss according to claim 1, wherein: the rotating mechanism is located at the extending outer end of the first conveying mechanism in the linear length direction, the hanging rack carrying mechanism is a hanging rack controlled by two shafts to move, and a pair of pneumatic clamping jaws corresponding to the hanging rack for grabbing and releasing are arranged on the bottom side of the hanging rack.

5. The integrated machine for detecting and packaging dental floss according to claim 1, wherein: the rotary mechanism comprises a disc and a rotary component integrally connected with the disc, the disc is controlled by a motor arranged in the rigid platform cabinet to rotate within a range of 90 degrees in a horizontal plane, the rotary component is provided with a support, a turning plate pivoted to the support and a rotary cylinder arranged on the outer side of one end of the support, the turning plate is driven to rotate within a range of 90 degrees in a lateral plane, and the turning plate is fixedly connected with a tray which has the same specification and appearance as a circularly conveyed tray.

6. The integrated machine for detecting and packaging dental floss according to claim 1, 2 or 5, wherein: the tray main part is a flat rectangular block, the surface of the tray is provided with a long-strip-shaped hanger positioning containing groove and a positioning column corresponding to the overall length of the dental floss product, and the tray is provided with positioning holes distributed on the peripheries of the hanger positioning containing groove and the positioning column.

7. The integrated machine for detecting and packaging dental floss according to claim 1, wherein: the second conveying mechanism is provided with a cover closing mechanism acting on a fully loaded packing box at the rear section station of the dental floss carrying and filling unit, the cover closing mechanism comprises a limiting holding arm for fixing a packing box body, a forward pushing cylinder for pushing the box cover to overturn to an acute angle opening and closing degree, and a downward pressing cylinder for pressing the box cover to be flat.

8. The integrated machine for detecting and packaging dental floss according to claim 1, wherein: the second conveying mechanism is provided with a first conveying belt and a second conveying belt which are in parallel, a separating groove for evenly loading the packing boxes is formed in the surface of each conveying belt, and the tail end of each conveying belt is connected with a blanking metal plate and unloads the packing boxes to the turnover box.

9. The integrated machine for detecting and packaging dental floss according to claim 1, wherein: and the discharging areas of the second conveying mechanism corresponding to the dental floss carrying mechanisms are provided with discharging funnels which are opposite to the packing boxes one by one.

10. The integrated machine for detecting and packaging dental floss according to claim 1, wherein: the first conveying mechanism is provided with two material taking stations, dental floss is loaded on the racks in the corresponding positions, the servo module and the dental floss carrying mechanisms are configured in a set corresponding to each material taking station, the racks are driven by the first conveying mechanism to sequentially traverse each material taking station, the dental floss carrying mechanisms uniformly distribute the quantity of the dental floss to clamp the dental floss, and the racks are moved out from the next material taking station in an idle state.

Background

The dental floss is a new product for cleaning dental plaque on the adjacent surface by using nylon thread, silk thread or polyester thread, and is popularized gradually in recent years. The appearance of dental floss in the market can be called a new revolution of a tooth cleaning mode, thousands of people can benefit from the dental floss, the trouble of dental diseases is relieved, periodontal health is kept, and other diseases caused by the dental diseases are reduced. The dental floss is very popular in developed countries and is an indispensable daily necessity for people to travel at home, and the dental floss is used for self-cleaning teeth after meals, so that the dental floss is an indispensable program in daily life like washing hands before meals and rinsing mouths after meals.

The floss and the heart do not look like the horse and the cow, but do not. According to the recent report of "postscript every day", the harm of dental diseases to heart is not inferior to that of hyperlipemia at all. Dental floss can be used for preventing oral diseases, and greatly reducing the risk of heart disease and apoplexy. For this reason, the american society of aging experts michael raoensen pointed out that the persistence of daily flossing allowed you 6.4 years more. Clinically, people who often suffer from pulpitis and periodontitis also have an increased incidence of heart disease. This is because infections of the pulp and periodontal tissues can cause bacterial toxins to enter the blood circulation, eventually "tying up" your heart.

Compared with the dental floss, the cleaning effect is greatly reduced because the toothpick is thicker and can not penetrate into the teeth. The dental floss can effectively remove residues in the slits between the teeth and dental plaques on the adjacent surfaces of the teeth.

The introduction of the advantages of the dental floss products shows that the dental floss has improved popularity day by day, and has higher requirements on the industrial production, and the production line of the traditional dental floss needs to manually count the number and manually fill the packing boxes for product shipment after discharging. However, because the product volume is relatively small and the wire is light and easy to break, the rear end of the production processing line of the existing dental floss is time-consuming and labor-consuming, and because the manual counting quantity is easy to cause frequent errors due to the enhancement of fatigue, additional manual operations such as boxing, cover closing, shunting turnover boxes and the like are added. The overall yield of the dental floss product is difficult to improve, and the hidden danger of defective products after quality inspection exists to a certain extent.

Disclosure of Invention

In order to solve the technical problems, the invention aims to provide a dental floss quantity detection and packaging integrated machine to solve the problems of automatic counting, automatic material distribution and packaging and labor investment saving of the number of sections after a dental floss production line.

The technical solution for achieving the above object of the present invention is to provide a dental floss quantity detection and packaging integrated machine, which is based on a rigid platform cabinet and a built-in main control unit, and is characterized by comprising:

the hanging rack circulating carrying unit is characterized in that a rigid platform cabinet is provided with a first conveying mechanism which circulates along the linear length direction, and more than one tray for movably replacing the hanging rack is distributed and carried in the first conveying mechanism;

the rack feeding and replacing unit is provided with a rack carrying mechanism and a rotating mechanism in a distributed mode, wherein one end, close to the first conveying mechanism, of the rack carrying mechanism is controlled between the first conveying mechanism and the rotating mechanism to replace and take out the rack, the rotating mechanism is provided with a tray and is controlled to adjust the direction of the rack, and the top of the rotating mechanism is provided with a CCD for detecting the number of dental floss in a hanging mode;

the packaging box carrying unit is provided with a second conveying mechanism which is parallel to the first conveying mechanism in the same direction and circulates on the surface of the rigid platform cabinet, and packaging boxes in an uncapped state are seated in the second conveying mechanism at equal intervals;

and the dental floss carrying and filling unit is arranged on the surface of the rigid platform cabinet and is provided with a servo module and a dental floss carrying mechanism which are vertically bridged over the two conveying mechanisms, the dental floss carrying mechanism is provided with a three-axis cylinder and linked parallel gas claws along the servo module, and the parallel gas claws are controlled to move back and forth between the two conveying mechanisms and regularly and quantitatively clamp dental floss along with the unidirectional transmission of the packaging box and fill the packaging box.

Above-mentioned dental floss quantity detects packaging all-in-one machine, furtherly, first conveying mechanism is equipped with the upper conveyer belt on the surface of rigid platform cabinet to be equipped with the lower floor's conveyer belt that the direction of being driven is different each other for upper conveyer belt in the cabinet, and respectively be equipped with over-and-under type conveyer belt group at the both ends of two conveyer belts, the circulation path of mutual tray, constitution tray between upper conveyer belt and lower floor's conveyer belt.

Above-mentioned dental floss quantity detects packaging all-in-one machine, furtherly, first conveying mechanism is equipped with and places in the upper conveyer belt block cylinder and the lift cylinder in the material station department of getting that corresponds dental floss carrying filling unit.

Above-mentioned dental floss quantity detects packaging all-in-one machine, furtherly, rotary mechanism is located the extension outer end of the linear length direction of first conveying mechanism, stores pylon handling mechanism is the gallows that controlled diaxon removed, and the bottom side of gallows is equipped with the pair of pneumatic clamping jaw that corresponds the stores pylon and snatch, release.

The dental floss quantity detecting and packaging integrated machine further comprises a rotating mechanism and a rotating assembly integrally connected with the rotating mechanism, the disk is controlled by a motor arranged in the rigid platform cabinet to rotate within a 90-degree range in a horizontal plane, the rotating assembly is provided with a support, a turning plate pivoted to the support and a rotating cylinder arranged on the outer side of one end of the support, the turning plate is driven to rotate within a 90-degree range in a lateral plane, and the turning plate is fixedly connected with a tray which has the same specification and appearance as a circularly conveyed tray.

Above-mentioned dental floss quantity detects packaging all-in-one machine, further, the tray main part is flat rectangular block, and the tray surface is equipped with the stores pylon location of rectangular shape and holds the groove and correspond the reference column of dental floss product appearance length to the tray is equipped with the locating hole in stores pylon location and holds groove and reference column periphery distribution.

Above-mentioned dental floss quantity detection packaging all-in-one machine, furtherly, second conveying mechanism is equipped with the lid mechanism that closes that acts on full-load packing carton at the back end station of dental floss carrying filling unit, close and cover the spacing arm of embracing of mechanism including the fixed packing carton storehouse body, promote the lid upset to the preceding push cylinder of acute angle degree of opening and shutting to and with the push down cylinder that the lid flattens.

Above-mentioned dental floss quantity detects packaging all-in-one machine, furtherly, second conveying mechanism is equipped with two synchronous parallel first conveyer belt and second conveyer belt, and every conveyer belt surface shaping has the partition groove of evenly loading the packing carton, and each conveyer belt end connects the blanking panel beating, unloads the packing carton to the turnover case.

Above-mentioned dental floss quantity detects packaging all-in-one machine, furtherly, the blowing district that second conveying mechanism corresponds dental floss transport mechanism is equipped with the unloading funnel that the one-by-one just is to the packing carton.

The dental floss quantity detecting and packaging integrated machine further comprises a first conveying mechanism, wherein the first conveying mechanism is provided with two material taking stations, dental floss is loaded on a rack in a corresponding position, the servo module and the dental floss carrying mechanism are configured in a set corresponding to each material taking station and sequentially traverse each material taking station along with the driving of the rack by the first conveying mechanism, the dental floss carrying mechanisms are uniformly distributed to clamp the dental floss in quantity, and the rack is moved out from the next material taking station in an idle state.

Compared with the traditional discharging and packaging operation, the quantity detecting and packaging all-in-one machine has the prominent substantive characteristics and remarkable progress: the two conveying mechanisms arranged on the basis of the rigid platform cabinet can realize the directional circulation of the packing box and the dental floss products carried by the hangers, and the circulation speed can be adjusted to match the feeding speed of the dental floss and the coordination of carrying and boxing; by the CCD arranged above the rotating mechanism, the automatic detection of the number of the dental floss fed can be realized, the signal transmission and the man-machine interaction can be realized while the manual feeding and the grabbing of the rack carrying mechanism are not influenced, and the accuracy of the complete dental floss carrying, distributing, containing and other back-end operations of the integrated machine is ensured; the lifting, rotating and matching and time sequence coordination of each part of the conveying mechanism and the carrying mechanism are optimized and perfected, a system control scheme of sectional programming and program integration is provided, the failure occurrence rate of the all-in-one machine is reduced, and the discharging and packaging efficiency of dental floss products is greatly improved.

Drawings

FIG. 1 is a schematic view of the overall assembly structure of the integrated machine for detecting and packaging the quantity of dental floss.

FIG. 2 is a structural overview of the preferred embodiment of the kiosk shown in FIG. 1 from a top view.

Fig. 3 is a detailed structure diagram of a rack loading replacement unit in the preferred embodiment shown in fig. 2.

Fig. 4 is a detailed structural schematic diagram of a rack circulation carrying unit in the preferred embodiment shown in fig. 2.

Fig. 5 is a schematic view showing a detailed structure of a take-out station of the rack circulation carrying unit shown in fig. 4.

Fig. 6 is a schematic view showing a loading structure of the tray, the hanger and the dental floss used in the preferred embodiment shown in fig. 2.

FIG. 7 is a schematic view of the layout and operational functions of the flossing unit of the preferred embodiment of FIG. 2.

Fig. 8 is a schematic view of the details of the floss handling mechanism of the flossing unit of fig. 7.

Fig. 9 is a schematic view showing a detailed structure of a discharge hopper of the flossing unit of fig. 7.

Figure 10 is a schematic view showing the detailed structure of the closing mechanism provided in the package carrier unit of the preferred embodiment shown in figure 2.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in connection with the accompanying drawings for the purpose of understanding and controlling the technical solutions of the present invention, so as to define the protection scope of the present invention more clearly.

In order to solve the problem that the discharge efficiency of a production line is improved by dental floss products, designers creatively provide a dental floss quantity detection and packaging integrated machine which has a limited occupied area, a good operating environment and saves manpower by combining mechanical and electrified basic member design combination and combining Programmable Logic Controller (PLC), microprocessor or industrial control pc) programming control according to custom requirements of customers so as to meet the operating cost configuration of a single machine or multiple machines and one person and improve the convenience and efficiency of metering and packaging of dental floss products.

The structural composition and the general characteristics of the functional design of each part of the integrated machine for detecting and packaging the quantity of dental floss are understood, the integrated machine is formed by connecting and connecting the rigid platform cabinet 1 and a built-in main control unit (not shown), wherein the programming control part is not the technical characteristics claimed by the invention, and for a person with ordinary skill in the electronic application field, the programming control on power components such as motors, air cylinders and the like is mature basic skill, so the detailed description of the electrical connection between each part and the main control unit is omitted. Returning to the design features of the structure and functions of the integrated machine, as shown in fig. 1 to 4, 6 and 7, from the whole to the partial various structural schematic diagrams, the integrated machine for detecting and packaging the number of dental flosses can be generally composed of the following four main functional units.

One of the two is a rack circulating carrying unit 2, a first conveying mechanism 21 circulating along the linear length direction is arranged on the rigid platform cabinet 1, and more than one tray 81 for movably replacing the rack is distributed and carried in the first conveying mechanism 21. The main function of this part is to have the pallets driven in conveying circulation within a certain area, and the racks 82 in the pallets alternate between sometimes empty and sometimes full.

The second is a rack feeding replacing unit 3, one end of which near the first conveying mechanism 21 is provided with a rack carrying mechanism 31 and a rotating mechanism 32, wherein the rack carrying mechanism 31 is controlled between the first conveying mechanism 21 and the rotating mechanism 32 to take and place the rack 82 in an alternating manner, the rotating mechanism 32 is controlled from a tray 321 and adjusts the orientation of the rack 82, and the top of the rotating mechanism 32 is suspended with a CCD camera 4 (hereinafter referred to as CCD) for detecting the number of dental floss 91. This part of the main function is to cooperate with the aforesaid cyclic carrier unit of the rack to take part in the transfer of the rack with the dental floss 91 loaded thereon and to combine this with the manual work of changing the rack loaded with dental floss. It will be understood and appreciated that in this all-in-one application, the loading of the dental floss product on the hanger is still performed manually or by other means, not part of the present solution, and here the manual operation only involves the simple action of replacing the empty hanger in the work area tray with a fully loaded hanger. And through set up CCD at rotary mechanism top side, can carry out image acquisition, data analysis and obtain the dental floss count of high accuracy to the stores pylon that is fully loaded, cooperate industrial control display screen and touch keyboard etc. again, realize friendly and efficient human-computer interaction for the operating personnel are changeed in grasping current operation intensity.

The third is a packing box carrying unit 5, similar to the above-mentioned hanging rack circulating carrying unit 2, a second conveying mechanism 51 which is parallel to the first conveying mechanism 21 in the same direction and circulates is arranged on the surface of the rigid platform cabinet 1, and packing boxes 92 in an open state are seated in the second conveying mechanism 51 at equal intervals. The main function of the part is to enable the packaging box to be driven to rotate in a single direction in another adjacent area, and the packaging box is subjected to the change of no-load by opening a cover, loading, closing the cover and transferring the material in the rotating process.

The fourth is a dental floss carrying and filling unit 6, a servo module 61 and a dental floss carrying mechanism 62 are arranged on the surface of the rigid platform cabinet 1 and vertically cross-connected with two conveying mechanisms, the dental floss carrying mechanism 62 is provided with a three-axis cylinder 621 and a parallel air claw 622 along the servo module 61, and the parallel air claw 622 is controlled to move between the two conveying mechanisms and is used for regularly and quantitatively clamping the dental floss 91 along with the unidirectional transmission of the packing box 92 and filling the packing box. The main function of the part is to pick up a part of dental floss from the first conveying mechanism to be conveyed to the packing boxes of the second conveying mechanism in a certain rhythm and quantitative mode to complete the filling.

As can be seen from the scheme summarized above, the all-in-one machine participates in the packing operation of the dental floss after delivery, and on one hand, the all-in-one machine has the automatic quantity detection function based on the CCD camera. And when the detection result is the same as the preset quantity, the whole machine continues to normally operate, and when the detection result is not in accordance with the preset quantity due to missed hanging, reverse hanging, multiple hanging and the like, the whole machine is stopped and an alarm is given to remind an operator to verify and intervene. On the other hand, based on the functional combination of all parts of the hanger full of the dental floss, the different conveying mechanisms which are relatively independently controlled by the packing box and the carrying mechanism of the hanger or the dental floss, the traditional dental floss product split charging which is completely operated manually can be replaced, the efficiency and the accuracy are obviously improved, and the industrial automatic production line is favorably butted.

As shown in fig. 4 and 5, the above-mentioned pylon cyclic carrier unit 2, in view of further refinement features: the first conveying mechanism 21 is provided with an upper layer conveying belt 211 on the surface of a rigid platform cabinet, a lower layer conveying belt (not shown) with different driving directions relative to the upper layer conveying belt is arranged in the cabinet, two lifting type conveying belt groups 212 and 213 are respectively arranged at two ends of the two conveying belts, and a tray is alternated between the upper layer conveying belt and the lower layer conveying belt to form a circulating path of the tray. Specifically, one end close to the rotating mechanism 32 is mainly provided with an ascending conveyor belt mechanism, namely, when the ascending conveyor belt mechanism is positioned beside the upper-layer conveyor belt 211 and full-load hanger replacement is completed, a driving tray is conveyed to the upper-layer conveyor belt 211 to be emptied, then an air cylinder driven at the bottom is settled to the same horizontal line position of the lower-layer conveyor belt, and the tray conveyed from the lower-layer conveyor belt and the no-load hanger thereof are received and jacked to the same horizontal line position of the upper-layer conveyor belt; in contrast, the other end of the rotating mechanism 32 is mainly provided with a descending conveyor belt mechanism, that is, after the dental floss is conveyed, the empty rack and the tray thereof are conveyed backwards from the upper layer conveyor belt to the descending conveyor belt mechanism in the empty state, then the rack and the tray thereof are driven by the air cylinder at the bottom to be settled to the same horizontal line position of the lower layer conveyor belt, then the loaded tray is driven to be conveyed to the lower layer transmission layer, and the tray is continuously lifted after the empty tray is emptied. Thereby matching the upper and lower layer conveyer belts to realize the circulation of the tray and the hanging rack thereof. Here, although the lifting conveyor belt groups at both ends have the same lifting action, the lifting conveyor belt groups are defined by the distinction of the lifting type and the descending type based on the conveying direction of the loaded tray as a classification basis.

In order to match the positioning accuracy of the dental floss transportation, the first conveying mechanism 21 is provided with a blocking cylinder 22 and a lifting cylinder 23 which are built in the upper layer conveyor belt at the material taking station corresponding to the dental floss carrying and filling unit 6. In addition, as can be seen from the figure, in the embodiment, two material taking stations are provided and the racks at corresponding positions are provided with dental floss, and then the dental floss carrying and filling unit 6 is provided with two sets of servo modules 61 and a dental floss carrying mechanism 62 in a matching manner. Similarly, the first conveying mechanism 21 is also provided with a pair of blocking cylinders 22 and lifting cylinders 23 corresponding to the two material taking stations, and the quantitative pick-up setting of the dental floss carrying mechanism 62 is met by independently controlling the position of the positioning tray and the jacking height of the hanging rack.

As shown in fig. 3, the rack loading replacement unit 3 mainly includes a rack carrying mechanism 31, a rotating mechanism 32 and a specially designed and added CCD, and from the further detailed features: the rotating mechanism 32 is located at the extended outer end of the first conveying mechanism 21 in the linear length direction, the hanger conveying mechanism 31 is a hanger controlled by two-axis movement, and a pair of pneumatic clamping jaws 311 corresponding to the grasping and releasing of the hanger is arranged at the bottom side of the hanger. The rack carrying mechanism 31 is positioned beside the rotating mechanism 32 and the lifting conveyor belt set 213, and the pneumatic clamping jaws 311 are driven to move and exchange positions between the rotating mechanism 32 and the lifting conveyor belt set.

The rotating mechanism 32 includes a disc 321 and a rotating component integrally attached to the disc 321, and the disc 321 is controlled by a motor (not shown) disposed in the rigid platform cabinet 1 to rotate within 90 ° in a horizontal plane. The rotating assembly is provided with a support 322, a turning plate 323 pivoted to the support and a rotating cylinder arranged on the outer side of one end of the support, the turning plate 323 is driven to rotate within a range of 90 degrees in a lateral plane, and a tray 81 with the same specification and appearance as a circulating conveying tray is fixedly connected to the turning plate 323. The bidirectional overturning is mainly convenient for adjusting the carrying direction of the hanging rack and manually replacing the hanging rack.

Furthermore, as shown in fig. 6, the main body of the tray 81 is a flat rectangular block, the surface of the tray 81 is provided with a long strip-shaped rack positioning accommodating groove 811 and a positioning post 812 corresponding to the overall length of the dental floss product, and the tray 81 is provided with positioning holes 813 distributed around the rack positioning accommodating groove 811 and the positioning post 812. The shape of the rack 82 is characterized in that ten columns 822 with equal height and equal interval are integrally extended based on the strip-shaped substrate 821 in one direction. Therefore, the C-shaped openings of the floss strings 91 bound with the nylon threads can be sleeved on the upright posts 822 one by one, and the handheld ends of the floss strings 91 can be penetrated into the paired positioning columns 812, so that the floss strings can be orderly stacked and arranged on the rack. The positioning holes 813 are mainly used for positioning and matching the tray and each conveying belt, can be movably positioned and connected, and can also be directly fastened by screws and rivets.

As shown in fig. 7 and 10, the above-described pack carrier unit 5, in view of further refinement features: the second conveying mechanism 51 is provided with a first conveying belt 511A and a second conveying belt 511B which are synchronous and parallel, a separating groove 512 for loading packing boxes uniformly is formed on the surface of each conveying belt, and the tail end of each conveying belt is connected with a blanking metal plate 52 for discharging the packing boxes 92 to the turnover box 10. Here, the packing boxes 92 may be placed into the seating positions 513 in the gaps of the separation grooves 512 one by one in an uncapped state by an operator, or may be automatically seated by an external auxiliary device. For the all-in-one machine, it is only required to ensure that the packaging boxes are continuously seated at the source of the second conveying mechanism. For guaranteeing that the floss box is filled with the floss and then the package box is opened for bulk cargo during circulation and transportation, the second conveying mechanism 51 is provided with a cover closing mechanism 53 acting on the fully loaded package box at the rear station of the floss carrying and filling unit 6, the cover closing mechanism 53 comprises a limiting holding arm 531 for fixing the body of the package box, a forward pushing cylinder 532 for pushing the box cover to overturn to the acute angle opening and closing degree, and a downward pressing cylinder 533 for pressing the box cover to be flat. The three parts of the cover closing mechanism 53 are also coordinated through the program control of the main control unit to realize the required functions.

As shown in fig. 7 to 9, the above-mentioned flossing and filling unit 6 is seen from a further detailed feature: in the preferred embodiment, two sets of servo modules and a dental floss carrying mechanism are arranged on the dental floss carrying and filling unit 6 corresponding to one material taking station, corresponding to the two synchronous parallel conveyer belts related to the two material taking stations and the packing box. The first conveying mechanism drives the rack to sequentially traverse each material taking station, the dental floss conveying mechanisms uniformly distribute the quantity of the clamping dental floss, and the rack is moved out from the next material taking station in an idle state. Specifically, along packing carton transport circulation direction, get material station department and be equipped with corresponding stores pylon length to the first servo module and the second servo module that distribute and be parallel to each other near-end, and the first dental floss transport mechanism that connects based on two servo modules sets up with second dental floss transport mechanism relatively. Wherein, a rotary cylinder 623 is arranged between the three-axis cylinder and the parallel gas claws in the second dental floss carrying mechanism, so that the clamped dental floss is loaded into a packing box after the direction of rotation is changed. Similarly, a third servo module and a fourth servo module are also arranged at the far-end material taking station, a third dental floss carrying mechanism and a fourth dental floss carrying mechanism are connected based on the two servo modules, and a rotating cylinder is used for arranging the fourth dental floss carrying mechanism. And considering the time difference that each dental floss carrying mechanism slides along the servo module to reach the first conveying belt and the second conveying belt, and optimally setting the sliding limit and the filling object of the four dental floss carrying mechanisms. Examples are as follows: wherein the first and third floss carrying mechanisms only release the floss corresponding to the packing box of the second conveyer belt, and the second and fourth floss carrying mechanisms only release the floss corresponding to the packing box of the first conveyer belt, and the action setting of the rotary air cylinder is combined, so that the four floss carrying mechanisms can synchronously pick up the floss and synchronously release the floss to the packing box.

In view of the fact that the first conveying mechanism 21 drives the unidirectional transmission flow of the two material loading racks, the racks fully loaded at the proximal material taking station need to be subjected to one-time floss picking at the distal material taking station after one-time floss picking. Thus, the first and second floss carriers are designed to pick up only half of all the floss on the corresponding posts of the rack, and the third and fourth floss carriers empty the rack. The quantity of the dental floss picked up by each dental floss carrying mechanism depends on the descending depth of the parallel air claws, and is realized by control signals which are output by the program control of the three-axis air cylinder.

Furthermore, the second conveying mechanism 51 is provided with a feeding hopper 54 opposite to the packing box one by one corresponding to the feeding area of the dental floss carrying mechanism. In the preferred embodiment, the discharging hopper 54 is a four-hole plate for synchronously guiding and discharging four packages, and the bottom of the discharging hopper 54 is fixed to the surface of the platform by a guiding column 541 and is controlled by an air cylinder 542 to be adjustable in height.

In addition, as shown in fig. 1, the integrated machine for detecting and packaging the quantity of dental floss also comprises an integral framework 7 which enables the integrated machine to form a semi-closed shape in addition to the above-mentioned main functional units and the detailed characteristics thereof. The protective cover is formed by welding 60 multiplied by 60 square tubes, the protective cover arranged on the protective cover is formed by assembling 30 multiplied by 30 aluminum profiles and a transparent acrylic plate, and conventional peripherals such as a three-color alarm lamp 71, a touch screen 72, a display screen 73 and the like are positioned and assembled on the basis of the integral frame 7, so that the timeliness, the safety and the convenience of man-machine interaction are provided.

In summary, the detailed description of the integrated machine for detecting and packaging the number of dental floss according to the present invention in combination with the illustrated embodiment shows that the present solution has prominent substantive features and many significant advantages, which are summarized as follows: the two conveying mechanisms arranged on the basis of the rigid platform cabinet can realize the directional circulation of the packing box and the dental floss products carried by the hangers, and the circulation speed can be adjusted to match the feeding speed of the dental floss and the coordination of carrying and boxing; by the CCD arranged above the rotating mechanism, the automatic detection of the number of the dental floss fed can be realized, the signal transmission and the man-machine interaction can be realized while the manual feeding and the grabbing of the rack carrying mechanism are not influenced, and the accuracy of the complete dental floss carrying, distributing, containing and other back-end operations of the integrated machine is ensured; the lifting, rotating and matching and time sequence coordination of each part of the conveying mechanism and the carrying mechanism are optimized and perfected, a system control scheme of sectional programming and program integration is provided, the failure occurrence rate of the all-in-one machine is reduced, and the discharging and packaging efficiency of dental floss products is greatly improved.

In addition to the above embodiments, the present invention may have other embodiments, and any technical solutions formed by equivalent substitutions or equivalent transformations are within the scope of the present invention as claimed.

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