1. A high-speed air cock hot melt equipment detection line, characterized by: comprises an assembling part (1), a hot melting part (2), a detecting part (3), a screw cap bin (4), a corrugated pipe bin (5), a duckbill valve bin (6) and a controller (7), the assembly part (1) is connected with the detection part (3) through the hot melting part (2), the assembly unit (1) comprises a first conveying mechanism (13) and a second conveying mechanism (75), the first conveying mechanism (13) and the second conveying mechanism (75) are arranged in a matching way, the threaded cover bin (4) is connected with the assembling part (1), the corrugated pipe bin (5) is connected with the assembling part (1), the hot melting part (2) comprises a conveying mechanism (37) and a hot melting mechanism (38), the conveying mechanism (37) is matched with the hot melting mechanism (38), the detection part (3) comprises a moving mechanism (73) and a detection mechanism (74), and the moving mechanism (73) is matched with the detection mechanism (74).

2. The high-speed air tap hot melt assembly detection line of claim 1, which is characterized in that: the assembling part (1) comprises a first rail (9) and a second rail (23), a threaded cover (8) in the threaded cover bin (4) is movably connected with a first carrying plate (11) through the first rail (9), a first supporting seat (14) at the bottom of the first carrying plate (11) is connected with a first air cylinder (15), a first fixing block (10) is arranged on the upper side of the left end of the first carrying plate (11), the first fixing block (10) is connected with a second air cylinder (12), a second fixing block (30) is arranged on the other side of the first fixing block (10), the second fixing block (30) is connected with a third air cylinder (31), a first carrying mechanism (13) is arranged at the right end of the first fixing block (10), the first carrying mechanism (13) comprises a fourth air cylinder (16), a fifth air cylinder (19) and a sixth air cylinder (20), the fourth air cylinder (16) is connected with a first clamp (17), the fourth cylinder (16) is connected with a fifth cylinder (19) through a first movable plate (18), the fifth cylinder (19) is connected with a sixth cylinder (20), a corrugated pipe (22) in the corrugated pipe bin (5) is movably connected with a turnover cylinder (21) through a second rail (23), a second carrying mechanism (75) is arranged on one side of the turnover cylinder (21), the second carrying mechanism (75) comprises a seventh cylinder (24), the seventh cylinder (24) is connected with a ninth cylinder (65) through an eighth cylinder (25), a second clamp (26) on the ninth cylinder (65) is connected with a limiting hole (29) through the corrugated pipe (22), the limiting hole (29) is connected with a tenth cylinder (68) through a first limiting plate (67), and the lower side of a threaded cover (8) in the limiting hole (29) is connected with a second carrying plate (36), the second carrying plate (36) is connected with a supporting plate (35) through a second supporting seat (34), and the supporting plate (35) is connected with an eleventh air cylinder (32) through a connecting plate (33).

3. The high-speed air tap hot melt assembly detection line of claim 1, which is characterized in that: the conveying mechanism (37) comprises a twelfth air cylinder (39), the twelfth air cylinder (39) is connected with a second movable plate (40) through a thirteenth air cylinder (69), the second movable plate (40) is connected with a threaded cover (8) through a third clamp (42) on a fourteenth air cylinder (41), the hot melting mechanism (38) comprises a fifteenth air cylinder (43) and a high-speed motor (45), the fifteenth air cylinder (43) is connected with a corrugated pipe (22) through a fourth clamp (44), the corrugated pipe (22) is connected with the high-speed motor (45) through the threaded cover (8), a conveying plate (46) is arranged on the upper side of the fifteenth air cylinder (43), the bottom end of the conveying plate (46) is connected with a fixed plate (72), the fixed plate (72) is connected with the threaded cover (8) through a fifth clamp (71) on a sixteenth air cylinder (70), and a seventeenth air cylinder (47) at the top end of the conveying plate (46) is connected with the fixed plate (72), the other side of the conveying plate (46) is connected with a conveyor belt (49) through a connecting block (48).

4. The high-speed air tap hot melt assembly detection line of claim 1, which is characterized in that: the moving mechanism (73) comprises an eighteenth air cylinder (50), the eighteenth air cylinder (50) is connected with a transfer plate (66), the detection mechanism (74) comprises a conveying plate (46) and a third rail (59), the bottom end of the conveying plate (46) is connected with a fixing plate (72), the fixing plate (72) is connected with a corrugated pipe (22) through a sixth clamp (53) on a nineteenth air cylinder (52), a duckbill valve (58) in the duckbill valve cabin (6) is connected with a twentieth air cylinder (60) through a third rail (59), the upper side of the twentieth air cylinder (60) is connected with a seventh clamp (61), a twenty-first air cylinder (55) is arranged on the upper side of the third rail (59), the twenty-first air cylinder (55) is connected with a twenty-second air cylinder (57) through a suction plate (56), and the twenty-second air cylinder (57) is connected with a threaded cover (8) through the duckbill valve (58), the seventeenth cylinder (47) at the top end of the conveying plate (46) is connected with the fixing plate (72), the other side of the conveying plate (46) is connected with the conveying belt (49) through a connecting block (48), a camera (62) and a receiver (63) are arranged on the middle left side of the detection part (3), and a material receiving hopper (64) is arranged on the middle right side of the detection part (3).

5. The high-speed air tap hot melt assembly detection line of claim 4, which is characterized in that: the assembling part (1), the hot melting part (2) and the detecting part (3) are electrically connected with the controller (7), and the position of the camera (62) is adapted to the position of the receiver (63).

6. The high-speed air tap hot melt assembly detection line of claim 1, which is characterized in that: bellows storehouse (5) have two, and distribute in the both sides of equipment portion (1), duckbill valve storehouse (6) have two, and distribute in the homonymy of detection portion (3).

7. The high-speed air tap hot melt assembly detection line of claim 3, which is characterized in that: both sides are equipped with twenty-third cylinder (27) on first transport board (11), twenty-third cylinder (27) are connected with second limiting plate (28), both sides are equipped with twenty-third cylinder (27) on second transport board (36), twenty-third cylinder (27) are connected with second limiting plate (28), both sides are equipped with twenty-third cylinder (27) under second fly leaf (40), twenty-third cylinder (27) are connected with third limiting plate (51).

8. The high-speed air tap hot melt assembly detection line of claim 4, which is characterized in that: the inner side of the conveying plate (46) is connected with a fourth rail (54).

Background

When a factory produces a product, the product and the accessory are generally fixed through screws or adhesives during assembly, but after the product is introduced into the market, other enterprises or workshops can study and copy the product through disassembly, so that the price of the product cannot be reflected in the labor efforts for developing the product.

For example, the hot-melt sealing and fixing assembly device disclosed in chinese patent application No. CN201811575671.5 is provided with a machine table, and the corresponding positions on the left and right sides of the top plate of the machine table are divided into an assembly area and a hot-melt area; a screw feeding mechanism, a ring sleeve feeding mechanism and a hot melting mechanism are arranged in the hot melting area, and the hot melting mechanism is arranged at the tops of the screw feeding mechanism and the ring sleeve feeding mechanism; at least one group of clamp mechanisms are arranged in the assembling area; the fixture mechanism is provided with a fixture device and a hot melting stabilizing device, the fixture device is installed on the top plate of the machine table, and the hot melting stabilizing device is installed at the top of the fixture device and corresponds to the fixture device up and down.

Although the safety of the product can be correspondingly improved by using the assembling equipment, the imitation difficulty of the product is improved, and the market risk of the corresponding product is reduced, the efficiency of the product in production is not high, the use is not convenient, and the efficiency is not high.

Disclosure of Invention

The technical problem to be solved by the invention is to provide the hot-melt assembling equipment, and the hot-melt assembling equipment can ensure that the product has good production efficiency in the production process.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: a high-speed air tap hot melting assembly detection line comprises an assembly part, a hot melting part, a detection part, a threaded cover bin, a corrugated pipe bin, a duckbilled valve bin and a controller, wherein the assembly part is connected with the detection part through the hot melting part; the assembling part comprises a first carrying mechanism and a second carrying mechanism, the first carrying mechanism is matched with the second carrying mechanism, the threaded cover bin is connected with the assembling part, the corrugated pipe bin is connected with the assembling part, the hot melting part comprises a carrying mechanism and a hot melting mechanism, the carrying mechanism is matched with the hot melting mechanism, the detecting part comprises a moving mechanism and a detecting mechanism, and the moving mechanism is matched with the detecting mechanism.

As a further scheme of the present invention, the assembling portion includes a first rail and a second rail, the screw cap in the screw cap bin is movably connected to a first carrying plate through the first rail, a first supporting seat at the bottom of the first carrying plate is connected to a first cylinder, a first fixing block is arranged on the upper side of the left end of the first carrying plate, the first fixing block is connected to a second cylinder, a second fixing block is arranged on the other side of the first fixing block, the second fixing block is connected to a third cylinder, a first carrying mechanism is arranged at the right end of the first fixing block, the first carrying mechanism includes a fourth cylinder, a fifth cylinder and a sixth cylinder, the fourth cylinder is connected to a first clamp, the fourth cylinder is connected to the fifth cylinder through a first movable plate, the fifth cylinder is connected to a sixth cylinder, and the bellows in the bellows bin is movably connected to the overturn cylinder through the second rail, the utility model discloses a bearing frame, including upset cylinder, spacing hole, first limiting plate and tenth cylinder, upset cylinder one side is equipped with second transport mechanism, second transport mechanism includes the seventh cylinder, the seventh cylinder passes through the eighth cylinder and is connected with the ninth cylinder, second anchor clamps on the ninth cylinder pass through bellows and spacing jogged joint, spacing hole passes through first limiting plate and is connected with the tenth cylinder, the screw cap downside in spacing hole is connected with second transport board, second transport board passes through the second supporting seat and is connected with the backup pad, the backup pad passes through the connecting plate and is connected with the eleventh cylinder.

As a further aspect of the present invention, the carrying mechanism includes a twelfth cylinder, the twelfth cylinder is connected to the second movable plate through a thirteenth cylinder, the second movable plate is connected to the threaded cap through a third clamp on a fourteenth cylinder, the heat-melting mechanism includes a fifteenth cylinder and a high-speed motor, the fifteenth cylinder is connected to the bellows through a fourth clamp, the bellows is connected to the high-speed motor through the threaded cap, a conveying plate is disposed on an upper side of the fifteenth cylinder, a bottom end of the conveying plate is connected to the fixed plate, the fixed plate is connected to the threaded cap through a fifth clamp on the sixteenth cylinder, a seventeenth cylinder at a top end of the conveying plate is connected to the fixed plate, and the other side of the conveying plate is connected to the conveyor belt through a connecting block.

As a further scheme of the invention, the moving mechanism comprises an eighteenth air cylinder, the eighteenth air cylinder is connected with the transfer plate, the detection mechanism comprises a conveying plate and a third rail, the bottom end of the conveying plate is connected with a fixed plate, the fixed plate is connected with a corrugated pipe through a sixth clamp on a nineteenth air cylinder, a duckbill valve in the duckbill valve cabin is connected with a twentieth air cylinder through the third rail, the upper side of the twentieth air cylinder is connected with a seventh clamp, the upper side of the third rail is provided with a twenty-first air cylinder, the twenty-first air cylinder is connected with a twenty-second air cylinder through a suction plate, the twenty-second air cylinder is connected with a threaded cap through a duckbill valve, a seventeenth air cylinder at the top end of the conveying plate is connected with the fixed plate, the other side of the conveying plate is connected with the conveying belt through a connecting block, and the middle left side of the detection part is provided with a camera and a receiver, and a material receiving hopper is arranged on the middle right side of the detection part.

As a further aspect of the present invention, the assembling portion, the heat melting portion, and the detecting portion are electrically connected to the controller, and the position of the camera is adapted to the position of the receiver.

As a further scheme of the invention, two corrugated pipe bins are arranged and distributed on two sides of the assembling part, and two duckbill valve bins are arranged and distributed on the same side of the detecting part.

According to a further scheme of the invention, twenty-third cylinders are arranged on two sides of the first carrying plate and connected with the second limiting plate, twenty-third cylinders are arranged on two sides of the second movable plate and connected with the third limiting plate, and twenty-third cylinders are arranged on two sides of the second movable plate and connected with the third limiting plate.

As a further aspect of the invention, the inner side of the carrying plate is connected to a fourth rail.

As the technical scheme is adopted, the invention has the advantages and positive effects that: the controller controls the assembly part, the conveying mechanism, the hot melting mechanism, the moving mechanism and the detection mechanism, so that the organization, hot melting and detection of products can be efficiently finished, and the use is convenient and efficient.

Drawings

FIG. 1 is a front view of a high-speed air nozzle hot-melt assembly detection line according to the present invention.

FIG. 2 is a top view of a high-speed air nozzle hot-melt assembly detection line according to the present invention.

Fig. 3 is a front view of the assembly portion.

Fig. 4 is a plan view of the assembly portion.

Fig. 5 is a schematic view of the eighth cylinder structure.

Fig. 6 is a front view of the first carrier plate.

Fig. 7 is a left side view of the first carrier board.

Fig. 8 is a right side view of the first carrier board.

Fig. 9 is a front view of the heat fusion part.

Fig. 10 is a front view of the conveying mechanism.

Fig. 11 is a front view of the heat staking mechanism.

Fig. 12 is a schematic structural view of a high-speed motor.

Fig. 13 is a schematic view of the structure of the conveyance board.

Fig. 14 is a schematic structural view of the moving mechanism.

Fig. 15 is a front view of the detection section.

Fig. 16 is a front view of the detection mechanism.

Fig. 17 is an enlarged view of a in fig. 16.

In the figure: 1 is an assembly part, 2 is a hot melting part, 3 is a detection part, 4 is a screw cap bin, 5 is a bellows bin, 6 is a duckbill valve bin, 7 is a controller, 8 is a screw cap, 9 is a first rail, 10 is a first fixing block, 11 is a first carrying plate, 12 is a second cylinder, 13 is a first carrying mechanism, 14 is a first support seat, 15 is a first cylinder, 16 is a fourth cylinder, 17 is a first clamp, 18 is a first movable plate, 19 is a fifth cylinder, 20 is a sixth cylinder, 21 is a turnover cylinder, 22 is a bellows, 23 is a second rail, 24 is a seventh cylinder, 25 is an eighth cylinder, 26 is a second clamp, 27 is a twenty-third cylinder, 28 is a second limiting plate 28, 29 is a limiting hole, 30 is a second fixing block, 31 is a third cylinder, 32 is an eleventh cylinder, 33 is a connecting plate, 34 is a second support seat, 35 is a support plate, 36 is a second carrying plate, 37 is a conveying mechanism, 38 is a hot melting mechanism, 39 is a twelfth air cylinder, 40 is a second movable plate, 41 is a fourteenth air cylinder, 42 is a third clamp, 43 is a fifteenth air cylinder, 44 is a fourth clamp, 45 is a high-speed motor, 46 is a conveying plate, 47 is a seventeenth air cylinder, 48 is a connecting block, 49 is a conveyor belt, 50 is an eighteenth air cylinder, 51 is a third limiting plate, 52 is a nineteenth air cylinder, 53 is a sixth clamp, 54 is a fourth rail, 55 is a twenty-first air cylinder, 56 is a suction plate, 57 is a twenty-second air cylinder, 58 is a duckbill valve, 59 is a third rail, 60 is a twentieth air cylinder, 61 is a seventh clamp, 62 is a camera, 63 is a receiver, 64 is a receiving hopper, 65 is a ninth air cylinder, 66 is a transfer plate, 67 is a first limiting plate, 68 is a tenth air cylinder, 69 is a thirteenth air cylinder, 70 is a sixteenth air cylinder, 71 is a fifth clamp, 72 is a fixing plate, reference numeral 73 denotes a moving mechanism, 74 denotes a detecting mechanism, and 75 denotes a second conveying mechanism.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 17, the high-speed air tap hot melting assembly detection line of the invention comprises an assembly part 1, a hot melting part 2, a detection part 3, a threaded cap bin 4, a corrugated pipe bin 5, a duckbill valve bin 6 and a controller 7, wherein the assembly part 1 is connected with the detection part 3 through the hot melting part 2; the assembly part 1 comprises a first conveying mechanism 13 and a second conveying mechanism 75, the first conveying mechanism 13 is matched with the second conveying mechanism 75, the threaded cover bin 4 is connected with the assembly part 1, the corrugated pipe bin 5 is connected with the assembly part 1, the hot melting part 2 comprises a conveying mechanism 37 and a hot melting mechanism 38, the conveying mechanism 37 is matched with the hot melting mechanism 38, the detection part 3 comprises a moving mechanism 73 and a detection mechanism 74, and the moving mechanism 73 is matched with the detection mechanism 74. The materials in the screw cap bin 4 and the corrugated pipe bin 5 are assembled in the assembling part 1 and are subjected to hot melting in the hot melting part 2 and then are conveyed to the detecting part 3 to be subjected to product detection.

Further, the assembly part 1 comprises a first rail 9 and a second rail 23, the screw cap 8 in the screw cap bin 4 is movably connected with a first carrying plate 11 through the first rail 9, a first supporting seat 14 at the bottom of the first carrying plate 11 is connected with a first air cylinder 15, a first fixing block 10 is arranged on the upper side of the left end of the first carrying plate 11, the first fixing block 10 is connected with a second air cylinder 12, a second fixing block 30 is arranged on the other side of the first fixing block 10, the second fixing block 30 is connected with a third air cylinder 31, a first carrying mechanism 13 is arranged at the right end of the first fixing block 10, the first carrying mechanism 13 comprises a fourth air cylinder 16, a fifth air cylinder 19 and a sixth air cylinder 20, the fourth air cylinder 16 is connected with a first clamp 17, the fourth air cylinder 16 is connected with the fifth air cylinder 19 through a first movable plate 18, the fifth air cylinder 19 is connected with the sixth air cylinder 20, bellows 22 in the bellows storehouse 5 passes through second track 23 and upset cylinder 21 swing joint, upset cylinder 21 one side is equipped with second transport mechanism 75, second transport mechanism 75 includes seventh cylinder 24, seventh cylinder 24 is connected with ninth cylinder 65 through eighth cylinder 25, second anchor clamps 26 on the ninth cylinder 65 pass through bellows 22 and are connected with spacing hole 29, spacing hole 29 is connected with tenth cylinder 68 through first limiting plate 67, the 8 downside of screw cap in the spacing hole 29 is connected with second transport board 36, second transport board 36 passes through second supporting seat 34 and is connected with backup pad 35, backup pad 35 passes through connecting plate 33 and is connected with eleventh cylinder 32. The screw caps 8 in the screw cap bin 4 are conveyed to the position of the limiting hole 29 by the first conveying mechanism 13 and the second conveying plate 36, and the corrugated pipes 22 in the corrugated pipe bin 5 are inserted into the screw caps 8 by the second conveying mechanism 75 to complete assembly and are used by the hot melting part 2 in the post-process.

Further, the carrying mechanism 37 includes a twelfth air cylinder 39, the twelfth air cylinder 39 is connected to the second movable plate 40 through a thirteenth air cylinder 69, the second movable plate 40 is connected to the screw cap 8 through a third clamp 42 on a fourteenth air cylinder 41, the heat-melting mechanism 38 includes a fifteenth air cylinder 43 and a high-speed motor 45, the fifteenth air cylinder 43 is connected to the corrugated pipe 22 through a fourth clamp 44, the corrugated pipe 22 is connected to the high-speed motor 45 through the screw cap 8, a conveying plate 46 is disposed on the upper side of the fifteenth air cylinder 43, the bottom end of the conveying plate 46 is connected to a fixed plate 72, the fixed plate 72 is connected to the screw cap 8 through a fifth clamp 71 on a sixteenth air cylinder 70, a seventeenth air cylinder 47 at the top end of the conveying plate 46 is connected to the fixed plate 72, and the other side of the conveying plate 46 is connected to the conveyor belt 49 through a connecting block 48. The product that the screw cap 8 and bellows 22 assembled is accomplished is carried to high-speed motor 45 by carrying mechanism 37 on, fixes bellows 22 by fourth anchor clamps 44, and high-speed motor 45 drives screw cap 8 high-speed rotatory, utilizes the principle of the heat generation of friction to carry out the hot melt, uses convenient high efficiency.

In the present invention, the moving mechanism 73 includes an eighteenth air cylinder 50, the eighteenth air cylinder 50 is connected to the transfer plate 66, the detecting mechanism 74 includes a conveying plate 46 and a third rail 59, the bottom end of the conveying plate 46 is connected to a fixing plate 72, the fixing plate 72 is connected to the bellows 22 through a sixth clamp 53 on a nineteenth air cylinder 52, the duckbill valve 58 in the duckbill valve chamber 6 is connected to a twentieth air cylinder 60 through the third rail 59, the upper side of the twentieth air cylinder 60 is connected to a seventh clamp 61, a twenty-first air cylinder 55 is arranged on the upper side of the third rail 59, the twenty-first air cylinder 55 is connected to a twenty-second air cylinder 57 through a suction plate 56, the twenty-second air cylinder 57 is connected to the screw cap 8 through the duckbill valve 58, a seventeenth air cylinder 47 on the top end of the conveying plate 46 is connected to the fixing plate 72, the other side of the conveying plate 46 is connected to the conveyor belt 49 through a connecting block 48, the middle left side of the detection part 3 is provided with a camera 62 and a receiver 63, and the middle right side of the detection part 3 is provided with a material receiving hopper 64. The hot melt finished product drives the fifth clamp 71 to be conveyed to the moving mechanism 73 through the conveying plate 46, then the fifth clamp is conveyed to the detection mechanism 74 through the moving mechanism 73, the duckbill valve 58 is sucked through the second twelve air cylinder 57 and then inserted into the threaded cover 8, then the sixth clamp 53 is driven to move rightwards through the conveying plate 46, the size of a part can be measured through photographing of the camera 62, and then whether the product is qualified or not is judged through measuring the height difference of the product, so that the use is convenient and efficient.

Further, the assembling unit 1, the heat melting unit 2, and the detecting unit 3 are electrically connected to the controller 7, and the position of the camera 62 is adapted to the position of the receiver 63. The controller 7 controls the operation and stop of each cylinder of the assembling part 1, the hot melting part 2 and the detecting part 3, so that the assembling, the hot melting and the detection can be automatically carried out, and the use is convenient and efficient; can shoot the size of measuring the part through camera 62 and receiver 63's synergism, and then judge whether qualified through the difference in height of measuring the product, use convenient high efficiency.

Furthermore, the number of the bellows chambers 5 is two, and the bellows chambers are distributed on two sides of the assembly part 1, and the number of the duckbill valve chambers 6 is two, and the duckbill valve chambers are distributed on the same side of the detection part 3. Two duckbill valve silos 6 are located the detection part 3 homonymy. The two corrugated pipe bins 5 are positioned at the two sides of the assembling part 1, so that the overlarge floor area can be effectively avoided, and the corrugated pipe 22 can be efficiently inserted into the threaded cover 8; can be before detecting the product, accomplish the equipment on inserting screw cap 8 with duckbill valve 58, use convenient high efficiency.

Further, twenty-third air cylinders 27 are arranged on two sides of the first carrying plate 11, the twenty-third air cylinders 27 are connected with the second limiting plate 28, twenty-third air cylinders 27 are arranged on two sides of the second carrying plate 36, the twenty-third air cylinders 27 are connected with the second limiting plate 28, twenty-third air cylinders 27 are arranged on two sides of the second movable plate 40, and the twenty-third air cylinders 27 are connected with the third limiting plate 51. When the screw caps 8 clamped by the first clamp 17 on the first movable plate 18 need to be moved backwards and placed on the second carrying plate 36, the second limiting plate 28 needs to be moved towards two sides by the operation of the twenty-third air cylinder 27, and after the screw caps 8 are placed on the second carrying plate 36, the twenty-third air cylinder 27 operates to move the second limiting plate 28 inwards to limit the screw caps 8, so that the screw caps 8 are prevented from sliding and falling off, and the stability is good; when the screw caps 8 and the corrugated pipes 22 on the conveying mechanism 37 need to be conveyed to the hot melting mechanism 38, the second limiting plate 28 needs to be moved to two sides by the operation of the twenty-third air cylinder 27, after the screw caps 8 are clamped by the third clamp 42, the second movable plate 40 is driven by the thirteenth air cylinder 69 to move upwards, and then the twelfth air cylinder 39 pushes the second movable plate 40 into the hot melting mechanism 38, the second conveying plate 36 conveys the next batch of screw caps 8 and corrugated pipes 22 into the conveying mechanism 37, and the twenty-third air cylinder 27 operates to move the second limiting plate 28 inwards to limit the screw caps 8, so that the screw caps 8 and the corrugated pipes 22 are prevented from sliding and falling off, and the stability is good; the screw cap 8 and the corrugated pipe 22 after hot melting are conveyed to the conveying plate 66 through the fifth clamp 71 on the conveying plate 46, the twenty-third cylinders 27 on the two sides drive the third limiting plate 51 to move inwards, the screw cap 8 and the corrugated pipe 22 are limited, the screw cap 8 and the corrugated pipe 22 are prevented from sliding and falling, and the stability is good.

Further to the present invention, the inner side of the carrying plate 46 is connected to a fourth rail 54. The conveying plate 46 is connected with the fourth rail 54 in a matching mode, and when the conveying plate 46 can slide on the fourth rail 54 when the connecting block 48 is driven by the conveyor belt 49 to move, the fourth rail 54 can provide strong support and is good in stability.

The production line flow of the invention for producing the product is as follows:

assembling: the first air cylinder 15 is operated to move the first carrying plate 11 leftwards, the eleventh air cylinder 32 is operated to move the second carrying plate 36 leftwards, the threaded cap 8 in the threaded cap bin 4 is conveyed towards the first carrying plate 11 through the first rail 9, when the threaded cap 8 reaches the second fixed block 30, the third air cylinder 31 is operated to lift the second fixed block 30, the threaded cap 8 falls into the first carrying plate 11, the third air cylinder 31 is operated to lower the second fixed block 30, the second air cylinder 12 is operated to move the first fixed block 10 forwards to accurately position the threaded cap 8, the first air cylinder 15 is operated to drive the first carrying plate 11 to move rightwards, after four threaded caps 8 are arranged on the first carrying plate 11, the first air cylinder 15 is operated to drive the first carrying plate 11 to move rightwards again, the twenty-third air cylinders 27 on two sides of the first carrying plate 11 are operated to move the second limiting plate 28 to two sides, and the fifth air cylinder 19 is operated to drive the first movable plate 18 to move downwards, the fourth cylinder 16 operates to enable the first clamp 17 to clamp the threaded cap 8, the fifth cylinder 19 and the sixth cylinder 20 are recovered, when the first clamp 17 reaches a position right above the left end of the second carrying plate 36, the fifth cylinder 19 operates to drive the first movable plate 18 to move downwards, the fourth cylinder 16 operates to enable the first clamp 17 to loosen the threaded cap 8, after the threaded cap 8 falls into a station of the second carrying plate 36, the twenty-third cylinders 27 on two sides of the second carrying plate 36 operate to move the second limiting plate 28 inwards to limit the position, the sixth cylinder 20 drives the fifth cylinder 19 and the first movable plate 18 to move to the upper side of the first carrying plate 11, and meanwhile, the eleventh cylinder 32 operates to move the second carrying plate 36 leftwards to the lower side of the limiting hole 29; the corrugated pipes 22 in the corrugated pipe bin 5 move towards the turnover cylinder 21 through the second rail 23, after the turnover cylinder 21 turns over the two corrugated pipes 22 by 90 degrees, the seventh cylinder 24 drives the eighth cylinder 25 to move, the second clamp 26 on the ninth cylinder 65 inserts the corrugated pipes 22 into the threaded cover 8 in the limiting hole 29, and the eleventh cylinder 32 operates to move the second carrying plate 36 to the right into the carrying mechanism 37.

Hot melting: when the third clamp 42 clamps 8 threaded caps 8 and the corrugated pipe 22, the twenty-third cylinder 27 operates to move the second limiting plate 28 to two sides, the thirteenth cylinder 69 operates to drive the second movable plate 40 to move upwards, the twelfth cylinder 39 operates to push the thirteenth cylinder 69 to the hot melting mechanism 38, when the third clamp 42 is right above the high-speed motor 45, the thirteenth cylinder 69 operates to drive the second movable plate 40 to move downwards, the fourteenth cylinder 41 operates to release the third clamp 42, the threaded cap 8 is placed in the high-speed motor 45, the conveying mechanism 37 is reset, the fifteenth cylinder 43 operates to clamp the corrugated pipe 22 by the fourth clamp 44, the high-speed motor 45 drives the threaded cap 8 to rotate at a high speed, so that the joint of the threaded cap 8 and the corrugated pipe 22 is subjected to hot melting due to friction, and after the hot melting is completed, the fifteenth cylinder 43 operates to release the corrugated pipe 22 by the fourth clamp 44, the seventeenth air cylinder 47 on the conveying plate 46 lowers the fixing plate 72, the sixteenth air cylinder 70 operates to enable the fifth clamp 71 to clamp the screw cap 8, then the seventeenth air cylinder 47 lifts the fixing plate 72, and the conveyor belt 49 operates to drive the conveying plate 46 to move towards the end of the moving mechanism 73.

And (3) detection: after the screw cap 8 and the corrugated pipe 22 which are subjected to hot melting are placed on the transfer plate 66, the twenty-third air cylinder 27 operates to drive the third limiting plate 51 to fix the screw cap 8, the transfer plate 66 is pushed to the lower part of the sixth clamp 53 through the operation of the eighteenth air cylinder 50, the seventeenth air cylinder 47 lowers the fixing plate 72, the nineteenth air cylinder 52 operates to enable the sixth clamp 53 to clamp the corrugated pipe 22, the duckbill valve 58 in the duckbill valve bin 6 is conveyed towards the direction of the screw cap 8 through the third rail 59, when the twenty-second air cylinder 57 needs to suck the duckbill valve 58, the twentieth air cylinder 60 operates to enable the seventh clamp 61 to be opened, after the twenty-second air cylinder 57 sucks the duckbill valve 58, the twenty-first air cylinder 55 pushes the suction plate 56, so that the duckbill valve 58 sucked by the twenty-second air cylinder 57 is inserted into the screw cap 8, and the product is manufactured; seventeenth cylinder 47 promotes fixed plate 72, and conveyer belt 49 operation drives transport plate 46 and removes to camera 62 direction, can shoot the size of measuring the part through camera 62 and receiver 63's synergism, and then judges whether the product is qualified through the difference in height of measuring the product, and qualified product falls into the qualified feed bin of receiving hopper 64, and unqualified product falls into the bad feed bin of receiving hopper 64.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity from another entity without necessarily requiring or implying any actual such relationship or order between such entities.

Although specific embodiments of the present invention have been described above, it will be appreciated by those skilled in the art that these are merely examples and that many variations or modifications may be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims.