1. An image center integrated film storage and reading device comprises a machine shell (1), wherein a film storage bin (2) and a film reading chamber (3) are arranged on the machine shell (1) in parallel from left to right, a backlight lamp (4) is arranged in the film reading chamber (3), the image center integrated film storage and reading device is characterized in that the film storage bin (2) and the film reading chamber (3) are communicated through a channel (5), a plurality of transverse shafts (6) arranged above the channel (5) are arranged in the film storage bin (2), the transverse shafts (6) are divided into an upper group and a lower group and are distributed in a front-back staggered manner, a left straight groove and a right straight groove (7) arranged in the film storage bin (2) are arranged on the machine shell (1), the straight grooves (7) are arranged in the front-back manner, two ends of the upper group of transverse shafts (6) are respectively arranged in the two straight grooves (7) in a front-back sliding manner, a left curved groove and a right curved groove (8) arranged in the film storage bin (2) are arranged on the machine shell (1), the bent grooves (8) are arranged in the front and back direction, the front sections and the back sections of the bent grooves (8) are parallel to the straight grooves (7), the middle sections of the bent grooves (8) are bent towards the straight grooves (7), and the two ends of the lower group of transverse shafts (6) are respectively arranged in the two bent grooves (8) in a front and back sliding manner; any one of the upper transverse shafts (6) and the lower adjacent transverse shafts (6) are hinged through a connecting rod (9) to form a straight tooth structure; a transparent plate (10) which is connected with the transverse shaft (6) in a sliding way along the axial direction of the transverse shaft (6) is arranged on the transverse shaft (6) which slides back and forth along the straight groove (7), the direction of the transparent plate (10) is consistent with the direction of the transverse shaft (6), and a slot (11) with an opening facing to the right is arranged on the transparent plate (10); the channel (5) corresponds to the bending section of the bending groove (8).

2. The image center integrated film storage and reading device as claimed in claim 1, wherein any one of the upper horizontal shafts (6) and the lower adjacent horizontal shafts (6) are synchronously hinged through two connecting rods (9) which are parallel to each other left and right to form two straight tooth structures which are parallel to each other, the two connecting rods (9) which are parallel to each other left and right are respectively arranged at two ends of the horizontal shafts (6), and the transparent plate (10) is arranged between the two connecting rods (9) which are parallel to each other left and right.

3. The integrated image center film storage and reading device as claimed in claim 1, wherein the housing (1) has an interlayer for accommodating the connecting rod (9).

4. The image center integrated film storage and reading device as claimed in claim 1, wherein the transverse shaft (6), the straight groove (7), the curved groove (8) and the connecting rod (9) constitute a film storage positioning control mechanism, the film storage positioning control mechanism has two films and is symmetrically arranged on the upper side and the lower side of the channel (5), and the upper end and the lower end of the transparent plate (10) are respectively connected with the corresponding transverse shaft (6) of the two film storage positioning control mechanisms which slides back and forth along the straight groove (7) in an axial sliding manner.

5. The image center integrated film storage and reading device as claimed in claim 1, wherein the housing (1) is provided with a gear (12) disposed above the middle section of the curved slot (8), and the gear (12) is engaged with a large opening angle straight tooth structure corresponding to the middle section of the curved slot (8).

6. The integrated image center film storing and reading device as claimed in claim 4, wherein the housing (1) is provided with two gears (12) corresponding to the two positioning control mechanisms one by one, the two gears (12) are symmetrically arranged up and down, the gears (12) are engaged with the corresponding large-opening-angle straight tooth structure at the middle section of the corresponding curved groove (8), and the two gears (12) are in transmission connection through the gear reversing mechanism (13) to enable the two gears (12) to synchronously rotate in opposite directions.

7. The integrated image center storing and reading device according to claim 5, wherein the casing (1) is provided with a rotating wheel (14) in transmission connection with the gear (12), the outer edge surface of the rotating wheel (14) is provided with a plurality of circumferentially and uniformly distributed sunken grooves (15), and the sunken grooves (15) are internally provided with name tags (16).

8. The image center integrated film storage and reading device as claimed in claim 7, wherein the sinking grooves (15) are spirally distributed along the circumference of the rotating wheel (14).

9. The image center integrated storage and reading device according to claim 8, wherein a spiral groove (17) is formed in an outer edge surface of the rotating wheel (14), the sunk grooves (15) are formed in the bottom of the spiral groove (17) and are uniformly distributed along a spiral line direction of the spiral groove (17), a window (18) corresponding to the rotating wheel (14) is formed in the casing (1), a shielding sheet (19) corresponding to the window (18) is formed in the casing (1), the shielding sheet (19) is connected with the casing (1) in a sliding manner along an axial direction of the rotating wheel (14), and a display hole (20) is formed in the shielding sheet (19); the shielding sheet (19) is connected with the spiral groove (17) in a sliding mode.

10. The image center integrated film storage and reading device as claimed in any one of claims 5 to 9, wherein the housing (1) is provided with a control knob (21) coaxially connected with the gear (12).

Background

The image center plays a role in data acquisition and analysis in the medical diagnosis process, has no substitution in the diagnosis and treatment process of some serious diseases, and the main medical means is to acquire the internal images of the body of a patient by using an image scanning device and give scientific judgment through the observation and analysis of the acquired images; under the general condition, after obtaining the health image, can make black and white film pack the file bag and supply patient and doctor to observe the use into, so most doctors often have a large amount of different patient's scanning films in hand, need to look over repeatedly during the use and just can find corresponding patient's file bag, then take out and fix and observe and explain on reading the piece device with it, the use end will be deposited into corresponding patient's file bag again and deposit, not only waste time and energy, complex operation is inconvenient, and the name on the archives is mostly the handwriting, difficult discernment, it is very confusing to have negligence slightly, lead to medical diagnosis's error.

Disclosure of Invention

Aiming at the problems and the defects, the invention provides an integrated film storing and reading device for an image center, which is used for solving the problems of inconvenience in storing and taking of the existing scanning film, difficulty in identification and complex operation process, improving the medical diagnosis efficiency and reducing the diagnosis errors.

The technical scheme adopted by the invention for solving the problems is as follows:

the film scanner comprises a shell, wherein a film storage bin and a film reading chamber are arranged on the shell in parallel and are communicated through a channel, a groove in the front-back direction and a folding frame mechanism which slides back and forth along the groove and consists of a connecting rod are arranged in the film storage bin, and one end of the connecting rod is axially connected with a transparent plate in a sliding manner for inserting a scanning film; through folding frame mechanism simulation straight tooth structure, then change through specific groove structure the interaxial distance at connecting rod both ends realizes the change control of straight tooth structure tooth spacing in the specified area in the folding frame mechanism for the tooth spacing increase of the regional straight tooth structure in folding frame middle part, then the interval increase between the transparent plate that this part corresponds is in order to make things convenient for the access, the tooth spacing of the straight tooth structure of the rest part of folding frame keeps less value, make the interval between the transparent plate that this part corresponds less or adjacent transparent plate contact each other, with the average occupation space that reduces independent transparent plate, increase effective storage quantity.

On the basis, a gear meshed with the straight tooth structure with the increased tooth space is further arranged, so that the sliding control of the folding frame is realized by the rotation of the gear, and the operation is more convenient and continuous.

Then, a rotating wheel connected with the gear in a transmission mode is further arranged, name cards are installed on the rotating wheel, the moving switching of the transparent plate is consistent with the rotating switching of the name cards on the rotating wheel in synchronous driving of the gear, and the required scanning films can be conveniently and quickly identified and found out.

Drawings

Fig. 1 is an isometric view of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 is a sectional view a-a shown in fig. 2.

Fig. 4 is a sectional view B-B shown in fig. 3.

Fig. 5 is a cross-sectional view of C-C shown in fig. 3.

Fig. 6 is a cross-sectional view taken along line D-D of fig. 3.

Fig. 7 is an enlarged view of the portion E shown in fig. 3.

Fig. 8 is an enlarged view of a portion F shown in fig. 4.

Fig. 9 is an axial view in partial cross section of the present invention.

Fig. 10 is an interior cutaway perspective view of the present invention.

Technical terms and reference signs:

1. a casing 2, a film storage bin 3, a film reading room 4, a backlight lamp 5, a channel 6 and a transverse shaft

7. Straight groove 8, curved groove 9, connecting rod 10, transparent plate 11, slot 12 and gear

13. Gear reversing mechanism 14, rotating wheel 15, sink groove 16 and name plate

17. Spiral groove 18, window 19, mask 20, display hole 21 and control knob

22. Plectrum 23, spout 24, scanning film

Detailed Description

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, however, in describing the present invention, a description of a conventionally known function or configuration will be omitted for clarity of explanation of the gist of the present invention.

In the claims, specification and drawings of the present invention, the terms "including", "comprising" and "having", as well as words of similar import, are intended to mean "including, but not limited to".

As shown in fig. 1 to 10, the present invention comprises a casing 1, a film storage bin 2 and a film reading chamber 3 are arranged on the casing 1 in parallel, a backlight 4 is arranged in the film reading chamber 3, the film storage bin 2 is communicated with the film reading chamber 3 through a vertically arranged channel 5, a plurality of transverse shafts 6 arranged above the channel 5 are arranged in the film storage bin 2, the plurality of transverse shafts 6 are divided into an upper group and a lower group which are distributed in a staggered way from front to back, a left straight groove 7 and a right straight groove 7 which are arranged in the tablet storage bin 2 are arranged on the machine shell 1, the straight grooves 7 are arranged from front to back, two ends of the upper group of transverse shafts 6 are respectively arranged in two straight grooves 7 in a front-back sliding manner, a left bent groove 8 and a right bent groove 8 which are arranged in the film storage bin 2 are arranged on the machine shell 1, the curved grooves 8 are arranged in the front and back, the front sections and the back sections of the curved grooves 8 are parallel to the straight grooves 7, the middle sections of the curved grooves 8 are bent towards the straight grooves 7, and two ends of the lower group of the transverse shafts 6 are respectively arranged in the two curved grooves 8 in a front-back sliding manner; any one of the upper transverse shafts 6 and the lower adjacent transverse shafts 6 are hinged through a connecting rod 9 to form a straight tooth structure, when any one transverse shaft 6 slides back and forth along the corresponding straight groove 7/curved groove 8, the other transverse shafts 6 slide along with the straight groove 7/curved groove 8, and: the connecting rods 9 between the front and rear sections of the curved grooves 8 and the corresponding straight grooves 7 can not rotate along with the translation of the cross shafts 6, and the connecting rods 9 between the middle section curved sections of the curved grooves 8 and the corresponding straight grooves 7 are pressed by the change of the distance between the two grooves to generate angle deflection, so that the straight tooth structures at the curved sections of the curved grooves 8 extend and the opening angle is increased, namely the distance between the adjacent cross shafts 6 is increased; a transparent plate 10 connected with the transverse shaft 6 in a sliding manner along the axial direction is arranged on the transverse shaft 6 sliding back and forth along the straight groove 7, the direction of the transparent plate 10 is consistent with the direction of the transverse shaft 6, a slot 11 with a right opening is arranged on the transparent plate 10, and the slot 11 is used for inserting a scanning film 24; the channel 5 corresponds to the curved section of the curved groove 8 left and right, when the transverse shaft 6 slides back and forth, the transparent plate 10 moves back and forth, and when the transparent plate 10 moves to the channel 5, as can be seen from the above, the transverse shaft 6 adjacent to the transverse shaft 6 below enters the middle curved section of the curved groove 8, so that the straight tooth part where the transverse shaft is located extends and the opening angle is increased, the distance between the transparent plates 10 at the part is inevitably increased, so that fingers can extend between the adjacent transparent plates 10 to pull out the transparent plates 10, and the transparent plates 10 slide along the corresponding transverse shaft 6 when being subjected to tensile force, so that the transparent plates 10 can pass through the channel 5 and enter the film reading chamber 3; after the film reading is finished, the transparent plate 10 is pushed to reset into the film storage bin 2, and other transparent plates 10 can be switched again to perform the same operation.

When the device is used, the scanning films 24 are inserted into the slots 11 on the transparent plate 10 in a one-to-one correspondence manner, the patient names are marked on the transparent plate 10, when the film reading is needed, the straight tooth structure is pushed to slide forwards or backwards, the transparent plate 10 marked with the patient names needed to be read is moved to the corresponding position of the channel 5, and then the transparent plate 10 is pulled out to perform the film reading operation; since the other transparent plates 10 are not in the extended area of the straight tooth structure, the other adjacent transparent plates 10 are closely attached or spaced apart from each other, so that more scanning films 24 can be stored without occupying too much space.

Furthermore, any one of the upper transverse shafts 6 and the lower adjacent transverse shafts 6 are synchronously hinged through two connecting rods 9 which are parallel to each other at the left and right to form two straight tooth structures which are parallel to each other, the two connecting rods 9 which are parallel to each other at the left and right are respectively arranged at two ends of the transverse shafts 6, the transparent plate 10 is arranged between the two connecting rods 9 which are parallel to each other at the left and right, and when the transparent plate 10 slides, the sliding stroke of the transparent plate 10 is limited by the two connecting rods 9 which are parallel to each other at the left and right, so that the transparent plate 10 is effectively positioned in the film storage chamber 2 and the film reading chamber 3.

Furthermore, the housing 1 has an interlayer for accommodating the connecting rod 9, so as to prevent the connecting rod 9 from axially sliding along the transverse shaft 6 to affect the sliding of the transparent plate 10.

Further, cross axle 6, straight flute 7, curved groove 8 and connecting rod 9 constitute and deposit a positioning control mechanism, it has two and symmetry to arrange the upper and lower both sides in passageway 5 in to deposit a positioning control mechanism, the upper and lower both ends of transparent plate 10 respectively with two deposit in a positioning control mechanism along the gliding 6 axial sliding connection of cross axle of straight flute 7 front and back corresponding, two deposit a positioning control mechanism and fix a position and retrain transparent plate 10 simultaneously, can make the removal of transparent plate 10 more stable, avoid transparent plate 10 to appear rocking/swing and collision each other.

Further, the housing 1 is provided with a gear 12 disposed above the middle section of the curved groove 8, the gear 12 is engaged with a large-opening-angle straight-tooth structure corresponding to the middle section of the curved groove 8, and by rotating the gear 12, the straight-tooth structure moves back and forth under the engagement action of the gear 12, thereby realizing the positioning and switching control of the transparent plate 10.

Further, the casing 1 on have two gears 12 with two positioning control mechanism one-to-one respectively, two gears 12 longitudinal symmetry set up, gear 12 meshes with the big opening angle straight-tooth structure that 8 middle sections of curved groove parts correspond that correspond mutually, two gears 12 through gear reversing mechanism 13 transmission connection, make two gears 12 synchronous antiport, thereby two about the drive deposit straight-tooth structure syntropy removal in the piece positioning control mechanism, realize the stable positioning and accurate switching control of transparent plate 10.

Furthermore, a rotating wheel 14 which is in coaxial transmission connection with the gear 12 is arranged on the casing 1, a plurality of sinking grooves 15 which are uniformly distributed on the circumference are formed on the outer edge surface of the rotating wheel 14, and name tags 16 are arranged in the sinking grooves 15; when the gear 12 rotates, the transparent plate 10 moves back and forth to switch, and simultaneously, the rotating wheel 14 rotates along with the gear 12 simultaneously, so that different name cards 16 are switched to display, and thus, the scanning films 24 in different transparent plates 10 and corresponding patients can be quickly identified, and the required scanning films 24 can be quickly found out to store or read the films.

Further, the sinking grooves 15 are spirally distributed along the circumference of the rotating wheel 14 and are consistent with the transparent plates 10 in number; when name cards 16 switch and show, can produce axial displacement between the different name cards 16, but do not influence name cards 16's visibility, and spiral distribution's name cards 16 can eliminate the restriction of runner 14's radius to name cards 16 quantity, still can place more name cards 16 when making runner 14's radius reduce, and simultaneously, can also eliminate the requirement of depositing piece quantity to gear 12 tooth number, make gear 12's tooth number needn't be unanimous with depositing piece quantity, the whole volume of the radius of both having reduced gear 12 and device, can set up sufficient deposit piece quantity again according to the demand.

Furthermore, a spiral groove 17 is formed in the outer edge surface of the rotating wheel 14, the sinking grooves 15 are formed in the bottom of the spiral groove 17 and are uniformly distributed along the spiral line direction of the spiral groove 17, a window 18 corresponding to the rotating wheel 14 is formed in the casing 1, a shielding sheet 19 corresponding to the window 18 is arranged on the casing 1, the shielding sheet 19 is connected with the casing 1 in a sliding mode along the axial direction of the rotating wheel 14, and a display hole 20 is formed in the shielding sheet 19; the matte 19 and spiral groove 17 sliding connection, when runner 14 rotates, spiral groove 17 rotates along with it and produces the feeding effect to promote matte 19 to produce the endwise slip, make display hole 20 correspond in proper order with different name cards 16, so that pinpoint transparent plate 10 avoids appearing a plurality of name cards 16 and appearing in the field of vision simultaneously and lead to judging the error.

Further, the housing 1 is provided with a control knob 21 coaxially connected with the gear 12, and the control knob 21 is disposed outside the housing 1 to facilitate driving control of the gear 12.

Furthermore, the casing 1 is provided with a shifting piece 22 which vertically corresponds to the channel 5 and slides along the axial direction of the transverse shaft 6, the shifting piece 22 is arranged at the left side of the transparent plate 10 and does not intersect with the transverse shaft 6 at the vertical position, and when any transparent plate 10 moves to the right side of the shifting piece 22, the transparent plate 10 can be quickly pulled out by sliding the shifting piece 22 rightwards.

Furthermore, the right end of the transparent plate 10 is provided with a semicircular notch to facilitate the removal of the scanning film 24.

Furthermore, slide groove 23 corresponding to the channel 5 is arranged on the film reading chamber 3 in the left-right direction, the height position of the slide groove 23 corresponds to the upper/lower end face of the transparent plate 10, when the transparent plate 10 is pulled out to the film reading chamber 3, the slide groove 23 can support and guide the transparent plate 10, so that the transparent plate 10 can move more smoothly, and the transparent plate 10 is prevented from being broken due to external force or improper operation.

Further, the transparent plate 10 is made of an acrylic material, so that the transparent plate 10 has the characteristics of light weight and good light transmission, and is convenient to store, access and view.

Furthermore, the rotating wheel 14 and the name card 16 are respectively made of magnetic materials, so that the name card 16 can be adsorbed on the rotating wheel 14 through magnetism, and is convenient to take, place and replace.

When the film reading device is used, the control knob 21 is rotated to enable the transparent plate to move and switch and enable the name card 16 to switch and display, after a corresponding patient is displayed, the corresponding transparent plate 10 is pulled out through the channel 5, then the corresponding film 24 is inserted/taken out, or the backlight lamp 4 is directly turned on for reading.

Modifications, equivalents and other improvements which may occur to those skilled in the art and which may be made to the embodiments of the invention or portions thereof through a reasonable analysis, inference or limited experimentation, in light of the common general knowledge, the common general knowledge in the art and/or the prior art, are intended to be within the scope of the invention.