CN116571982A - Tumor gene detection kit equipment - Google Patents

Abstract

The invention discloses tumor gene detection kit assembling equipment, which relates to the technical field of kit assembling, and comprises an assembling round table, wherein the lower end of the assembling round table is provided with supporting legs for supporting the assembling round table; the assembly round table is provided with a plurality of square assembly ports, an assembly operation unit is arranged on the assembly round table, and a conveyer belt is correspondingly arranged right below one assembly port; the kit is arranged in the assembly port, the box cover is arranged above the kit, when the box cover is extruded to move downwards, corresponding matched convex strips used for fixing are arranged on the box cover and the kit, the box cover moves downwards, at the moment, the kit is not moved due to the elastic force support of the reset spring, the box cover moves downwards to penetrate through the convex strip to fix the buckle, and the sound of the buckle is emitted, namely, whether the connection of the kit and the box cover is fastened or not is judged by hearing the sound of the buckle or not.

Description

Tumor gene detection kit equipment

Technical Field

The invention relates to the technical field of kit assembly, in particular to tumor gene detection kit assembly equipment.

Background

The kit assembly refers to the process of changing the kit material assembly into the kit by cutting, perforating, covering, printing and other working procedures on the material of the kit;

in the prior art, when the kit is assembled, a test tube is put into the kit, the kit is covered with a box cover, corresponding written description and graphic drawing description are printed on the side wall of the kit, the box cover and the kit are wrapped with a sealing mill, and finally a plurality of the kits are put into a packaging box, so that at least the following problems are solved to be improved in the process:

1. in the above assembly operation, the efficiency is low by the manual operation of the assembly line type, and the quality of the assembled kit is uneven due to different skill levels of the staff, so that the assembled kit is greatly influenced by the skill levels of the staff, and the assembled kit cannot be rationally adjusted according to the skill levels of the staff.

2. In the above assembly operation, when the corresponding text description and graphic description are printed on the side wall of the kit, the liquid ink used for printing is used to repeatedly print different kits corresponding to the printing device, and it is inevitable that more and more dust and the like are contained in the black ink on the printing device, so that the quality of the later printing is lower and lower.

For this purpose, a tumor gene detection kit assembly apparatus is proposed.

Disclosure of Invention

The invention aims to provide a tumor gene detection kit assembling device which solves the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the tumor gene detection kit assembling equipment comprises an assembling round table, wherein the lower end of the assembling round table is provided with supporting legs for supporting the assembling round table;

the assembly round table is provided with a plurality of square assembly ports, an assembly operation unit is arranged on the assembly round table, and a conveyer belt is correspondingly arranged right below one assembly port;

the kit is arranged in the assembly port, and a box cover is arranged above the kit.

Preferably, the assembling operation unit comprises a round cavity, the round cavity is arranged at the center of the assembling round table, a main shaft is arranged in the round cavity in an extending mode and movably connected with the round cavity, a transverse plate is fixedly connected to the main shaft, a compensation rod is fixedly connected to the bottom of the transverse plate, and a box cover is correspondingly arranged below the compensation rod.

Preferably, each inner wall of the assembly port is embedded and rotationally connected with a doodle roller, a die used for printing the outer wall of the kit is carved on the outer side wall of the doodle roller, a coating cavity is formed in the assembly round table corresponding to the doodle roller, and an outlet is formed in the bottom of the coating cavity.

Preferably, the outlet is arc-shaped, the sealing roller is rotationally connected to the outlet, a soft film capable of absorbing liquid ink for enhancing tightness between the outlet and the sealing roller is sleeved on the sealing roller, corner strips are fixedly connected to the outlet at the bottom of the coating cavity, the two corner strips are symmetrically arranged, the corner strips are extruded and stretched into the soft film and are movably connected, an impurity cavity is formed in the assembled round table, and a conical-like hole is formed in the impurity cavity and the outlet in a communicating mode.

Preferably, the equipment round platform is interior to have seted up the stoving chamber, the stoving chamber sets up under the doodle roller, it has L piece to run through and stretch out and sliding connection in the stoving chamber, one side fixedly connected with sealed taper plate that the L piece stretched into the stoving chamber, the internal surface top fixedly connected with control section of thick bamboo in stoving chamber, run through in the control section of thick bamboo and stretch out and sliding connection have the I-shaped piece, I-shaped piece stretches into sealed taper plate quilt and sliding connection, the cover is equipped with reset spring on the I-shaped piece.

Preferably, the interference groove has been seted up to stoving intracavity wall, the one end upper surface that the sealed taper plate is close to the interference groove is provided with the inclined plane that makes sealed taper plate upwards move, stoving intracavity inner surface bottom fixedly connected with electric heater, just densely has seted up the venthole on the stoving intracavity lateral wall, be connected with spacing piece through torsional spring torsion on the equipment mouth inside wall, L piece lower extreme fixedly connected with compensation piece.

Preferably, an auxiliary cavity is formed in one end, far away from the interference groove, of the inner wall of the sealing conical plate, a sliding block is connected in the auxiliary cavity in a sliding mode, a sealing plate is fixedly connected to one side of the sliding block, and a sealing spring is arranged on the other side of the sliding block.

Preferably, the circular cavity is internally provided with an annular inclined straight groove, the annular inclined straight groove is formed by an adjacent inclined section groove and an adjacent vertical section groove, the adjacent inclined section groove and the adjacent vertical section groove are mutually communicated and finally closed to form an annular through groove, the annular inclined straight groove is internally extended into and movably connected with a control protrusion, and the control protrusion is fixedly connected on the main shaft.

Preferably, the assembly round table is provided with an air hole, a channel is formed in the side wall adjacent to the air hole and the interference groove, a T-shaped rod penetrates through and stretches out of the air hole and is connected with the air hole in a sliding mode, an extension spring is fixedly connected to the T-shaped rod, the extension spring is fixedly connected to the top of the inner surface of the air hole, and a fixing ring is fixedly connected to the upper end of the T-shaped rod.

Preferably, the side wall of the assembling round table is provided with a ring groove, a plurality of balls are connected in the ring groove in a rolling way, a C-shaped lantern ring extends out of the ring groove and is connected in a rotating way, and a plurality of balls are connected at the bottom of the C-shaped lantern ring in a rolling way.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the main shaft is driven to move downwards by a driving source on the main shaft, the main shaft is driven to move downwards by a compensating rod fixedly connected with the main shaft through a transverse plate, and the compensating rod moves downwards and continues to move downwards after contacting the box cover, so that the box cover is extruded to move downwards;

2. according to the invention, when the box cover is extruded to move downwards, the box cover and the kit are provided with corresponding matched convex strips for fixing, the box cover moves downwards, at the moment, the kit is supported by the elastic force of the reset spring, the kit is still, the box cover moves downwards to penetrate through the convex strips to be buckled and fixed, and the sound of the buckle is emitted, namely, whether the connection between the kit and the box cover is fastened or not is judged by hearing the sound of the buckle or not;

3. the invention continues to move downwards through the compensation rod, at the moment, the kit and the box cover are combined into a whole, the compensation rod moves downwards to overcome the elastic support of the reset spring and synchronously moves downwards with the L block, the side wall of the kit moves downwards, the side wall of the kit is in contact connection with the doodling roller, the doodling roller rotates under the friction force of the kit when the side wall of the kit moves downwards, and the stamping die carved on the doodling roller is used for printing characters, graphics, pictures and the like which are required to be printed on the outer side wall of the kit and are related to tumor gene detection on the outer side wall of the kit;

4. according to the invention, the liquid ink is placed in the coating cavity, the doodle roller and the sealing roller are connected in an extrusion contact manner, when the doodle roller rotates, the sealing roller contacted with the doodle roller rotates, the soft film outside the sealing roller absorbs the liquid ink from the coating cavity, when the doodle roller rotates synchronously, the liquid ink in the soft film is separated out and smeared on the impression outside the doodle roller, and the liquid ink falling on the impression can be extruded and flattened by the soft film outside the sealing roller, so that the liquid ink on the impression outside the doodle roller is distributed more uniformly, and the color depth of characters and graphics related to tumor gene detection printed on the outer side wall of the kit is approximately the same;

5. according to the invention, when the soft film on the sealing roller rotates, the corner strips far away from the assembly port are extruded when the soft film rotates, when the part of the soft film in the coating cavity is separated from the coating cavity, the corner strips extrude the soft film fully absorbing liquid ink, and partial liquid ink is separated out, so that the quantity of the liquid ink contained on the soft film extruded out of the partial liquid ink is just proper, the fuzzy overlapping of characters and graphics related to tumor gene detection printed on the outer side wall of the kit due to too much ink is avoided, and the unclear characters and graphics related to tumor gene detection printed on the outer side wall of the kit due to too little ink is avoided;

6. according to the invention, the soft film is used for filling liquid ink on the outer surface of the doodle roller, the doodle roller is in contact with the liquid ink when the outer surface of the doodle roller is filled with liquid ink, slight dust and the like on the outer side wall of the kit are inevitably attached to the soft film when the outer surface of the kit is printed, when the soft film on the sealing roller rotates, corner strips close to an assembling port squeeze and scrape the soft film when the soft film rotates, dust and other garbage attached to the soft film are removed, so that the quality of the next printing is not affected, and the garbage scraped by the corner strips enters an impurity cavity through a cone-like hole, so that impurities in the impurity cavity are conveniently cleaned regularly;

7. according to the invention, the electric heater in the drying cavity works to generate heat, and the heat is sprayed out from the air outlet, so that characters and graphics pictures related to tumor gene detection printed on the kit in the area between the limiting piece and the L block are dried;

8. according to the invention, the L-shaped block downwards moves to drive the sealing cone plate fixedly connected with the L-shaped block downwards, the sealing cone plate downwards moves, hot air flow in the drying cavity can be extruded to be accelerated to be ejected from the air outlet hole, so that a better drying effect is achieved;

9. according to the invention, the contact area of the L blocks and the reagent box is an inclined plane, namely the reagent box generates an inclined acting force on the L blocks, the reagent box extrudes the L blocks to move downwards, when the sealing cone plate moves to the interference groove area, the sealing cone plate stretches into the interference groove due to the inclined acting force, at the moment, the L blocks follow the transverse movement of the sealing cone plate to prevent the reagent box from being supported, the reagent box falls down and falls on the limiting plate, and at the moment, the reagent box is dried by printing the outer wall in the area between the limiting plate and the L blocks;

10. the invention is made of L blocks as heat insulation materials, so that the problem that the printing effect is affected by the fact that the liquid ink on the soft film is dried in advance due to the fact that the gas sprayed from the gas outlet passes through the L blocks to act on the soft film can be effectively reduced;

11. according to the invention, when the sealing cone plate stretches into the interference groove through the design of the sealing plate and the sealing spring, the sealing plate at the other side of the sealing cone plate can be always attached to the inner wall of the drying cavity under the acting force of the sealing spring, so that the generated longitudinal displacement can better extrude hot air flow in the drying cavity to dry the printing on the corresponding kit through the air outlet hole;

12. according to the invention, when the main shaft moves downwards, the transverse plate fixedly connected to the main shaft moves downwards to extrude the fixing ring and enable the fixing ring to move downwards, and the T-shaped rod fixedly connected to the fixing ring moves downwards, so that gas in the air hole is extruded into the drying cavity through the channel, and heat in the drying cavity is further promoted to be accelerated to be sprayed to a corresponding kit through the air outlet hole for drying.

13. According to the invention, through the cross design of the annular inclined straight groove on the circular cavity for the inclined section groove and the vertical section groove, when the main shaft moves downwards, the control bulge fixedly connected to the main shaft moves in the vertical section groove, the assembling round table does not move, after the assembly printing operation of the kit is completed, the main shaft moves upwards, at the moment, the control bulge fixedly connected to the main shaft moves upwards, the control bulge moves in the inclined section groove, and the main shaft cannot rotate, so that the assembling round table rotates when the control bulge moves upwards, after the control bulge moves to the top end of the inclined section groove, the assembling round table just rotates to an assembling point corresponding to the next assembling port, at the moment, the compensating rod just faces the center of the assembling port, and then the main shaft moves downwards to perform the next assembling work;

14. the assembly ports on the assembly round table are provided with a plurality of groups, the compensation rods can also be provided with a plurality of groups, when the assembly round table rotates, the ball can enable the assembly round table to rotate more smoothly, when the kit and the box cover on the assembly ports are manually stacked, one compensation rod corresponds to one assembly printing position, one assembly port without the corresponding compensation rod corresponds to one manual operation position, the more the manual operation positions are, the less the assembly printing positions are, and the safety of workers is higher; the lower the assembly efficiency; the specific corresponding number design depends on the operation level of the staff; at this moment, the C-shaped lantern ring has the effect of carrying out safety protection on staff, and when the kit and the box cover on the assembly port are put up through the manipulator, the device is the full-automatic assembly device, and assembly efficiency is highest.

Drawings

FIG. 1 is an overall structural view of the present invention;

FIG. 2 is a partial cross-sectional view of the present invention;

FIG. 3 is an overall structural view of the retaining ring of the present invention;

FIG. 4 is a cross-sectional view of the present invention;

FIG. 5 is an expanded view of the circular chamber of the present invention;

FIG. 6 is a partial cross-sectional view of a turning roll of the present invention;

fig. 7 is an internal cross-sectional view of the drying chamber of the present invention;

FIG. 8 is an enlarged view of A of FIG. 2 in accordance with the present invention;

FIG. 9 is an enlarged view of B of FIG. 4 in accordance with the present invention;

FIG. 10 is an enlarged view of FIG. 7C in accordance with the present invention;

fig. 11 is an enlarged view of D of fig. 7 in accordance with the present invention.

In the figure:

1. assembling a round table; 11. a support leg; 12. an assembly port; 13. a conveyor belt; 14. a kit; 15. a box cover; 2. assembling an operation unit; 21. a main shaft; 22. a circular cavity; 23. a cross plate; 24. a compensation rod; 3. a graffiti roller; 31. a paint chamber; 32. an outlet; 4. a seal roller; 41. a soft film; 42. angle bars; 43. a conical hole; 44. an impurity chamber; 5. l blocks; 51. a drying chamber; 52. sealing the cone plate; 53. a control cylinder; 54. i-shaped blocks; 55. a return spring; 6. an interference groove; 61. an electric heater; 62. an air outlet hole; 63. a limiting piece; 64. a compensation block; 7. an auxiliary chamber; 71. a slide block; 72. a sealing plate; 73. a seal spring; 8. an annular inclined straight groove; 81. a control protrusion; 9. air holes; 91. a channel; 92. a T-shaped rod; 93. a tension spring; 94. a fixing ring; 100. c-shaped lantern ring; 101. a ring groove; 102. and (3) rolling balls.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 11, the present invention provides a technical solution:

the tumor gene detection kit assembling equipment comprises an assembling round table 1, wherein the lower end of the assembling round table 1 is provided with supporting legs 11 for supporting the assembling round table 1;

the assembling device comprises assembling ports 12 formed in an assembling round table 1, wherein the assembling ports 12 are square and are provided in a plurality, an assembling operation unit 2 is arranged on the assembling round table 1, and a conveying belt 13 is correspondingly arranged under one assembling port 12;

and a reagent box 14 arranged in the assembly port 12, wherein a box cover 15 is arranged above the reagent box 14.

As an embodiment of the present invention, the assembly operation unit 2 includes a circular cavity 22, the circular cavity 22 is disposed at the center of the assembly circular table 1, a main shaft 21 is movably connected to the circular cavity 22, a transverse plate 23 is fixedly connected to the main shaft 21, a compensating rod 24 is fixedly connected to the bottom of the transverse plate 23, and a box cover 15 is correspondingly disposed below the compensating rod 24.

In operation, the main shaft 21 is provided with a driving source, such as a cylinder, a hydraulic cylinder, etc., which can move up and down, and when the kit 14 for detecting tumor genes is assembled, the kit 14 is placed on the assembly port 12 by a manipulator or a hand, and the box cover 15 is placed on the assembly port 12;

the driving source on the main shaft 21 drives the main shaft 21 to move downwards, the compensating rod 24 fixedly connected with the main shaft 21 through the transverse plate 23 moves downwards, and the compensating rod 24 moves downwards continuously after contacting the box cover 15, so that the box cover 15 is extruded to move downwards.

As an embodiment of the invention, each inner wall of the square assembly port 12 is connected with a graffiti roller 3 in an embedded rotating way, a die for printing the outer wall of the kit 14 is engraved on the outer side wall of the graffiti roller 3, a coating cavity 31 is formed in the assembly round table 1 corresponding to the graffiti roller 3, and an outlet 32 is formed in the bottom of the coating cavity 31.

During operation, the compensating rod 24 continues to move downwards, at this time, the reagent box 14 and the box cover 15 are combined into a whole, the compensating rod 24 moves downwards to overcome the elastic support of the reset spring 55 and drive the L block 5 to move downwards synchronously, the side wall of the reagent box 14 is in contact connection with the doodling roller 3, when the side wall of the reagent box 14 moves downwards, the doodling roller 3 rotates under the friction force of the reagent box 14, and the stamping on the doodling roller 3 prints characters, graphics, pictures and the like which are required to be printed on the outer side wall of the reagent box 14 and related to tumor gene detection on the outer side wall of the reagent box 14.

As an embodiment of the invention, the outlet 32 is arc-shaped, the sealing roller 4 is rotationally connected with the outlet 32, a soft film 41 which is used for enhancing the tightness between the outlet 32 and the sealing roller 4 and can absorb liquid ink is sleeved on the sealing roller 4, two corner strips 42 are fixedly connected with the outlet 32 at the bottom of the coating cavity 31, the two corner strips 42 are symmetrically arranged, the corner strips 42 are extruded and stretched into the soft film 41 and are movably connected, an impurity cavity 44 is formed on the assembling round table 1, and a taper-like hole 43 is formed on the impurity cavity 44 and the outlet 32 in a communicating way;

when the device works, liquid ink is placed in a coating cavity 31, a doodle roller 3 and a seal roller 4 are connected in an extrusion contact manner, when the doodle roller 3 rotates, the seal roller 4 contacted with the doodle roller rotates, a soft film 41 outside the seal roller 4 absorbs the liquid ink from the coating cavity 31, when the device rotates synchronously with the doodle roller 3, the liquid ink in the soft film 41 is partially separated out and smeared on a stamp outside the doodle roller 3, and the liquid ink falling on the stamp can be extruded and flattened by the soft film 41 outside the seal roller 4, so that the liquid ink on the stamp outside the doodle roller 3 is distributed uniformly, and the color depth of characters and graphic pictures related to tumor gene detection printed on the outer side wall of a kit 14 is approximately the same;

when the soft film 41 on the sealing roller 4 rotates, the corner strip 42 far away from the assembly port 12 can be extruded when the soft film 41 rotates, when the part of the soft film 41 in the coating cavity 31 leaves the coating cavity 31, the corner strip 42 can extrude the soft film 41 fully absorbing liquid ink, and partial liquid ink is separated out, at the moment, the quantity of the liquid ink contained on the soft film 41 extruded out of partial liquid ink is just suitable, so that the fuzzy overlapping of characters and graphics related to tumor gene detection printed on the outer side wall of the kit 14 can not be caused due to too much ink, and the unclear characters and graphics related to tumor gene detection printed on the outer side wall of the kit 14 can not be caused due to too little ink;

the soft film 41 can contact the doodle roller 3 when the outer surface of the doodle roller 3 is filled with liquid ink, slight dust and the like on the outer side wall of the kit 14 can be attached to the soft film 41 inevitably when the outer surface of the kit 14 is printed by the doodle roller 3, when the soft film 41 on the sealing roller 4 rotates, the corner strip 42 close to the assembly opening 12 can squeeze and scrape the soft film 41 when the soft film 41 rotates, dust and other garbage attached to the soft film 41 are removed, the quality of the next printing is not affected, and the garbage scraped by the corner strip 42 enters the impurity cavity 44 through the cone-like hole 43, so that impurities in the impurity cavity 44 can be cleaned regularly.

As an embodiment of the present invention, a drying cavity 51 is formed in the assembly circular table 1, the drying cavity 51 is disposed under the doodle roller 3, an L block 5 is extended through and slidingly connected in the drying cavity 51, a sealing cone plate 52 is fixedly connected to one side of the L block 5 extending into the drying cavity 51, a control cylinder 53 is fixedly connected to the top of the inner surface of the drying cavity 51, an i block 54 is extended through and slidingly connected in the control cylinder 53, the i block 54 extends into the sealing cone plate 52 and slidingly connected, and a return spring 55 is sleeved on the i block 54.

When the kit is in operation, when the box cover 15 is extruded to move downwards, corresponding matched convex strips used for fixing are arranged on the box cover 15 and the kit 14, the box cover 15 moves downwards, at the moment, the kit 14 is supported by the elastic force of the reset spring 55, the kit 14 is still, the box cover 15 moves downwards to penetrate through the convex strips to be fastened and fix, and the sound of the fastener is emitted, namely, whether the connection between the kit 14 and the box cover 15 is fastened or not is judged by hearing the sound of the fastener or not.

As an embodiment of the present invention, the inner wall of the drying cavity 51 is provided with an interference groove 6, an upper surface of one end of the sealing cone plate 52, which is close to the interference groove 6, is provided with a slope for promoting the sealing cone plate 52 to move upwards, the bottom of the inner surface of the drying cavity 51 is fixedly connected with an electric heater 61, the side wall of the drying cavity 51 is densely provided with air outlet holes 62, the inner wall of the assembly opening 12 is connected with a limiting plate 63 by torsion of a torsion spring, and the lower end of the L-shaped block 5 is fixedly connected with a compensating block 64.

When in operation, the electric heater 61 in the drying cavity 51 works to generate heat, and the heat is ejected from the air outlet hole 62, so that the characters, the graphics and the pictures related to the tumor gene detection printed on the reagent kit 14 in the area between the limiting piece 63 and the L block 5 are dried;

the L block 5 moves downwards to drive the sealing cone plate 52 fixedly connected with the L block 5 to move downwards, the sealing cone plate 52 moves downwards, hot air flow in the extrusion drying cavity 51 can be accelerated to be sprayed out of the air outlet hole 62, so that a better drying effect is achieved, when the L block 5 is moved and extruded by the reagent box 14, the reagent box 14 between the L block 5 and the limiting piece 63 can be extruded by the compensating block 64 fixedly connected with the L block 5, the reagent box 14 between the L block 5 and the limiting piece 63 drives the limiting piece 63 for supporting the reagent box to rotate, finally the reagent box 14 falls onto the conveyer belt 13 below, and is conveyed to the next procedure by the conveyer belt 13, and boxing, packaging and other operations are performed;

the contact area of the L block 5 and the reagent box 14 is an inclined plane, namely the reagent box 14 generates an inclined acting force on the L block 5, the reagent box 14 extrudes the L block 5 to move downwards, when the sealing cone plate 52 moves to the interference groove 6 area, the sealing cone plate 52 stretches into the interference groove 6 due to the inclined acting force, at the moment, the L block 5 follows the transverse movement of the sealing cone plate 52 to enable the L block 5 not to support the reagent box 14 any more, the reagent box 14 falls down and falls on the limiting plate 63, and at the moment, the reagent box 14 performs drying of outer wall printing in the area between the limiting plate 63 and the L block 5;

the L block 5 is made of a heat insulating material, so that the problem that the printing effect is affected by the fact that the liquid ink on the flexible film 41 is dried in advance due to the fact that the air sprayed from the air outlet holes 62 passes through the L block 5 to act on the flexible film 41 can be effectively reduced.

As an embodiment of the present invention, an auxiliary cavity 7 is formed at one end of the inner wall of the sealing cone plate 52 away from the interference groove 6, a sliding block 71 is slidably connected in the auxiliary cavity 7, one side of the sliding block 71 is fixedly connected with a sealing plate 72, and the other side of the sliding block 71 is provided with a sealing spring 73.

When the device works, the sealing plate 72 and the sealing spring 73 are designed to enable the sealing cone plate 52 to extend into the interference groove 6, the sealing plate 72 on the other side of the sealing cone plate 52 can be always attached to the inner wall of the drying cavity 51 under the acting force of the sealing spring 73, so that the generated longitudinal displacement can better extrude hot air flow in the drying cavity 51 to dry printing on the corresponding reagent kit 14 through the air outlet holes 62.

As an embodiment of the present invention, an annular inclined straight groove 8 is formed in the circular cavity 22, the annular inclined straight groove 8 is formed by an adjacent inclined section groove and an adjacent vertical section groove, the adjacent inclined section groove and the adjacent vertical section groove are mutually communicated and finally closed to form an annular through groove, a control protrusion 81 is inserted into and movably connected with the annular inclined straight groove 8, and the control protrusion 81 is fixedly connected to the main shaft 21.

When the device works, the annular inclined straight groove 8 on the circular cavity 22 is designed to be an inclined section groove and a vertical section groove in a crossing way, when the main shaft 21 moves downwards, the control protrusion 81 fixedly connected to the main shaft 21 moves in the vertical section groove, the assembly round table 1 does not move, after the assembly printing operation on the reagent kit 14 is completed, the main shaft 21 moves upwards, at the moment, the control protrusion 81 fixedly connected to the main shaft 21 moves upwards, the control protrusion 81 moves in the inclined section groove, and the main shaft 21 cannot rotate, so that the control protrusion 81 rotates when moving upwards, when the control protrusion 81 moves to the top end of the inclined section groove, the assembly round table 1 just rotates to the assembly point corresponding to the next assembly port 12, at the moment, the compensation rod 24 just faces the center of the assembly port 12, and then the main shaft 21 moves downwards to carry out the next assembly work.

As an embodiment of the invention, the assembling round table 1 is provided with the air hole 9, the side wall adjacent to the air hole 9 and the interference groove 6 is provided with the channel 91, the T-shaped rod 92 is penetrated and extended in the air hole 9 and is connected with the T-shaped rod 92 in a sliding manner, the T-shaped rod 92 is fixedly connected with the extension spring 93, the extension spring 93 is fixedly connected with the top of the inner surface of the air hole 9, and the upper end of the T-shaped rod 92 is fixedly connected with the fixing ring 94.

When the main shaft 21 moves downwards in operation, the transverse plate 23 fixedly connected to the main shaft 21 moves downwards to squeeze the fixing ring 94 and move the fixing ring downwards, the T-shaped rod 92 fixedly connected to the fixing ring 94 moves downwards, so that gas in the air hole 9 is squeezed through the channel 91 to enter the drying cavity 51, and heat in the drying cavity 51 is further promoted to be accelerated to be sprayed to the corresponding reagent kit 14 through the air outlet hole 62 for drying;

as an embodiment of the present invention, the side wall of the assembling round table 1 is provided with a ring groove 101, a plurality of balls 102 are connected in the ring groove 101 in a rolling manner, a C-shaped collar 100 is extended and connected in the ring groove 101 in a rotating manner, and a plurality of balls 102 are connected in a rolling manner at the bottom of the C-shaped collar 100.

When the rotary table is in operation, the assembling ports 12 on the assembling rotary table 1 are provided with a plurality of groups, the compensating rods 24 can also be provided with a plurality of groups, and when the assembling rotary table 1 rotates, the assembling rotary table 1 can rotate more smoothly due to the design of the balls 102;

when the reagent box 14 and the box cover 15 on the assembly port 12 are stacked manually, one compensation rod 24 corresponds to one assembly printing position, one assembly port 12 without the compensation rod 24 corresponds to one manual operation position, and the more the manual operation positions are, the less the assembly printing positions are, so that the safety of workers is higher; the lower the assembly efficiency; the specific corresponding number design depends on the operation level of the staff; the C-shaped collar 100 has the effect of protecting the worker from safety;

when the reagent box 14 and the box cover 15 on the assembly port 12 are stacked by the manipulator, the device is a full-automatic assembly device, and the assembly efficiency is highest.

Working principle: the main shaft 21 is provided with a driving source such as an air cylinder, a hydraulic cylinder and the like which can move up and down, when the kit 14 for detecting tumor genes is assembled, the kit 14 is placed on the assembly port 12 by a manipulator or a manual work, the kit 14 falls on the L blocks 5 in the assembly port 12, and then the box cover 15 is placed on the assembly port 12;

the driving source on the main shaft 21 drives the main shaft 21 to move downwards, the compensating rod 24 fixedly connected with the main shaft 21 through the transverse plate 23 moves downwards, and the compensating rod 24 moves downwards to continue to move downwards after contacting the box cover 15, so that the box cover 15 is extruded to move downwards;

when the box cover 15 is pressed to move downwards, corresponding matched convex strips for fixing are arranged on the box cover 15 and the reagent box 14, the box cover 15 moves downwards, at the moment, the reagent box 14 is supported by the elastic force of the reset spring 55, the reagent box 14 is still, the box cover 15 moves downwards to penetrate through the convex strips to be fastened and fixed, and the sound of the fastening is emitted, namely, whether the connection between the reagent box 14 and the box cover 15 is fastened or not is judged by hearing the sound of the fastening or not;

the compensating rod 24 continues to move downwards, at this time, the reagent box 14 and the box cover 15 are combined into a whole, the compensating rod 24 moves downwards to overcome the elastic support of the reset spring 55 and drive the L block 5 to synchronously move downwards, the reagent box 14 moves downwards, the side wall of the reagent box 14 is in contact connection with the doodling roller 3, the doodling roller 3 rotates under the friction force of the reagent box 14 when the side wall of the reagent box 14 moves downwards, and the stamping on the doodling roller 3 is used for stamping characters, graphics, pictures and the like which are required to be printed on the outer side wall of the reagent box 14 and related to tumor gene detection on the outer side wall of the reagent box 14;

the liquid ink is placed in the coating cavity 31, the doodle roller 3 and the sealing roller 4 are connected in an extrusion contact manner, when the doodle roller 3 rotates, the sealing roller 4 contacted with the doodle roller rotates, the soft film 41 outside the sealing roller 4 absorbs the liquid ink from the coating cavity 31, when the doodle roller 3 rotates synchronously, the liquid ink in the soft film 41 is partially separated out and smeared on a die outside the doodle roller 3, and the liquid ink falling on the die can be extruded and flattened by the soft film 41 outside the sealing roller 4, so that the liquid ink on the die outside the doodle roller 3 is distributed uniformly, and the color depth of characters and graphics related to tumor gene detection printed on the outer side wall of the kit 14 is approximately the same;

when the soft film 41 on the sealing roller 4 rotates, the corner strip 42 far away from the assembly port 12 can be extruded when the soft film 41 rotates, when the part of the soft film 41 in the coating cavity 31 leaves the coating cavity 31, the corner strip 42 can extrude the soft film 41 fully absorbing liquid ink, and partial liquid ink is separated out, at the moment, the quantity of the liquid ink contained on the soft film 41 extruded out of partial liquid ink is just suitable, so that the fuzzy overlapping of characters and graphics related to tumor gene detection printed on the outer side wall of the kit 14 can not be caused due to too much ink, and the unclear characters and graphics related to tumor gene detection printed on the outer side wall of the kit 14 can not be caused due to too little ink;

the soft film 41 is contacted with the liquid ink when the outer surface of the doodle roller 3 is filled with the liquid ink, the doodle roller 3 inevitably causes slight dust and the like on the outer side wall of the reagent box 14 to be attached to the soft film 41 when the outer surface of the reagent box 14 is printed, when the soft film 41 on the sealing roller 4 rotates, the corner strip 42 close to the assembly opening 12 can squeeze and scrape the soft film 41 when the soft film 41 rotates, so that dust and other garbage attached to the soft film 41 are removed, the quality of the next printing is not affected, and the garbage scraped by the corner strip 42 enters the impurity cavity 44 through the cone-like hole 43, so that impurities in the impurity cavity 44 can be conveniently cleaned regularly;

the electric heater 61 in the drying cavity 51 works to generate heat, and the heat is sprayed out from the air outlet hole 62, so that characters, figures and pictures related to tumor gene detection printed on the reagent kit 14 in the area between the limiting piece 63 and the L block 5 are dried;

the L block 5 moves downwards to drive the sealing cone plate 52 fixedly connected with the L block 5 to move downwards, the sealing cone plate 52 moves downwards, hot air flow in the extrusion drying cavity 51 can be accelerated to be sprayed out of the air outlet hole 62, so that a better drying effect is achieved, when the L block 5 is moved and extruded by the reagent box 14, the reagent box 14 between the L block 5 and the limiting piece 63 can be extruded by the compensating block 64 fixedly connected with the L block 5, the reagent box 14 between the L block 5 and the limiting piece 63 drives the limiting piece 63 for supporting the reagent box to rotate, finally the reagent box 14 falls onto the conveyer belt 13 below, and is conveyed to the next procedure by the conveyer belt 13, and boxing, packaging and other operations are performed;

the contact area of the L block 5 and the reagent box 14 is an inclined plane, namely the reagent box 14 generates an inclined acting force on the L block 5, the reagent box 14 extrudes the L block 5 to move downwards, when the sealing cone plate 52 moves to the interference groove 6 area, the sealing cone plate 52 stretches into the interference groove 6 due to the inclined acting force, at the moment, the L block 5 follows the transverse movement of the sealing cone plate 52 to enable the L block 5 not to support the reagent box 14 any more, the reagent box 14 falls down and falls on the limiting plate 63, and at the moment, the reagent box 14 performs drying of outer wall printing in the area between the limiting plate 63 and the L block 5;

the L block 5 is made of a heat insulating material, so that the problem that the printing effect is affected by the fact that the liquid ink on the soft film 41 is dried in advance due to the fact that the air sprayed from the air outlet holes 62 passes through the L block 5 to act on the soft film 41 can be effectively reduced;

when the sealing cone plate 52 extends into the interference groove 6 due to the design of the sealing plate 72 and the sealing spring 73, the sealing plate 72 on the other side of the sealing cone plate 52 can be always attached to the inner wall of the drying cavity 51 under the acting force of the sealing spring 73, so that the generated longitudinal displacement can better squeeze hot air flow in the drying cavity 51 to dry the printing on the corresponding reagent box 14 through the air outlet holes 62;

when the main shaft 21 moves downwards, the transverse plate 23 fixedly connected to the main shaft 21 moves downwards to squeeze the fixing ring 94 and enable the fixing ring 94 to move downwards, the T-shaped rod 92 fixedly connected to the fixing ring 94 moves downwards, so that gas in the air hole 9 is squeezed to enter the drying cavity 51 through the channel 91, and heat in the drying cavity 51 is further promoted to be accelerated to be sprayed to the corresponding reagent box 14 through the air outlet hole 62 for drying;

the annular inclined straight groove 8 on the circular cavity 22 is designed to be an inclined section groove and a vertical section groove in a crossing way, when the main shaft 21 moves downwards, the control protrusion 81 fixedly connected to the main shaft 21 moves in the vertical section groove, the assembly circular table 1 does not move, after the assembly printing operation of the reagent box 14 is completed, the main shaft 21 moves upwards, at the moment, the control protrusion 81 fixedly connected to the main shaft 21 moves upwards, the control protrusion 81 moves in the inclined section groove, and the main shaft 21 cannot rotate, so that the assembly circular table 1 rotates when the control protrusion 81 moves upwards, after the control protrusion 81 moves to the top end of the inclined section groove, the assembly circular table 1 just rotates to the assembly point corresponding to the next assembly port 12, at the moment, the compensation rod 24 just faces the center of the assembly port 12, and then the main shaft 21 moves downwards to carry out the next assembly work;

the assembling ports 12 on the assembling round table 1 are provided with a plurality of groups, the compensating rods 24 can also be provided with a plurality of groups, and when the assembling round table 1 rotates, the assembling round table 1 can rotate more smoothly due to the design of the balls 102;

when the reagent box 14 and the box cover 15 on the assembly port 12 are stacked manually, one compensation rod 24 corresponds to one assembly printing position, one assembly port 12 without the compensation rod 24 corresponds to one manual operation position, and the more the manual operation positions are, the less the assembly printing positions are, so that the safety of workers is higher; the lower the assembly efficiency; the specific corresponding number design depends on the operation level of the staff; the C-shaped collar 100 has the effect of protecting the worker from safety;

when the reagent box 14 and the box cover 15 on the assembly port 12 are stacked by the manipulator, the device is a full-automatic assembly device, and the assembly efficiency is highest.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A tumor gene detection kit assembly apparatus, comprising:

the lower end of the assembling round table (1) is provided with a supporting leg (11) for supporting the assembling round table (1);

the assembling device comprises assembling ports (12) which are arranged on an assembling round table (1), wherein the assembling ports (12) are square and are provided with a plurality of assembling operation units (2) arranged on the assembling round table (1), and a conveying belt (13) is correspondingly arranged under one assembling port (12);

and the kit (14) is arranged in the assembly port (12), and a box cover (15) is arranged above the kit (14).

2. The tumor gene detection kit assembly apparatus according to claim 1, wherein: the assembling operation unit (2) comprises a round cavity (22), the round cavity (22) is arranged at the center of the assembling round table (1), a main shaft (21) is extended out of the round cavity (22) and movably connected with the round cavity, a transverse plate (23) is fixedly connected to the main shaft (21), a compensating rod (24) is fixedly connected to the bottom of the transverse plate (23), and a box cover (15) is correspondingly arranged below the compensating rod (24).

3. The tumor gene detection kit assembly apparatus according to claim 2, wherein: each inner wall of the assembly port (12) is embedded and rotatably connected with a doodle roller (3), a die for printing the outer wall of the kit (14) is carved on the outer side wall of the doodle roller (3), a coating cavity (31) is formed in the assembly round table (1) corresponding to the doodle roller (3), and an outlet (32) is formed in the bottom of the coating cavity (31).

4. A tumor gene detection kit assembly apparatus according to claim 3, wherein: the utility model discloses a liquid ink absorbing device, including flexible membrane (41) and sealing roller (4), outlet (32) are arc, just outlet (32) rotation is connected with sealing roller (4), the cover is equipped with flexible membrane (41) that can absorb liquid ink that are used for strengthening between outlet (32) and sealing roller (4) on sealing roller (4), fixedly connected with angle bar (42) on outlet (32) of coating chamber (31) bottom, angle bar (42) symmetry is provided with two, just angle bar (42) extrusion stretches into flexible membrane (41) and swing joint, impurity chamber (44) have been seted up on equipment round platform (1), class taper hole (43) have been seted up in communicating with each other on impurity chamber (44) and outlet (32).

5. The tumor gene detection kit assembly apparatus according to claim 4, wherein: the utility model discloses an equipment round platform (1) is equipped with stoving chamber (51), stoving chamber (51) set up under scribble roller (3), run through in stoving chamber (51) and stretch out and sliding connection have L piece (5), one side fixedly connected with sealed taper plate (52) that L piece (5) stretched into stoving chamber (51), the internal surface top fixedly connected with control section of thick bamboo (53) in stoving chamber (51), run through in control section of thick bamboo (53) and stretch out and sliding connection have I piece (54), I piece (54) stretch into sealed taper plate (52) by and sliding connection, the cover is equipped with reset spring (55) on I piece (54).

6. The tumor gene detection kit assembly apparatus according to claim 5, wherein: interference groove (6) have been seted up to stoving chamber (51) inner wall, sealed taper plate (52) are close to the one end upper surface that interferes groove (6) and are provided with the inclined plane that makes sealed taper plate (52) upwards move, stoving chamber (51) inner surface bottom fixedly connected with electric heater (61), just venthole (62) have been densely seted up on stoving chamber (51) lateral wall, be connected with spacing piece (63) through torsional spring torsion on equipment mouth (12) inside wall, L piece (5) lower extreme fixedly connected with compensation piece (64).

7. The tumor gene detection kit assembly apparatus according to claim 6, wherein: an auxiliary cavity (7) is formed in one end, far away from the interference groove (6), of the inner wall of the sealing conical plate (52), a sliding block (71) is connected in the auxiliary cavity (7) in a sliding mode, a sealing plate (72) is fixedly connected to one side of the sliding block (71), and a sealing spring (73) is arranged on the other side of the sliding block (71).

8. The tumor gene detection kit assembly apparatus according to claim 7, wherein: annular inclined straight groove (8) has been seted up in circular chamber (22), annular inclined straight groove (8) comprises adjacent inclined section groove and vertical section groove, and adjacent inclined section groove and vertical section groove communicate each other and finally close and form an annular logical groove, stretch into in annular inclined straight groove (8) and swing joint have control protruding (81), control protruding (81) fixed connection is on main shaft (21).

9. The tumor gene detection kit assembly apparatus according to claim 6, wherein: an air hole (9) is formed in the assembly round table (1), a channel (91) is formed in the side wall, adjacent to the interference groove (6), of the air hole (9) in a penetrating mode, a T-shaped rod (92) is connected in a sliding mode, an extension spring (93) is fixedly connected to the T-shaped rod (92), the extension spring (93) is fixedly connected to the top of the inner surface of the air hole (9), and a fixing ring (94) is fixedly connected to the upper end of the T-shaped rod (92).

10. The tumor gene detection kit assembly apparatus according to claim 1, wherein: annular grooves (101) are formed in the side walls of the assembly round table (1), a plurality of balls (102) are connected in the annular grooves (101) in a rolling mode, C-shaped lantern rings (100) extend out of the annular grooves (101) and are connected in a rotating mode, and the balls (102) are connected to the bottoms of the C-shaped lantern rings (100) in a rolling mode.