CN219382949U - Detection kit packing apparatus - Google Patents

Abstract

The utility model discloses a detection kit packing device which comprises a machine table, wherein a packing box is placed on the front side of the machine table, a rack is fixedly arranged at the upper end of the machine table, a feeding assembly is arranged at the upper end of the machine table, a discharging assembly is arranged at the front end of the feeding assembly, a material moving assembly is arranged at the lower side of the discharging assembly, a material pushing assembly is arranged at the rear side of the material moving assembly, a material discharging assembly is arranged at the front side of the material moving assembly, and a gripper assembly is arranged at the upper side of the material discharging assembly. The beneficial effects are that: the fourth driving motor drives the second slider through the second lead screw and removes, and the fourth telescopic link makes the connecting block drive splint descend, and the fifth telescopic link drives splint clamp detection kit both ends, drives the second slider through the second lead screw and removes, makes detection kit put into the packing box, guarantees the quantity of detection kit through baffle and infrared counter, guarantees through second push pedal and splint that detection kit arranges neatly, avoids the reagent kit dislocation to lead to the kit quantity reduction of placing in the carton.

Description

Detection kit packing apparatus

Technical Field

The utility model belongs to the technical field of kit packaging, and particularly relates to a detection kit packaging device.

Background

The kit is used for containing chemical reagents such as chemical components, drug residues and virus types, is used by general hospitals and pharmaceutical enterprises, is distinguished according to detection principles, and mainly comprises biochemical reagents, immunological reagents, molecular reagents and the like, and is characterized by corresponding to different properties of substances to be detected, the reagents can be designed from different methodologies, sometimes the same substances to be detected can also be detected by reagents of different methodologies, different reagents can be matched according to different product requirements, different types of reagents are suitable for rapid detection, quantitative detection, high-flux screening, beside diagnosis, packaging and packaging are needed when the detection kits are produced, such as a Chinese patent of a production detection kit packaging device with a CN213473664U, a touch screen is arranged through a display screen, the operation is convenient for a staff, a motor can be conveniently simplified, a motor can conveniently operate according to different product requirements to select different methodologies, the motor is conveniently used for controlling the clamping power, the clamping force is controlled by a rotary shaft to be conveniently arranged, the clamping force is controlled by a rotary shaft, the clamping device is not suitable for synchronous control of the kit, but the kit is difficult to be placed in a rotary shaft, the rotary shaft is easy to be controlled by a synchronous way, and the kit is difficult to be arranged in a rotary shaft, and the kit is difficult to be placed in a synchronous way.

Disclosure of Invention

The utility model aims to solve the problems and provide a detection kit packaging device.

The utility model realizes the above purpose through the following technical scheme:

the utility model provides a detection kit packing apparatus, includes the board, the packing box has been placed to the board front side, board upper end fixed with the frame, the board upper end is equipped with feeding subassembly, feeding subassembly front end is equipped with the blowing subassembly, the blowing subassembly downside is equipped with moves the material subassembly, it is equipped with the pushing component to move the material subassembly rear side, it is equipped with the row material subassembly to move the material subassembly front side, it is equipped with the tongs subassembly to arrange the material subassembly upside, the packing box is placed arrange material subassembly front side and be located tongs subassembly below.

Preferably, the feeding assembly comprises a first conveying belt, the first conveying belt is rotatably installed at the upper end of the frame, one end of a rotating roller of the first conveying belt is connected with a first driving motor, a first telescopic rod is fixedly arranged at the upper end of the frame and horizontally arranged, and a first baffle is fixedly installed at one end, close to the center of the first conveying belt, of the first telescopic rod.

Preferably, the discharging assembly comprises two second baffles, the second baffles are symmetrically and fixedly arranged at the upper end of the frame, supporting plates are fixedly arranged at the sides, away from each other, of the second baffles, a second telescopic rod is fixedly arranged at one side, close to the second baffles, of the supporting plates, a third baffle is fixedly arranged at one side, close to the second baffles, of the second telescopic rod, the third baffle is L-shaped, and one end in the horizontal direction is located at the lower side of the second baffle.

Preferably, the material moving assembly comprises a second conveying belt, the second conveying belt is rotatably installed at the upper end of the frame, one end of a rotating roller of the second conveying belt is connected with a second driving motor, a plurality of partition plates are fixedly installed on the belt surface of the second conveying belt, the intervals of the partition plates are kept consistent, an infrared counter is fixedly installed at the upper end of the frame, and the height of the infrared counter is lower than that of the partition plates.

Preferably, the pushing component comprises a first sliding block, the first sliding block is slidably mounted at the upper end of the frame, a first lead screw is rotatably mounted at the upper end of the frame, the first lead screw is in threaded connection with the first sliding block, one end of the first lead screw is connected with a third driving motor, a connecting rod is fixedly mounted at the front end of the first sliding block, a first pushing plate is fixedly mounted at the front end of the connecting rod, and the width of the first pushing plate is consistent with the distance between the two partition boards.

Preferably, the discharging assembly comprises a receiving plate, the receiving plate is horizontally arranged and fixedly mounted at the upper end of the frame, a third telescopic rod is fixedly mounted at the upper end of the receiving plate, and a second pushing plate is fixedly mounted at one end, close to the center of the receiving plate, of the third telescopic rod.

Preferably, the tongs subassembly includes the second slider, second slider slidable mounting is in the frame upper end, the frame upper end rotates installs the second lead screw, the second lead screw with second slider threaded connection, second lead screw one end is connected with fourth driving motor, second slider lower extreme fixed mounting has the fourth telescopic link, fourth telescopic link lower extreme fixed mounting has the connecting block, the front and back side fixed mounting of fourth telescopic link has a plurality of fifth telescopic links, the one end fixed mounting that the fifth telescopic link kept away from the connecting block has splint.

Preferably, the second driving motor is a stepping motor, and each rotation makes the distance of the second conveyor belt move consistent with the distance between the two separation plates.

The beneficial effects are that: the third driving motor enables the first sliding block to be driven to move towards the front side by rotating the first lead screw, the first push plate pushes the detection reagent box to the upper end of the receiving plate, the third telescopic rod is adjusted, the detection reagent box is pushed for a distance, the steps are repeated until the detection reagent box reaches a row of required quantity, the fourth driving motor is started, the second lead screw is driven to rotate, the second sliding block is driven to move, the fourth telescopic rod is adjusted, the connecting block is driven to drive the clamping plate to descend, the fifth telescopic rod is adjusted to enable the clamping plate to clamp two ends of the detection reagent box, the second sliding block is driven to move through the second lead screw, the detection reagent box is placed into a packaging box, the quantity of the detection reagent box is guaranteed through the partition plate and the infrared counter, the detection reagent box is guaranteed to be orderly arranged through the second push plate and the clamping plate, and the reagent box is prevented from being misplaced, and the quantity of the reagent box placed in the paper box is prevented from being reduced.

Drawings

FIG. 1 is a schematic structural view of a packing device for a detection kit according to the present utility model;

FIG. 2 is a schematic view of a feeding assembly of a test kit packing apparatus according to the present utility model;

FIG. 3 is a schematic view of a discharging assembly of a test kit packing apparatus according to the present utility model;

FIG. 4 is a schematic view of a material moving assembly and a material pushing assembly of a test kit packing apparatus according to the present utility model;

fig. 5 is a schematic view of a discharging assembly and a gripper assembly of a test kit packing device according to the present utility model.

The reference numerals are explained as follows:

101. a machine table; 102. a packaging box; 103. a frame; 200. a feed assembly; 201. a first conveyor belt; 202. a first telescopic rod; 203. a first baffle; 300. a discharging assembly; 301. a second baffle; 302. a support plate; 303. a second telescopic rod; 304. a third baffle; 400. a material moving assembly; 401. a second conveyor belt; 402. a partition plate; 403. an infrared counter; 500. a pushing component; 501. a first slider; 502. a first lead screw; 503. a connecting rod; 504. a first push plate; 600. a discharge assembly; 601. a receiving plate; 602. a third telescopic rod; 603. a second push plate; 700. a gripper assembly; 701. a second slider; 702. a second lead screw; 703. a fourth telescopic rod; 704. a connecting block; 705. a fifth telescopic rod; 706. and (3) clamping plates.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

as shown in fig. 1-5, a detection kit packing apparatus, including a machine 101, a packing box 102 is placed at the front side of the machine 101, a frame 103 is fixedly installed at the upper end of the machine 101 through bolts, a feeding assembly 200 is arranged at the upper end of the machine 101, a discharging assembly 300 is arranged at the front end of the feeding assembly 200, a material moving assembly 400 is arranged at the lower side of the discharging assembly 300, a pushing assembly 500 is arranged at the rear side of the material moving assembly 400, a material discharging assembly 600 is arranged at the front side of the material moving assembly 400, a gripper assembly 700 is arranged at the upper side of the material discharging assembly 600, the packing box 102 is placed at the front side of the material discharging assembly 600 and below the gripper assembly 700, the detection kit is guaranteed to be consistent in direction through the feeding assembly 200, the detection kit is guaranteed not to be overlapped through the material discharging assembly 300 and the material moving assembly 400, the counting is enabled to be more accurate, and the detection kit is enabled to be orderly arranged through the material discharging assembly 600 and the gripper assembly 700.

Preferably, the feeding assembly 200 comprises a first conveying belt 201, the first conveying belt 201 is rotatably installed at the upper end of the frame 103 through a bearing, one end of a rotating roller of the first conveying belt 201 is connected with a first driving motor through a coupling, a first telescopic rod 202 is fixedly installed at the upper end of the frame 103 through bolts, the first telescopic rod 202 is horizontally arranged, a first baffle 203 is fixedly installed at one end, close to the center of the first conveying belt 201, of the first telescopic rod 202 through bolts, the first telescopic rod 202 is adjusted, the distance between the first baffle 203 and the frame 103 is proper, and one end, narrow in detection reagent box, of the first baffle 203 and the frame 103 is kept in the same direction through a gap between the first baffle 203 and the frame 103.

Preferably, the discharging assembly 300 comprises two second baffles 301, the second baffles 301 are symmetrically and fixedly installed at the upper end of the frame 103, support plates 302 are fixedly installed at the sides, away from each other, of the second baffles 301, second telescopic rods 303 are fixedly installed at the sides, close to the second baffles 301, of the support plates 302 through bolts, third baffle plates 304 are fixedly installed at the sides, close to the second baffles 301, of the second telescopic rods 303 through bolts, the third baffle plates 304 are L-shaped, one end in the horizontal direction is located at the lower side of the second baffles 301, the detection reagent box moves to the upper end of the third baffle plates 304 and is located between the two second baffles 301, and the third baffle plates 304 are moved in the direction away from the second baffles 301 through adjusting the second telescopic rods 303, so that the detection reagent box is separated from the third baffle plates 304.

Preferably, the material moving assembly 400 comprises a second conveying belt 401, the second conveying belt 401 is rotatably arranged at the upper end of the frame 103, one end of a rotating roller of the second conveying belt 401 is connected with a second driving motor through a coupling, a plurality of partition boards 402 are fixedly arranged on the belt surface of the second conveying belt 401 through bolts, the intervals of the partition boards 402 are kept consistent, an infrared counter 403 is fixedly arranged at the upper end of the frame 103 through bolts, the height of the infrared counter 403 is lower than that of the partition boards 402, a detection reagent box falls between the two partition boards 402 at the upper end of the second conveying belt 401, and the second driving motor is started to enable the second conveying belt 401 to rotate so as to drive the detection reagent box to move.

Preferably, the pushing assembly 500 comprises a first slider 501, the first slider 501 is slidably mounted at the upper end of the frame 103, a first screw rod 502 is rotatably mounted at the upper end of the frame 103 through a bearing, the first screw rod 502 is in threaded connection with the first slider 501, one end of the first screw rod 502 is connected with a third driving motor through a coupling, the front end of the first slider 501 is fixedly provided with a connecting rod 503 through a bolt, the front end of the connecting rod 503 is fixedly provided with a first push plate 504 through a bolt, the width of the first push plate 504 is consistent with the distance between the two partition boards 402, and the third driving motor enables the first screw rod 502 to rotate to drive the first slider 501 to move forward, so that the first push plate 504 enables the detection kit to be separated from the second conveying belt 401.

Preferably, the discharging assembly 600 comprises a receiving plate 601, the receiving plate 601 is horizontally arranged and fixedly mounted at the upper end of the frame 103 through bolts, a third telescopic rod 602 is fixedly mounted at the upper end of the receiving plate 601 through bolts, a second push plate 603 is fixedly mounted at one end, close to the center of the receiving plate 601, of the third telescopic rod 602 through bolts, and after the detection kit reaches the upper end of the receiving plate 601, the third telescopic rod 602 is adjusted to push the detection kit for a certain distance, so that the influence on the subsequent detection kit is avoided.

Preferably, the gripper assembly 700 comprises a second slider 701, the second slider 701 is slidably mounted at the upper end of the frame 103, a second lead screw 702 is rotatably mounted at the upper end of the frame 103 through a bearing, the second lead screw 702 is in threaded connection with the second slider 701, one end of the second lead screw 702 is connected with a fourth driving motor through a coupling, the lower end of the second slider 701 is fixedly mounted with a fourth telescopic rod 703 through a bolt, the lower end of the fourth telescopic rod 703 is fixedly mounted with a connecting block 704 through a bolt, the front side and the rear side of the fourth telescopic rod 703 are fixedly mounted with a plurality of fifth telescopic rods 705 through bolts, one end of the fifth telescopic rod 705, far from the connecting block 704, is fixedly mounted with a clamping plate 706 through a bolt, the fourth driving motor drives the second lead screw 702 to rotate, drives the second slider 701 to move, adjusts the fourth telescopic rod 703, enables the connecting block 704 to drive the clamping plate 706 to descend, and adjusts the fifth telescopic rod 705 to clamp the two ends of the detection kit.

Preferably, the second driving motor is a stepping motor, and each time of rotation, the distance of the second conveying belt 401 moving is consistent with the distance between the two partition boards 402, and the second driving motor is started to rotate the second conveying belt 401 to drive the detection kit to move for a fixed distance.

In the above structure, when the packing device for the detection reagent box is used, the first driving motor is started to drive the first conveying belt 201 to rotate, the detection reagent box is conveyed from the previous procedure, the first telescopic rod 202 is regulated, the distance between the first baffle 203 and the rack 103 is proper, the narrower one end of the detection reagent box passes through the gap between the first baffle 203 and the rack 103, the detection reagent box is kept in the same direction, the detection reagent box is conveyed to the front side, the detection reagent box is moved to the upper end of the third baffle 304 and is positioned between the two second baffles 301, the second telescopic rod 303 is regulated, the third baffle 304 is moved to the direction far from the second baffle 301, the detection reagent box is separated from the third baffle 304, the detection reagent box falls into the space between the two baffles 402 at the upper end of the second conveying belt 401, the second driving motor is started, the second conveying belt 401 is rotated, the second conveying belt 401 is driven to move a fixed distance, the second telescopic rod 303 is driven to keep the same time interval, the detection reagent box is kept in the same between the two baffles 402, the detection reagent box is conveyed to the front side, the detection reagent box is moved to the upper end of the third baffle 304, the second baffle 301 is positioned between the two second baffle 301, the second baffle 301 is driven to move in the direction far from the second baffle 702, the second baffle 706 is driven to move the second baffle 702, the first baffle 706 is driven to move the reagent box is driven to the second baffle 702, the fourth baffle 702 is driven to move, the first baffle 702 is driven to move the first baffle plate 706, the reagent box is driven to move, the first and move the reagent box is driven to move, the reagent box is pushed to move, the front, and rotate, the reagent box is pushed to move, and move the reagent box is pushed to rotate, and move up, and move is kept the reagent box is moved to move, and move is kept. The quantity of detection reagent boxes is guaranteed through the partition plate 402 and the infrared counter 403, the detection reagent boxes are guaranteed to be orderly arranged through the second push plate 603 and the clamping plate 706, and the reduction of the quantity of the reagent boxes placed in the paper boxes due to the dislocation of the reagent boxes is avoided.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and their equivalents.

Claims (8)

1. The utility model provides a detection kit packing apparatus, includes board (101), packing box (102) have been placed to board (101) front side, board (101) upper end fixed mounting has frame (103), its characterized in that: the machine is characterized in that a feeding assembly (200) is arranged at the upper end of the machine table (101), a discharging assembly (300) is arranged at the front end of the feeding assembly (200), a material moving assembly (400) is arranged at the lower side of the discharging assembly (300), a pushing assembly (500) is arranged at the rear side of the material moving assembly (400), a discharging assembly (600) is arranged at the front side of the material moving assembly (400), a gripper assembly (700) is arranged at the upper side of the discharging assembly (600), and the packaging box (102) is placed at the front side of the discharging assembly (600) and located below the gripper assembly (700).

2. The test kit packaging device of claim 1, wherein: the feeding assembly (200) comprises a first conveying belt (201), the first conveying belt (201) is rotatably installed at the upper end of the frame (103), one end of a rotating roller of the first conveying belt (201) is connected with a first driving motor, a first telescopic rod (202) is fixedly installed at the upper end of the frame (103), the first telescopic rod (202) is horizontally arranged, and a first baffle (203) is fixedly installed at one end, close to the center of the first conveying belt (201), of the first telescopic rod (202).

3. The test kit packaging device of claim 1, wherein: the discharging assembly (300) comprises two second baffles (301), the two second baffles (301) are symmetrically and fixedly installed at the upper end of the frame (103), supporting plates (302) are fixedly installed at one sides, away from each other, of the second baffles (301), second telescopic rods (303) are fixedly installed at one sides, close to the second baffles (301), of the supporting plates (302), third baffle plates (304) are fixedly installed at one sides, close to the second baffles (301), of the second telescopic rods (303), the third baffle plates (304) are L-shaped, and one ends in the horizontal direction are located at the lower sides of the second baffles (301).

4. The test kit packaging device of claim 1, wherein: the material moving assembly (400) comprises a second conveying belt (401), the second conveying belt (401) is rotatably arranged at the upper end of the frame (103), one end of a rotating roller of the second conveying belt (401) is connected with a second driving motor, a plurality of partition boards (402) are fixedly arranged on the belt surface of the second conveying belt (401), the intervals of the partition boards (402) are kept consistent, an infrared counter (403) is fixedly arranged at the upper end of the frame (103), and the height of the infrared counter (403) is lower than that of the partition boards (402).

5. The test kit packaging device of claim 4, wherein: the pushing assembly (500) comprises a first sliding block (501), the first sliding block (501) is slidably mounted at the upper end of the frame (103), a first lead screw (502) is rotatably mounted at the upper end of the frame (103), the first lead screw (502) is in threaded connection with the first sliding block (501), one end of the first lead screw (502) is connected with a third driving motor, a connecting rod (503) is fixedly mounted at the front end of the first sliding block (501), a first push plate (504) is fixedly mounted at the front end of the connecting rod (503), and the width of the first push plate (504) is consistent with the distance between two partition boards (402).

6. The test kit packaging device of claim 1, wherein: the discharging assembly (600) comprises a receiving plate (601), the receiving plate (601) is horizontally arranged and fixedly installed at the upper end of the frame (103), a third telescopic rod (602) is fixedly installed at the upper end of the receiving plate (601), and a second push plate (603) is fixedly installed at one end, close to the center of the receiving plate (601), of the third telescopic rod (602).

7. The test kit packaging device of claim 1, wherein: the gripper assembly (700) comprises a second slider (701), the second slider (701) is slidably mounted at the upper end of the frame (103), a second lead screw (702) is rotatably mounted at the upper end of the frame (103), the second lead screw (702) is in threaded connection with the second slider (701), one end of the second lead screw (702) is connected with a fourth driving motor, a fourth telescopic rod (703) is fixedly mounted at the lower end of the second slider (701), a connecting block (704) is fixedly mounted at the lower end of the fourth telescopic rod (703), a plurality of fifth telescopic rods (705) are fixedly mounted at the front side and the rear side of the fourth telescopic rod (703), and clamping plates (706) are fixedly mounted at one ends of the fifth telescopic rods (705) away from the connecting block (704).

8. The test kit packaging device of claim 4, wherein: the second driving motor is a stepping motor, and each rotation enables the distance of the second conveying belt (401) to move to be consistent with the distance between the two separation plates (402).