CN220200606U - Push pedal loading attachment for test tube - Google Patents

Abstract

The utility model discloses a push plate feeding device for a test tube, which comprises: a back taper feed bin for holding test tube, one side of feed bin is used for driving the test tube and removes with the charging structure is corresponding, the charging structure includes: the automatic test tube pushing device is characterized in that the automatic test tube pushing device is in butt joint with the storage bin and used for pushing a test tube to move upwards, the automatic test tube pushing device is fixed on the storage bin and used for driving a driving structure to move, the driving structure is connected with the pushing structure through a connecting structure to drive the pushing structure to move up and down, and the connecting structure is matched with a sliding strip fixed on the storage bin through a sliding groove and forms a sliding structure with the storage bin. This push pedal loading attachment for test tube no longer needs the manual work to place, can save a large amount of manpower and materials, and is simple and convenient moreover, labour saving and time saving improves work efficiency greatly.

Description

Push pedal loading attachment for test tube

Technical Field

The utility model belongs to the technical field of test tube sorting equipment, and particularly relates to a push plate feeding device for test tubes.

Background

In daily work in hospitals, it is often necessary to dispense corresponding test tubes to a patient for blood collection or the like at the time of blood collection or the like, wherein a bar code representing patient information is printed on the test tube dispensed to the patient, and by scanning the bar code, the computer can read the patient's identity information.

The test tube sorting machine is an automatic device capable of efficiently replacing manual sorting, and is mainly used for sorting a large number of test tube samples together for checking test tube samples in the same department so as to meet the requirement of subsequent detection.

Under normal conditions, test tube labeling is carried out manually, then scanning is carried out, the technology is advanced, a test tube bar code pasting machine is adopted, but test tube clamping of the test tube bar code pasting equipment is carried out manually and singly at a feeding position, and then feeding of single test tubes is completed by a subsequent electromechanical structure.

Disclosure of Invention

The utility model aims to solve the problems in the prior art, and aims to provide a push plate feeding device for test tubes, so as to solve the problems that the conventional test tube clamping is carried out by manually placing a single test tube at a feeding position and then feeding the single test tube is completed by a subsequent electromechanical structure, and the method is time-consuming and labor-consuming and has low efficiency.

In order to solve the technical problems, the utility model adopts the following technical scheme:

push pedal loading attachment for test tube includes: the inverted cone-shaped storage bin is used for containing test tubes, and one side of the storage bin corresponds to the feeding structure and is used for driving the test tubes to move;

the feeding structure comprises: the automatic test tube pushing device is characterized in that the automatic test tube pushing device is connected with a pushing plate structure for upward movement of a test tube and a driving structure for driving the pushing plate structure to move on the storage bin in a butt joint mode, the driving structure is connected with the pushing plate structure through a connecting structure to drive the pushing plate structure to move up and down, the connecting structure is matched with a sliding strip fixed on the storage bin through a sliding groove to form a sliding structure with the storage bin, manual placement is not needed, a large amount of manpower and material resources can be saved, and the automatic test tube pushing device is simple and convenient, time-saving and labor-saving, and greatly improves working efficiency.

Further, the push plate structure includes: from down up, from interior to outside arranging in proper order there are first push pedal, second push pedal, third push pedal, fourth push pedal and fifth push pedal, just first push pedal, second push pedal, third push pedal, fourth push pedal and the top of fifth push pedal all are fixed with corresponding board, and correspond the up end of board for the slope form, and all outwards slope, when the test tube in the push pedal, guarantee that the test tube flows smoothly from first push pedal to second push pedal on, until the fifth push pedal.

Further, the driving structure includes: the automatic feeding device comprises a bin, a fixed plate fixedly connected with the bin, a motor with a driving function and a gear plate connected with the fixed plate through a connecting shaft, wherein the output end of the motor is connected with the gear plate through a belt, the gear plate is driven to rotate through the belt, and the gear plate can drive the connecting shaft to rotate.

Further, the connection structure includes: the fixed rod is fixedly connected with one end of the connecting shaft and is parallel to the gear disc, one end of the fixed rod is hinged to the first connecting rod, one end of the second connecting rod is hinged to the gear disc, the other end of the first connecting rod is hinged to the first driving plate, the other end of the second connecting rod is hinged to the second driving plate, and the first driving plate and the second driving plate can move up and down to drive the first pushing plate, the second pushing plate, the third pushing plate and the fourth pushing plate to move up and down.

Further, the position of the fixing rod and the position of the hinge joint of the second connecting rod and the gear disc are positioned at opposite positions on the same horizontal plane.

Further, the first driving plate and the second driving plate are unequal U-shaped plates, and the first driving plate and the second driving plate comprise short plates and long plates.

Further, the short plate and the long plate of the first driving plate are respectively connected with the second pushing plate and the fourth pushing plate, the short plate and the long plate of the second driving plate are respectively connected with the first pushing plate and the third pushing plate, the first pushing plate and the third pushing plate move in opposite directions with the second pushing plate and the fourth pushing plate, then move relatively, form a circulation, push up and stagger movement, ensure that test tubes can be mutually butted, and push out the test tubes.

Further, the side of connection structure's long board evenly is fixed with the sliding tray, and sliding tray and sliding strip inlay sliding fit, and the first drive plate and the second drive plate that mutually support of sliding tray and sliding strip can drive connection structure can remove under the norm of sliding strip.

The beneficial effects are that: compared with the prior art, the application has the following advantages:

this push pedal loading attachment for test tube is provided with the feeding structure, the user can directly put the test tube in the feeding storehouse, under the motor drive of drive structure, the first push pedal of push pedal structure, the second push pedal, third push pedal and fourth push pedal correspond each other and reciprocate, drive structure's gear wheel work once, can utilize the push pedal structure to just can advance the feeding position from the feed bin to a test tube, no longer need the manual work to place, can save a large amount of manpower and materials, moreover simple and convenient, labour saving and time saving improves work efficiency greatly.

Drawings

FIG. 1 is a schematic view of a push plate feeding device for test tubes

FIG. 2 is a schematic diagram of a loading structure;

FIG. 3 is a schematic illustration of a push plate configuration and attachment configuration;

fig. 4 is a schematic diagram of a driving structure and a connecting structure.

Reference numerals: 1. a storage bin; 2. a feeding structure; 3. a driving structure; 301. a fixing plate; 302. lifting a motor; 303. a belt; 304. a gear plate; 305. a connecting shaft; 4. a push plate structure; 401. a first push plate; 402. a second push plate; 403. a third push plate; 404. a fourth push plate; 405. a fifth push plate; 406. a corresponding plate; 5. a connecting mechanism; 501. a fixed rod; 502. a first connecting rod; 503. a second connecting rod; 504. a first driving plate; 505. a second driving plate; 6. a sliding groove; 7. a sliding bar; 8. a short plate; 6. a long plate.

Detailed Description

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

As shown in fig. 1, 2, 3 and 4, a push plate feeding device for test tubes includes: a back taper feed bin 1 for holding test tube, one side of feed bin 1 is used for driving the test tube and removes with charging structure 2 is corresponding, and inside the test tube can directly put feeding bin 1, then charging structure can block a test tube at random 2 and upwards remove, drives the test tube and scans the partial shipment on the conveyer belt of feeding.

The feeding structure 2 comprises: the pushing plate structure 4 is butted with the storage bin 1 and used for moving up the test tube, the driving structure 3 is fixed on the storage bin 1 and used for driving the pushing plate structure 4 to move, the driving structure 3 is connected with the pushing plate structure 4 through the connecting structure 5 to drive the pushing plate structure 4 to move up and down, the connecting structure 5 is matched with the storage bin 1 through the sliding groove 6 and the sliding strip 7 fixed on the storage bin 1 to form a sliding structure, under the driving of the motor 302 of the driving structure 3, the first push plate 401, the second push plate 402, the third push plate 403 and the fourth push plate 404 of the push plate structure 4 correspondingly move up and down mutually, the gear disc 304 of the driving structure 3 works once, a test tube can be pushed into the feeding position from the storage bin 1 by utilizing the push plate structure 4, manual placement is not needed, a large amount of manpower and material resources can be saved, and the novel push plate structure is simple and convenient, time-saving and labor-saving, and greatly improves the working efficiency.

The push plate structure 4 includes: the first push plate 401, the second push plate 402, the third push plate 403, the fourth push plate 404 and the fifth push plate 405 are sequentially arranged from inside to outside, the fifth push plate 405 is fixed on the storage bin 1 and is also connected with an external feeding device at the uppermost end, a test tube finally flows out through the fifth push plate 405, corresponding plates 406 are fixed at the top ends of the first push plate 401, the second push plate 402, the third push plate 403, the fourth push plate 404 and the fifth push plate 405, the fixed connection can greatly improve the connection strength and stability, the phenomenon of cracking after long-term use is prevented, the upper end face of the corresponding plates 406 is inclined and is inclined outwards, and when the test tube is arranged on the push plate, the test tube always has an outward flowing force under the influence of gravity and the corresponding plates 406, and when the push plates intersect, the test tube is ensured to smoothly flow from the first push plate 401 to the second push plate 402 and up to the fifth push plate 405.

As shown in fig. 2, 3 and 4, the driving structure 3 includes: the fixed plate 301 fixedly connected with the storage bin 1 improves the connection strength and stability of the fixed plate 301, meanwhile, the stability of the driving structure 3 is guaranteed, a motor 302 with a driving function is fixed at the upper end of the fixed plate 301, a gear plate 304 connected with the fixed plate 301 through a connecting shaft 305 is arranged at the joint, the normal rotation of the connecting shaft 305 is guaranteed, the output end of the motor 302 is connected with the gear plate 304 through a belt 303, the motor 302 is started to rotate, the gear plate 304 is driven to rotate through the belt 303, and the gear plate can drive the connecting shaft 305 to rotate.

The connection structure 5 includes: the fixed rod 501 is fixedly connected with one end of the connecting shaft 305 and is parallel to the gear plate 304, the gear plate 304 rotates to drive the connecting shaft 305 to rotate, the connecting shaft 305 rotates to drive the fixed rod 501 to rotate, one end of the fixed rod 501 is hinged to the first connecting rod 502, the rotation of the fixed rod 501 can drive the first connecting rod 502 to displace, one end of the second connecting rod 503 is hinged to the gear plate 304, the gear plate 304 rotates to drive the second connecting rod 503 to displace, the other end of the first connecting rod 502 is hinged to the first driving plate 504, the other end of the second connecting rod 503 is hinged to the second driving plate 505, the movement of the first connecting rod 502 and the second connecting rod 503 can drive the first driving plate 504 and the second driving plate 505 to move up and down, and the movement of the first driving plate 504 and the second driving plate 505 can drive the first pushing plate 401, the second pushing plate 402, the third pushing plate 403 and the fourth pushing plate 404 to move up and down.

The position of the fixing rod 501 is in the opposite position on the same horizontal plane with the position of the hinged position of the second connecting rod 503 and the gear plate 304, when the gear plate 304 operates, the positions of the hinged positions of the fixing rod 501 and the second connecting rod 503 and the gear plate 304 are always opposite, and in the operation process of the gear plate 304, the first driving plate 504 and the second driving plate 505 are guaranteed to move in opposite directions, then the first pushing plate 401 and the second pushing plate 402 are relatively moved, a cycle is formed, the test tubes are guaranteed to be butted with each other, and the test tubes are pushed out.

The first driving plate 504 and the second driving plate 505 are unequal 'U' -shaped plates, the first driving plate 504 and the second driving plate 505 comprise a short plate 8 and a long plate 9, the short plate 8 and the long plate 9 of the first driving plate 504 are respectively connected with the second pushing plate 402 and the fourth pushing plate 404, the short plate 8 and the long plate 9 of the second driving plate 505 are respectively connected with the first pushing plate 401 and the third pushing plate 403, the first driving plate 504 is driven by the first connecting rod 502, the short plate 8 and the long plate 9 respectively drive the second pushing plate 402 and the fourth pushing plate 404 to move up and down, the second driving plate 505 is driven by the second connecting rod 503, the short plate 8 and the long plate 9 respectively drive the first pushing plate 401 and the third pushing plate 403 to move up and down, the first pushing plate 401 and the third pushing plate 403 move in opposite directions with the second pushing plate 402 and the fourth pushing plate 404, and then move up and stagger in a circulation mode, so that the test tubes can be pushed out.

The side of the long plate 9 of the connection structure 5 is uniformly fixed with the sliding groove 6, and the sliding groove 6 is embedded with the sliding strip 7 in sliding fit, and the sliding groove 6 and the sliding strip 7 are matched with each other to drive the first driving plate 504 and the second driving plate 505 of the connection structure 5 to move under the specification of the sliding strip 7, so that the normal operation of the work is facilitated.

When the novel test tube pushing device is used, the motor 302 is started to rotate, the gear plate 304 is driven to rotate through the belt 303, the gear plate can drive the connecting shaft 305 to rotate, the connecting shaft 305 drives the fixing rod 501 to rotate, the rotation of the fixing rod 501 can drive the first connecting rod 502 to move, the rotation of the gear plate 304 can drive the second connecting rod 503 to move, the first driving plate 504 is driven by the first connecting rod 502, the short plate 8 and the long plate 9 respectively drive the second pushing plate 402 and the fourth pushing plate 404 to move up and down, the second driving plate 505 is driven by the second connecting rod 503, the short plate 8 and the long plate 9 respectively drive the first pushing plate 401 and the third pushing plate 403 to move up and down, the first pushing plate 401 and the third pushing plate 403 move in opposite directions with the second pushing plate 402 and the fourth pushing plate 404 to move relatively, a circulation is formed to push up and stagger movement, the test tubes can be pushed out of each other, a large amount of manpower and material resources are not needed, and the novel test tube pushing device is simple, time and labor is saved, and work efficiency is greatly improved.

The utility model provides a thinking and implementation method of a push plate feeding device for test tubes, and the specific application ways are many, and the above is only a preferred embodiment of the utility model, and it should be pointed out that, for those skilled in the art, several improvements can be made without departing from the principle of the utility model, and these improvements should also be considered as the protection scope of the utility model.

Claims (8)

1. Push pedal loading attachment for test tube, its characterized in that: comprising the following steps: the device comprises an inverted cone-shaped storage bin (1) for containing test tubes, wherein one side of the storage bin (1) corresponds to a feeding structure (2) and is used for driving the test tubes to move;

the feeding structure (2) comprises: the automatic test tube pushing device is characterized by comprising a pushing plate structure (4) which is used for upwards moving a test tube and is in butt joint with a storage bin (1), and a driving structure (3) which is fixed on the storage bin (1) and used for driving the pushing plate structure (4) to move, wherein the driving structure (3) is connected with the pushing plate structure (4) through a connecting structure (5) to drive the pushing plate structure (4) to move up and down, and the connecting structure (5) is matched with a sliding strip (7) fixed on the storage bin (1) through a sliding groove (6) to form a sliding structure with the storage bin (1).

2. The pusher plate loading device for test tubes according to claim 1, wherein: the push plate structure (4) comprises: from bottom to top, there are first push plate (401), second push plate (402), third push plate (403), fourth push plate (404) and fifth push plate (405) arranged in proper order from inside to outside, just first push plate (401), second push plate (402), third push plate (403), fourth push plate (404) and fifth push plate (405) all are fixed with corresponding board (406), and the up end of corresponding board (406) is the slope form.

3. The pusher plate loading device for test tubes according to claim 1, wherein: the driving structure (3) comprises: the automatic feeding device is characterized by comprising a fixed plate (301) fixedly connected with the storage bin (1), a motor (302) with a driving function and a gear plate (304) connected with the fixed plate (301) through a connecting shaft (305), wherein the output end of the motor (302) is connected with the gear plate (304) through a belt (303).

4. A push plate feeding device for test tubes according to claim 1 or 3, characterized in that: the connection structure (5) comprises: and a fixing rod (501) fixedly connected with one end of the connecting shaft (305) and simultaneously parallel to the gear plate (304), wherein one end of the fixing rod (501) is hinged with a first connecting rod (502), one end of a second connecting rod (503) is hinged with the gear plate (304), the other end of the first connecting rod (502) is hinged with a first driving plate (504), and the other end of the second connecting rod (503) is hinged with a second driving plate (505).

5. The pusher plate feeding device for test tubes according to claim 4, wherein: the position of the fixed rod (501) is in the same horizontal plane and opposite to the position where the second connecting rod (503) and the gear disc (304) are hinged.

6. The pusher plate feeding device for test tubes according to claim 4, wherein: the first driving plate (504) and the second driving plate (505) are unequal U-shaped plates, and the first driving plate (504) and the second driving plate (505) comprise a short plate (8) and a long plate (9).

7. The pusher plate feeding device for test tubes according to claim 6, wherein: the short plate (8) and the long plate (9) of the first driving plate (504) are respectively connected with the second pushing plate (402) and the fourth pushing plate (404), and the short plate (8) and the long plate (9) of the second driving plate (505) are respectively connected with the first pushing plate (401) and the third pushing plate (403).

8. The pusher plate loading device for test tubes according to claim 1, wherein: the side edges of the long plates (9) of the connecting structure (5) are uniformly fixed with sliding grooves (6), and the sliding grooves (6) are in embedded sliding fit with the sliding strips (7).