CN220878977U - Automatic double-position feeding test tube rack - Google Patents

Abstract

The utility model belongs to the field of auxiliary equipment devices of detection instruments, and particularly relates to a double-position automatic material receiving and feeding test tube rack; comprises a fixed plate, a bearing plate, a frame body, a sliding rail and a driving motor; the fixed plate is arranged on the table top of the equipment, and the bearing plate is arranged in a sliding way with the fixed plate through a sliding rail; the driving motor is hung on the lower end surface of the fixed plate through a motor hanging bracket and is positioned below the bearing plate; the driving motor drives the bearing plate to move through the transmission assembly; by adopting the utility model, the whole structure is simple, the reliability is strong, the independent double-station design ensures that the test tube rack body can be arranged in a rhythm of feeding and discharging according to the requirement, the whole test tube receiving and feeding efficiency is improved, the receiving and feeding efficiency of test tube samples in the related detection and inspection activities is improved as a whole, the detection efficiency and accuracy are improved, unnecessary errors caused by manual errors are reduced, and the basic complex operation of staff is lightened.

Description

Automatic double-position feeding test tube rack

Technical Field

The utility model belongs to the field of auxiliary equipment devices of detection instruments, and particularly relates to a double-position automatic material receiving and feeding test tube rack.

Background

The current medical field starts to utilize automation equipment increasingly to complete tasks of detection and inspection, for example, inspection and analysis of sampled medical parameters such as blood, urine and the like, and the equipment used in the works can accurately work and provide traceable results, and meanwhile, the detection speed must be high;

The test and detection projects all need to use a large number of test tubes, but the equipment and the device adopt fixed test tube racks, or use a universal test tube rack and then carry out transfer and transportation of the test tube racks by operators; this increases the working strength and working time of the operator virtually; further to the case where the sample is contaminated or the transfer is erroneous.

Disclosure of utility model

The utility model aims to provide a double-position automatic feeding test tube rack, which solves the technical problems, improves the test tube feeding and transferring efficiency and is suitable for automatic equipment.

In order to achieve the above object, the present utility model provides the following technical solutions;

A double-position automatic receiving and feeding test tube rack comprises a fixed plate, a bearing plate, a rack body, a sliding rail and a driving motor;

The fixed plate is arranged on the table top of the equipment, and the bearing plate is arranged in a sliding way with the fixed plate through a sliding rail; the driving motor is hung on the lower end surface of the fixed plate through a motor hanging bracket and is positioned below the bearing plate; the driving motor drives the bearing plate to move through the transmission assembly;

The driving motor, the bearing plate and the sliding rail are all of a double-position design.

Furthermore, a clearance groove is formed in the fixed plate and is used for assembling the bearing plate;

Further, a connecting frame is hung on the lower end face of the bearing plate; the side edge of the connecting frame is matched with the size of the clearance groove; the inner bottom surface of the connecting frame is in sliding connection with the lower end surface of the fixed plate through a sliding rail; the outer bottom surface of the connecting frame is connected with a transmission assembly;

Further, the transmission assembly comprises a driving wheel shaft, a transmission belt, a steering wheel shaft and a connecting block; the driving wheel shaft is assembled on an output shaft of the driving motor, and the steering wheel shaft is arranged on the inner bottom surface of the motor hanger; the driving belt is wound on the driving wheel shaft and the steering wheel shaft in an S shape, and a connecting block is arranged at the outer bottom surface of the connecting frame; the connecting block is fixedly connected with a transmission belt;

further, the upper end face of the bearing plate is also provided with a test tube guide frame;

compared with the prior art, the utility model has the following beneficial effects:

By adopting the utility model, the whole structure is simple, the reliability is strong, the independent double-station design ensures that the test tube rack body can be arranged in a rhythm of feeding and discharging according to the requirement, the whole test tube receiving and feeding efficiency is improved, the receiving and feeding efficiency of test tube samples in the related detection and inspection activities is improved as a whole, the detection efficiency and accuracy are improved, unnecessary errors caused by manual errors are reduced, and the basic complex operation of staff is lightened.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic top view of the present utility model;

FIG. 3 is an exploded view of the structure of the present utility model;

Fig. 4 is a schematic structural view of a transmission assembly according to the present utility model.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments.

Referring to fig. 1 to 4, a dual-position automatic material receiving test tube rack comprises a fixed plate 10, a bearing plate 20, a rack body 30, a sliding rail 40 and a driving motor 50;

The fixed plate 10 is arranged on the table top of the equipment, and the bearing plate 20 is slidably arranged with the fixed plate 10 through a sliding rail 40; the driving motor 50 is hoisted on the lower end surface of the fixed plate 10 through a motor hanging bracket 51 and is positioned below the bearing plate 20; the driving motor 50 drives the bearing plate 20 to move through the transmission assembly;

The drive motor 50, the carrier plate 20 and the sliding rail 40 are all of a dual position design.

Further, the fixing plate 10 is provided with a avoidance slot 11 for assembling the bearing plate 20;

In this embodiment, the fixing plate 10 is fixedly installed in the apparatus, and the avoidance slot 11 is provided for mainly carrying out the avoidance of the reciprocating motion of the bearing plate 20, so that the bearing plate 20 is conveniently stopped at a designated position in the in-place state.

Further, a connecting frame 21 is hung on the lower end surface of the bearing plate 20; the side edge of the connecting frame 21 is matched with the size of the clearance groove 11; and the inner bottom surface of the connecting frame 21 is in sliding connection with the lower end surface of the fixed plate 10 through a sliding rail 40; the outer bottom surface of the connecting frame 21 is connected with a transmission assembly;

In this embodiment, the carrying plate 20 is used for accommodating the frame 30, and the lower connecting frame 21 is used for sliding fit with the fixing plate 10; the whole transmission assembly of receiving of loading board 20 drives, carries out the transportation of test tube, and the independent driving motor 50 of double-position formula design adoption drives, mutually noninterferes.

Further, the transmission assembly comprises a driving wheel shaft 61, a transmission belt 63, a steering wheel shaft 62 and a connecting block 64; the driving wheel shaft 61 is assembled on the output shaft of the driving motor 50, and the steering wheel shaft 62 is arranged on the inner bottom surface of the motor hanger 51; the driving belt 63 is wound on the driving wheel shaft 61 and the steering wheel shaft 62 in an S shape, and a connecting block 64 is arranged at the outer bottom surface of the connecting frame 21; the connecting block 64 is fixedly connected with the transmission belt 63;

In the embodiment, the transmission assembly is of a double-wheel structure, the driving wheel axle 61 is responsible for power transmission, and the steering wheel axle 62 is responsible for tensioning and positioning a belt and reversing the belt transmission after all; the transmission belt 63 adopts an S-shaped winding method, takes a phase steering wheel shaft 62 as a steering point, and carries out secondary steering on the belt running direction, so that the two connecting blocks 64 on the belt can realize the same-direction movement; the operation stability of the connecting frame 21 in the bearing plate 20 is improved; in the double-position structure, the transmission components are independently arranged in the corresponding motor hanging frame 51 and do not interfere with each other.

Further, the upper end surface of the carrying plate 20 is also provided with a test tube guide frame 22;

In this embodiment, the carrier plate 20 is provided with the test tube guide frame 22 to ensure that the frame 30 can quickly replace the frame 30 in a sideslip manner, so as to improve the working efficiency of operators.

By adopting the utility model, the whole structure is simple, the reliability is strong, the independent double-station design ensures that the test tube rack body can be arranged in a rhythm of feeding and discharging according to the requirement, the whole test tube receiving and feeding efficiency is improved, the receiving and feeding efficiency of test tube samples in the related detection and inspection activities is improved as a whole, the detection efficiency and accuracy are improved, unnecessary errors caused by manual errors are reduced, and the basic complex operation of staff is lightened.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the scope of the utility model as defined in the accompanying claims.

Claims (5)

1. The double-position automatic material receiving and feeding test tube rack is characterized by comprising a fixed plate (10), a bearing plate (20), a rack body (30), a sliding rail (40) and a driving motor (50);

The fixed plate (10) is arranged on the table top of the equipment, and the bearing plate (20) is slidably arranged with the fixed plate (10) through a sliding rail (40); the driving motor (50) is hoisted on the lower end surface of the fixed plate (10) through a motor hanging bracket (51) and is positioned below the bearing plate (20); the driving motor (50) drives the bearing plate (20) to move through the transmission assembly;

The driving motor (50), the bearing plate (20) and the sliding rail (40) are of a double-position design.

2. The dual-position automatic material receiving and feeding test tube rack according to claim 1, wherein the fixing plate (10) is provided with a position avoiding groove (11) for assembling the bearing plate (20).

3. The double-position automatic material receiving and feeding test tube rack according to claim 2, wherein a connecting frame (21) is hung on the lower end surface of the bearing plate (20); the side edge of the connecting frame (21) is matched with the size of the clearance groove (11); the inner bottom surface of the connecting frame (21) is in sliding connection with the lower end surface of the fixed plate (10) through a sliding rail (40); the outer bottom surface of the connecting frame (21) is connected with a transmission assembly.

4. A dual-position automatic feed-in test tube rack according to claim 3, wherein the transmission assembly comprises a driving wheel shaft (61), a transmission belt (63), a steering wheel shaft (62) and a connecting block (64); the driving wheel shaft (61) is assembled on an output shaft of the driving motor (50), and the steering wheel shaft (62) is arranged on the inner bottom surface of the motor hanger (51); the transmission belt (63) is wound on the driving wheel shaft (61) and the steering wheel shaft (62) in an S shape, and a connecting block (64) is arranged at the outer bottom surface of the connecting frame (21); the connecting block (64) is fixedly connected with the transmission belt (63).

5. The dual-position automatic material receiving and feeding test tube rack according to claim 4, wherein the upper end surface of the bearing plate (20) is further provided with a test tube guide frame (22).