CN215843106U

CN215843106U - Multistation sample analysis platform

Info

Publication number: CN215843106U
Application number: CN202122220120.0U
Authority: CN
Inventors: 胡双烨; 裴谦凤
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-09-14
Filing date: 2021-09-14
Publication date: 2022-02-18
Anticipated expiration: 2031-09-14

Abstract

The utility model belongs to the technical field of specimen analyzing workbenches, and particularly relates to a multi-station specimen analyzing table which comprises a counter and a transverse moving frame; the front side of the counter is used for a human body to stand, and a plurality of analyzing stations are arranged along the length direction of the counter; a back plate frame is arranged at the rear side of the counter, and a belt conveyor for horizontally conveying the transverse moving frame is arranged on the back plate frame; a plurality of storage lattices for placing specimens, instruments or paper pens are arranged on the front side of the transverse moving frame, and an inverted L-shaped hook is arranged on the rear side of the transverse moving frame; when the traverse frame is hung on the belt conveyor through the inverted L-shaped hook, the traverse frame moves along the length direction of the counter. The transverse moving frame is detachably hung on the belt conveyor, so that the belt conveyor can be used for conveying the transverse moving frame in the process of transferring the same specimen at different stations, and the specimen and the note data can be conveniently moved among different stations.

Description

Multistation sample analysis platform

Technical Field

The utility model belongs to the technical field of specimen analyzing workbenches, and particularly relates to a multi-station specimen analyzing table.

Background

Pathological diagnosis often requires biopsy, exfoliation and fine needle cytology, necropsy, etc., and according to the results of these examinations, clear pathological diagnosis can be provided clinically, the nature of the disease can be determined, and the cause of death can be found out. Because the pathological diagnosis report is not a pictorial description, but a clear name of the disease, clinicians mainly determine the therapeutic principles, estimate prognosis, and explain clinical symptoms and clear causes of death based on the pathological report. Therefore, the quality of pathological diagnosis greatly affects the quality of medical treatment of relevant departments and even the hospital as a whole.

In the pathological diagnosis process or the examination process, the collected specimens are often required to be subjected to anatomy and cell examination, in some pathological diagnosis processes, a plurality of experts are often required to finish the examination together, some specimens are required to be repeatedly examined for different projects, and in the manual transfer process of the specimens, the problems that the specimens fall down or the examination data are not easy to be completely handed over can be caused. Therefore, it is a problem to be solved to design a multi-station workbench for facilitating the overall transfer of the specimen and the note data.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that the samples and the note data are not easy to be wholly handed over in the process of the joint cooperation of a plurality of experts of the conventional workbench, the scheme provides the multi-station sample analyzing platform.

The technical scheme adopted by the utility model is as follows:

a multi-station specimen analyzing table comprises a counter and a transverse moving frame; the front side of the counter is used for a human body to stand, and a plurality of analyzing stations are arranged along the length direction of the counter; a back plate frame is arranged at the rear side of the counter, and a belt conveyor for horizontally conveying the transverse moving frame is arranged on the back plate frame; a plurality of storage lattices for placing specimens, instruments or paper pens are arranged on the front side of the transverse moving frame, and an inverted L-shaped hook is arranged on the rear side of the transverse moving frame; when the traverse frame is hung on the belt conveyor through the inverted L-shaped hook, the traverse frame moves along the length direction of the counter.

Optionally: on the rear side of the counter, there is a transverse trough through all the profiling stations, which is used for discharging the waste water.

Optionally: all be provided with tap at every profile station department, and all taps all are located the top of horizontal basin.

Optionally: the water inlet side of each water faucet is connected with an infrared sensor, and each infrared sensor is used for opening or closing the corresponding water faucet.

Optionally: a plurality of belt conveyors are arranged on the back plate frame, two adjacent belt conveyors are connected, and the gap between the two adjacent belt conveyors is smaller than the length of the inverted L-shaped hook.

Optionally: each belt conveyor comprises a driving wheel, a driven wheel, a conveying belt and a driving motor, the conveying belt is connected between the driving wheel and the driven wheel, and a rotating shaft of the driving motor is connected with the driving wheel.

Optionally: the upper part of the guide table extends to the upper part of the belt conveyor belt from the side surface of the belt conveyor belt, and when the transverse moving frame is arranged on the belt conveyor belt, the upper part of the guide table extends to the inner side of the inverted L-shaped hook.

Optionally: the lower part of the guide table is provided with a guide back wheel which is vertically arranged and is used for abutting against the rear side of the transverse moving frame.

Optionally: the inverted L-shaped hook is connected with a guide supporting wheel which is used for supporting the upper part of the guide table.

The utility model has the beneficial effects that:

1. the transverse moving frame in the scheme is detachably hung on the belt conveyor, so that in the process of transferring the same sample at different stations, the sample is only required to be placed on the transverse moving frame, and then the transverse moving frame is hung on the belt conveyor, and the sample and the note data can conveniently move between different stations by utilizing the mode of conveying the transverse moving frame by the belt conveyor;

2. in the scheme, each analyzing station of the counter is provided with a faucet, and the faucet is controlled to be switched on and off by an infrared sensor, so that non-contact switching on and off is realized, the counter is convenient to clean, and pollution is avoided.

Drawings

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

FIG. 1 is a front side view of a multi-station specimen dissecting table;

FIG. 2 is a right side view of a multi-station specimen dissecting table;

FIG. 3 is a view showing the arrangement of the traverse frame, the belt conveyor and the guide table;

fig. 4 is a layout view of a plurality of belt conveyors at the position of the backboard bracket.

Description of the drawings: 1-counter; 2-backing plate frame; 3-a guide table; 4-transversely moving the frame; 4 a-an inverted L-shaped hook; 4 b-a guide support wheel; 5-a water tap; 6-infrared inductor; 7-a transverse water tank; 8-a belt conveyor; 8 a-a drive motor; 8 b-a conveyor belt; 9-multi-key press; 10-guide back wheel.

Detailed Description

Example 1

As shown in fig. 1 to 4, the present embodiment designs a multi-station specimen analyzing table, which includes a counter 1 and a traverse frame 4.

The counter 1 is of a long strip cabinet type structure, and a chamber for storing articles and a cabinet door for opening and closing the corresponding chamber are arranged below the counter 1. The front side of the counter 1 is used for a human body to stand, the back side of the counter 1 is provided with a back plate frame 2, a plurality of analyzing stations are arranged along the length direction of the counter 1, and each analyzing station is provided with a corresponding cabin for storing articles.

Simultaneously, for convenient in rinsing sample or instrument in every analysis station department, all be provided with tap 5 at every analysis station, all be connected with infrared inductor 6 in the side of intaking of every tap 5, each infrared inductor 6 is used for opening or turn-off corresponding tap 5, and tap 5 is controlled the switch by infrared inductor, realizes contactless switching-on and switching-off to convenient in the washing, avoid polluting simultaneously. The infrared sensor is a commercially available product, and the structure of the infrared sensor is not described in detail.

On the rear side of the counter 1 there is a transverse water trough 7 through all the profiling stations, said transverse trough 7 being used for discharging waste water. All taps 5 are located directly above the transverse sink 7. The waste water from the tap 5 tool or specimen falls directly into a transverse sink 7, the end of which sink 7 can be connected to a sewer or a bucket dedicated to waste water recovery.

A belt conveyor 8 for horizontally conveying the transverse moving frame is arranged on the back plate frame 2; when the band conveyor 8 covers all the analyzing stations in the lateral direction so that the traverse frame 4 is hung from the band conveyor 8 by the inverted-L-shaped hooks 4a, the traverse frame 4 moves in the longitudinal direction of the counter.

A plurality of storage lattices for placing specimens, instruments or paper pens are arranged on the front side of the transverse moving frame 4; when the specimen or note data needs to be transferred to other stations, the specimen or note data can be loaded into the storage lattices of the traverse frame 4, then the traverse frame 4 is hung on the belt conveyor 8, and the transfer of the traverse frame 4 between different analyzing stations is completed by the belt conveyor 8. Meanwhile, the traverse frame 4 is used as a container for the specimen or the note data, so that omission in the handover process or falling of the specimen in the handover process can be reduced.

Example 2

As shown in fig. 1 to 4, the present embodiment provides a multi-station specimen analyzing table, which includes a counter 1 and a traverse frame 4.

The front side of the counter 1 is used for a human body to stand, and the back plate frame 2 is arranged at the rear side of the counter 1.

A plurality of profiling stations are arranged along the length direction of the counter 1.

A plurality of belt conveyors 8 are provided on the back panel frame 2, each belt conveyor 8 being arranged in the horizontal direction, and two adjacent belt conveyors 8 are joined. The gap between two adjacent belt conveyors 8 is smaller than the length of the inverted-L-shaped hook 4a, so that the traverse frame 4 can be always driven by one of the belt conveyors 8.

A plurality of storage lattices for placing specimens, instruments or paper pens are arranged on the front side of the transverse moving frame 4, and an inverted L-shaped hook 4a is arranged on the rear side of the transverse moving frame 4; when the traverse frame 4 is hung on the belt conveyor 8 by the inverted-L-shaped hook 4a, the traverse frame 4 moves in the longitudinal direction of the counter.

Each belt conveyor 8 is located at one analyzing station, so that when the analyzing stations need to be expanded or reduced, the corresponding belt conveyors 8 are increased or decreased according to needs, and the increase or decrease of the analyzing stations is facilitated.

Each belt conveyor 8 in the embodiment comprises a driving wheel, a driven wheel, a conveying belt 8b and a driving motor 8a, wherein the conveying belt 8b is connected between the driving wheel and the driven wheel, and a rotating shaft of the driving motor 8a is connected with the driving wheel; in addition, the above structure is only one structure provided in the present embodiment, and if a chain transmission or a roller transmission method is adopted, the scope of the present embodiment can also be regarded as the scope of the present embodiment.

When the traverse frame 4 is hung on the belt conveyor 8, since the center of gravity of the traverse frame 4 is not positioned directly above the belt conveyor 8, in order to prevent the traverse frame 4 from falling off the belt conveyor 8 in a lateral direction, the guide table 3 is connected to the back plate frame 2, the upper portion of the guide table 3 extends from the side surface of the belt conveyor 8b to above the belt conveyor 8b, and when the traverse frame 4 is placed on the belt conveyor 8b, the upper portion of the guide table 3 extends to the inside of the inverted-L-shaped hook 4 a. The inner side of the inverted L-shaped hook 4a is abutted against the inner side of the guide table 3, thereby effectively avoiding the falling of the traverse frame 4.

Further, in order to reduce the frictional force between the guide table 3 and the traverse frame 4, the following are: a guide back wheel 10 is provided at a lower portion of the guide table 3, and the guide back wheel 10 is vertically provided to abut against a rear side of the traverse frame 4. Meanwhile, a guide abutment wheel 4b is connected to the inverted L-shaped hook 4a, and the guide abutment wheel 4b abuts against the side surface of the upper portion of the guide table 3.

In order to facilitate the control of the conveying direction and the conveying position of the belt conveyor 8, a multi-key keying device and a sensor can be arranged at each analyzing station, different numbers are arranged on the multi-key keying device to correspond to different analyzing stations, the multi-key keying device and the sensor are connected to the same controller, after the multi-key keying device presses the corresponding numbers, the controller judges the number of the analyzing station where the multi-key keying device is pressed and the number to be pressed, so that the conveying direction of the belt conveyor is judged, when the transverse moving frame 4 moves to the analyzing station to be reached, the corresponding sensor is triggered by the transverse moving frame 4, and then the controller controls the belt conveyor to stop. The above control method is only an example in this embodiment, and the belt conveyor may also be controlled by manually pressing the belt conveyor for a long time, for example, when the multi-key press has only two keys for controlling the conveying direction of the belt conveyor, and when one of the keys is pressed for a long time, the belt conveyor starts conveying in the corresponding direction, and then the position of the traverse frame 4 is determined by human eyes, and after the hand is released, the belt conveyor stops.

The foregoing examples are provided for clarity of illustration only and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are intended to be within the scope of the utility model.

Claims

1. The utility model provides a multistation sample analysis platform which characterized in that: comprises a counter (1) and a transverse moving frame (4); the front side of the counter (1) is used for a human body to stand, and a plurality of analyzing stations are arranged along the length direction of the counter (1); a backboard frame (2) is arranged at the rear side of the counter (1), and a belt conveyor (8) for horizontally conveying the transverse moving frame is arranged on the backboard frame (2); a plurality of storage lattices for placing specimens, instruments or pens are arranged on the front side of the transverse moving frame (4), and an inverted L-shaped hook (4 a) is arranged on the rear side of the transverse moving frame (4); when the traverse frame (4) is hung on the belt conveyor (8) by the inverted L-shaped hook (4 a), the traverse frame (4) moves in the longitudinal direction of the counter.

2. The multi-station specimen parsing table of claim 1, wherein: a transverse water tank (7) passing through all the analyzing stations is arranged on the rear side of the counter (1), and the transverse water tank (7) is used for discharging waste water.

3. The multi-station specimen parsing station of claim 2, wherein: and a water faucet (5) is arranged at each analyzing station, and all the water faucets (5) are positioned right above the transverse water tank (7).

4. The multi-station specimen parsing station of claim 3, wherein: the water inlet side of each water tap (5) is connected with an infrared inductor (6), and each infrared inductor (6) is used for turning on or turning off the corresponding water tap (5).

5. The multi-station specimen parsing table of claim 1, wherein: a plurality of belt conveyors (8) are arranged on the back plate frame (2), two adjacent belt conveyors (8) are connected, and the gap between the two adjacent belt conveyors (8) is smaller than the length of the inverted L-shaped hook (4 a).

6. The multi-station specimen parsing station of claim 5, wherein: each belt conveyor (8) comprises a driving wheel, a driven wheel, a conveying belt (8 b) and a driving motor (8 a), the conveying belt (8 b) is connected between the driving wheel and the driven wheel, and a rotating shaft of the driving motor (8 a) is connected with the driving wheel.

7. The multi-station specimen parsing table of claim 1, wherein: a guide table (3) is connected to the back plate frame (2), the upper part of the guide table (3) extends to the upper part of the belt conveyor belt (8 b) from the side surface of the belt conveyor belt (8 b), and when the transverse moving frame (4) is arranged on the belt conveyor belt (8 b), the upper part of the guide table (3) extends to the inner side of the inverted L-shaped hook (4 a).

8. The multi-station specimen dissecting table of claim 7, wherein: a guide back wheel (10) is arranged at the lower part of the guide table (3), and the guide back wheel (10) is vertically arranged and is used for abutting against the rear side of the transverse moving frame (4).

9. The multi-station specimen dissecting table of claim 8, wherein: a guide supporting wheel (4 b) is connected to the inverted L-shaped hook (4 a), and the guide supporting wheel (4 b) is used for supporting the upper part of the guide table (3).