CN219655635U - A portable display for laboratory scene - Google Patents

Abstract

The utility model discloses a movable display for a laboratory scene, and belongs to the field of laboratory display equipment. Comprises a display body, a display bracket and a horizontal moving unit; the display body is connected with the display bracket, and the display bracket is connected with the horizontal moving unit; the horizontal moving unit comprises a control box, a motor, a guide rail platform, a transmission screw rod, a guide rod, a sliding block, a supporting seat and a hanging rod; the display bracket comprises a first connecting seat, a swing arm, a second connecting seat, a fixed seat and a fixed plate; and a power line and a data line are arranged below the display body. In a laboratory, the lifting display is adopted, so that the using area of the laboratory table is not occupied, and the experimental operation of an experimenter is not influenced; the display is indirectly moved by adopting the control circuit to drive the motor, so that the display screen is convenient and flexible and is not easy to collide with, and the service life of the display is ensured.

Description

A portable display for laboratory scene

Technical Field

The utility model relates to the field of laboratory displays, in particular to a movable display for laboratory scenes.

Background

In a laboratory, the laboratory needs to rely on a specific display to respond and feedback the experimental results, and because the display is expensive to configure, multiple laboratory tables in one laboratory often need to share one display.

At present, the display often adopts a seat-mounted bracket, and the mode occupies the use area of the experiment table, so that experiment operation of an experimenter is affected; if the suspension bracket fixed on the experiment table is adopted to fix at a certain position, the experiment personnel at other long-distance experiment table stations need to frequently go and go to perform operations such as inputting relevant experiment data on the display.

To this end we propose a movable display for laboratory scenarios.

Disclosure of Invention

The utility model aims to provide a movable display for a laboratory scene, which can effectively solve the problems that the display in the laboratory is inconvenient to move and occupies the using area of a laboratory table.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a mobile display for a laboratory scene comprising a display body, a display stand and a horizontal movement unit; the display body is connected with the display bracket, and the display bracket is connected with the horizontal moving unit; the horizontal moving unit comprises a control box, a motor, a guide rail platform, a transmission screw rod, a guide rod, a sliding block, a supporting seat and a hanging rod; the control box is connected with the motor, and an output rotating shaft of the motor is connected with one end of the transmission screw rod; the sliding blocks are arranged on the guide rail platform, the supporting seats are arranged on two sides of the guide rail platform, and the connecting holes and the threaded through holes are formed in the sliding blocks and the supporting seats; the guide rod passes through the connecting hole of the sliding block and is lapped on the connecting hole of the supporting seat; the transmission screw rod passes through the threaded through hole of the sliding block and is lapped on the threaded through hole of the supporting seat; one end of the suspender is connected to the surface of the sliding block; the other end of the suspender is connected with the display bracket.

Preferably, the display bracket comprises a first connecting seat, a swing arm, a second connecting seat, a fixed seat and a fixed plate; the first connecting seat is connected to the suspender; one end of the swing arm is hinged to the first connecting seat, the other end of the swing arm is hinged to the second connecting seat, the second connecting seat is hinged to the fixing seat, the fixing seat is connected with the fixing plate, and the fixing plate is connected with the display body; the lower part of the display body is provided with a power line and a data line.

Preferably, a wire management tube is arranged below the swinging arm.

Preferably, the fixing base and the fixing plate are integrally formed.

Preferably, the fixing plate is provided with a fastening screw.

Preferably, the display body is provided with a wire clip.

Preferably, the boom is made of stainless steel.

Preferably, the swing arm is made of carbon steel.

Preferably, the number of the guide rods is two.

Compared with the prior art, the utility model has the following advantages: the display is driven by the motor to move along the guide rail platform, so that experimenters at different stations can perform input operations of experimental data and the like in situ, and the device is convenient and flexible; in a laboratory, the lifting display is adopted, so that the using area of the laboratory table is not occupied, and the experimental operation of an experimenter is not influenced; and the display screen is not required to be manually carried and is not easy to collide, so that the service life of the display is ensured.

Drawings

FIG. 1 is a simplified overall appearance of the present utility model;

FIG. 2 is a schematic view of a part of a horizontal moving unit according to the present utility model;

FIG. 3 is a schematic view of a partial structure of the present utility model;

FIG. 4 is a schematic view of a portion of a display stand according to the present utility model;

the device comprises a 1-display body, a 2-display bracket, a 21-first connecting seat, a 22-swing arm, a 23-second connecting seat, a 24-fixed seat, a 25-fixed plate, a 3-horizontal moving unit, a 31-control box, a 32-motor, a 33-guide rail platform, a 34-sliding block, a 35-guide rod, a 36-transmission screw rod, a 37-supporting seat, a 38-suspender, a 41-wire management pipe, a 42-wire management clamp and a 43-fastening screw.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model.

The utility model relates to a movable display for laboratory scenes, comprising a display body 1, a display stand 2 and a horizontal movement unit 3.

As shown in fig. 1, the display body 1 is connected to the display stand 2, and the display stand 2 is connected to the horizontal moving unit 3.

As shown in fig. 2, the horizontal moving unit 3 includes a control box 31, a motor 32, a rail platform 33, a transmission screw 36, a guide rod 35, a slider 34, a support base 37, a boom 38, and the like.

The control box 31 is connected with the motor 32, and a wireless signal transceiver is arranged in the control box 31 and can be used for receiving signals sent by a remote controller, so that the motor 32 is indirectly driven to rotate.

The output shaft of the motor 32 is connected to one end of the transmission screw 36, and the motor 32 can drive the transmission screw 36 to rotate.

The slider 34 is provided on the rail platform 33, and is horizontally movable on the rail platform 33. Support seats 37 are arranged on two sides of the guide rail platform 33, and the support seats 37 are used for supporting and connecting the whole structure; the slide block 34 and the supporting seat 37 are provided with a connecting hole and a threaded through hole; the guide rod 35 is lapped on the connecting hole of the supporting seat 37 at one end, penetrates through the connecting hole of the sliding block 34 and is lapped on the connecting hole of the supporting seat 37 at the other end; the guide rod 35 serves to fix the moving direction of the slider 34 so as to ensure a fixed horizontal movement. The number of the guide rods 35 is two, so that the movement has better accuracy and stability. One end of the transmission screw rod 36 is connected to the output rotating shaft of the motor 32, and the other end is lapped on a threaded through hole of the supporting seat 37 at one end, penetrates through the threaded through hole of the sliding block 34 and is lapped on a threaded through hole of the supporting seat 37 at the other end.

The sliding block 34 determines the moving direction by virtue of the guide rod 35, and the motor 32 drives the transmission screw rod 36 to rotate, so that the sliding block 34 is driven to horizontally move. The surface of the slider 34 is connected to one end of a boom 38, and the other end of the boom 38 is connected to the display stand 2, and the boom 38 is made of stainless steel, and is durable.

Through adopting motor 32 drive display to follow guide rail platform 33 and remove for the input operation such as experimental data can all be carried out in the spot to different station department experimenters, and is convenient nimble, has saved and has walked back and forth the time and has promoted work efficiency. In addition, in a laboratory, the lifting display is adopted, so that the using area of the laboratory table is not occupied, and the experimental operation of an experimenter is not influenced.

As shown in fig. 3 and 4, the display bracket includes a first connection base 21, a swing arm 22, a second connection base 23, a fixing base 24, and a fixing plate 25. The first connecting seat 21 is connected to the side wall of the other end of the boom 38; one end of the swing arm 22 is hinged to the first connecting seat 21, and the swing arm 22 can horizontally swing relative to the first connecting seat 21. The other end of the swing arm 22 is hinged to the second connecting seat 23, and the swing arm 22 can horizontally swing relative to the second connecting seat 23. The swing arm 22 is made of carbon steel, and is durable, light in weight and good in oxidation resistance. The second connecting seat 23 is hinged to the fixing seat 24, and the second connecting seat 23 can vertically swing relative to the fixing seat 24. The display body 1 can be adjusted in the horizontal direction by the swing arm 22, and can be adjusted in the vertical direction after the adjustment in the horizontal direction is completed, so that the display body is more in line with the best visual angle of an experimenter.

The fixing base 24 is connected to the fixing plate 25, the fixing base 24 and the fixing plate 25 are integrally formed, and the display is firm in structure and better in stability.

A wire management pipe 41 is fixed below the swing arm 22 for arranging and accommodating the relevant wires.

The fixed plate 25 is connected to the display body 1 and fixed by the fastening screw 43, and the fixed plate 25 is of a detachable structure, if different types of displays are needed to be matched, the fixed plate 25 is only required to be detached, and the fixed plate matched with the display is replaced.

The power line and the data line are arranged below the display body 1, and the power line and the data line are connected with a wire arranging clamp 42 for binding and fixing, and the bound power line and data line penetrate through the wire arranging pipe 41 to be stored, so that the influence on experimental results due to the fact that the line is touched by mistake during experimental operation is prevented.

When an experimenter performs experimental treatment, the experimenter moves the display to the upper part of the experiment table, firstly, the control box 31 is remotely controlled through the remote controller, and then the output rotating shaft of the driving motor 32 drives the transmission screw rod 36 connected with the driving motor to rotate, so that the sliding block 34 moves on the guide rail platform 33 along the guide rod 35 in the horizontal direction. Under the movement of the slide block 35, the boom 38 fixed on the slide block 35 drives the display bracket 2 to move, thereby driving the display body 1 to horizontally move. The display body 1 is arranged above the experiment table, and the pitching and horizontal angles of the display body 1 can be manually adjusted to the optimal visual angle of an experimenter. The utility model effectively solves the problem that the seat support occupies the using area of the experiment table, does not need to manually carry and disassemble the display, and can complete the movement of the display and the adjustment of the optimal visual angle of the display only by remote control and fine adjustment of pitching and horizontal angles; the experimenter does not need to go back and forth between the display and the experiment table, and can finish the input of experimental data and the like in situ, so that the working efficiency is improved.

Of course, the above-mentioned embodiments are only preferred embodiments of the present utility model, and not limiting the scope of the utility model, and all equivalent structural changes made by the description of the present utility model and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the utility model and should be protected by the present utility model.

Claims (9)

1. A removable display for a laboratory setting, characterized by: comprises a display body, a display bracket and a horizontal moving unit;

the display body is connected with the display bracket, and the display bracket is connected with the horizontal moving unit;

the horizontal moving unit comprises a control box, a motor, a guide rail platform, a transmission screw rod, a guide rod, a sliding block, a supporting seat and a hanging rod; the control box is connected with the motor, and an output rotating shaft of the motor is connected with one end of the transmission screw rod; the sliding blocks are arranged on the guide rail platform, the supporting seats are arranged on two sides of the guide rail platform, and the connecting holes and the threaded through holes are formed in the sliding blocks and the supporting seats; the guide rod passes through the connecting hole of the sliding block and is lapped on the connecting hole of the supporting seat; the transmission screw rod passes through the threaded through hole of the sliding block and is lapped on the threaded through hole of the supporting seat; one end of the suspender is connected to the surface of the sliding block; the other end of the suspender is connected with the display bracket.

2. A removable display for a laboratory scene as recited in claim 1, wherein: the display bracket comprises a first connecting seat, a swing arm, a second connecting seat, a fixed seat and a fixed plate; the first connecting seat is connected to the suspender; one end of the swing arm is hinged to the first connecting seat, the other end of the swing arm is hinged to the second connecting seat, the second connecting seat is hinged to the fixing seat, the fixing seat is connected with the fixing plate, and the fixing plate is connected with the display body; the lower part of the display body is provided with a power line and a data line.

3. A movable display for laboratory scenes according to claim 2, characterized in that a wire management tube is arranged under the oscillating arm.

4. A mobile display for laboratory scenes according to claim 2, wherein the fixed base is integrally formed with the fixed plate.

5. A mobile display for laboratory scenes according to claim 2, characterized in that the fixing plate is provided with fastening screws.

6. A mobile display for laboratory scenes according to claim 1, characterized in that the display body is provided with a wire clip.

7. A mobile display for laboratory scenes according to claim 1, wherein the boom is made of stainless steel.

8. A mobile display for laboratory scenes according to claim 2, characterized in that said oscillating arm is made of carbon steel.

9. A mobile display for laboratory scenes according to claim 1, wherein the number of guide bars is two.