CN210789992U - Novel workbench and flexible production line body - Google Patents

Abstract

The utility model discloses a novel workbench and a flexible production line body, the workbench comprises a table body and an object placing device, the object placing device is arranged on the back of the table body and extends from the bottom of the table body to the upper part of the table body, the bottom of the table body and the object placing device is provided with a roller device, and the roller device is provided with an auxiliary locking part; the side surface of the object placing device is provided with a connecting device. The flexible production line body comprises the workbench, the workbench is spliced through the connecting device of the workbench to form a plurality of production lines, at least two branch lines and a main line are included, and the branch lines are respectively connected with the main line. The working tables of the utility model are independent and can be spliced with each other, and the production line can be rapidly moved and replaced when different procedures are carried out; the utility model discloses a production line body is m type design, when producing different finished products or semi-manufactured goods, still can adjust the change to production line model fast, and does not influence other production line work, has improved production efficiency.

Description

Novel workbench and flexible production line body

Technical Field

The utility model relates to a product or semi-manufactured goods operation or the technical field of the work device of transportation, more specifically relates to a novel workstation and flexible production line body.

Background

In the electronic manufacturing industry, the communication industry, or the precision hardware industry, parts are generally processed or assembled by a production line to obtain a desired product or part.

The types of the production lines are divided into product production lines and part production lines according to the range, flow production lines and non-flow production lines according to the rhythm speed, automatic production lines and non-automatic production lines according to the automation degree, and the use requirements of different-scale production and different manufacturing are met respectively.

The flexible production line is better to the use feedback of production line in the existing market, and is more nimble, and plasticity is strong, can adapt to product deformation process fast in the short time to improve production efficiency.

As shown in fig. 7, the existing flexible production line has some disadvantages, which cannot better meet the market demand. For example, existing production lines are generally of a single-line or U-shaped layout, and the operator in each process is responsible for assembling the process in charge and sequentially transmitting the assembly to the operator in the next process until all processes are completed. In the case of mass production and the same number of operators, the production time required is longer; however, if more operators are equipped for assembly, the length of the production line needs to be increased, and the length of the production line is often limited by the space area of a production workshop; or when another production line is configured without increasing the length of the production line, the acquisition cost is increased, and when the production time is relatively urgent, a certain time and energy are required to be spent for reconfiguring the production line, so that the production progress is often not reached.

In addition, each process position of the existing production line is generally fixed, but the fixation of the process position limits the application or the process type of each production line; particularly, the workbench of some production lines is fixed, which causes inconvenience in production when different processes are replaced, so that the time for adaptive matching when different processes are replaced can be prolonged by a light person, the production efficiency is reduced, and the process modification of the production line can be restricted by a serious person, so that the production line cannot be better utilized.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming above-mentioned prior art's at least one defect, provide a novel workstation and flexible production line body for solve the not enough technical problem of flexibility ratio of current production line, make the production line more adapt to the needs of different processes, can trade the line fast simultaneously, effectively improved the efficiency of production, save the cost.

The technical scheme adopted by the utility model is that the novel workbench comprises a table body and an object placing device, wherein the object placing device is arranged on the back surface of the table body and extends from the bottom of the table body to the upper part of the table body; the side surface of the object placing device is provided with a connecting device for realizing splicing with the connecting device of another workbench to form a production line.

The workbench of the technical scheme can realize the position of the workbench which can be moved quickly through the roller device, so that the assembled process or production model is more flexible, the workbench can adapt to the assembly of more products or parts, and the workbench has strong adaptability and high flexibility.

Wherein, each workbench is provided with a connecting device spliced with the other workbench, so that a required production line can be conveniently formed according to needs, and the mass assembly and production can be conveniently realized.

The roller device is provided with an auxiliary locking component, and the auxiliary locking component can clamp the roller by pulling the auxiliary locking component downwards to play a role in fixing the position of the roller; when the workbench needs to be moved, the auxiliary locking component can be unlocked only by pulling upwards the auxiliary locking component, so that the roller can move universally.

The height of the object placing device is 1.8-2.5 m, the length of the table top of the table body is 0.8-1.5 m, the width of the table top is 0.8-1.4 m, the set size is more in line with human engineering, and physical strength is saved.

Furthermore, an electric pipeline and an electrostatic device are arranged on the lower surface of the table body, an electric interface and an electrostatic interface are respectively arranged on the electric pipeline and the electrostatic device, and the electric interface is used for being connected with an external main air pipeline or an electric interface of another workbench to realize electric transmission; the electrostatic interface is used for being connected with the electrostatic interface of the other workbench and releasing static electricity for the other workbench; the static device is connected with a static ring which is in contact with a human body, and static electricity on the human body is released to the ground through the static ring and the static device.

A flexible production line body comprises the workbench, the workbench is spliced through a connecting device of the workbench to form a plurality of production lines, the production lines at least comprise two branch lines and a main line, and working procedure products finished by the branch lines are respectively transferred to the main line and are continuously operated and finished by the main line.

In the production of the assembly line, the traditional production line is generally designed in a single-line type or U-shaped mode, the assembly lines of the two modes are connected in series, when the production line model needs to be replaced to produce different working procedures, the whole production line is often required to be stopped, then layout, assembly and test are carried out again, and finally production can be restarted. In this period, since the production line is stopped, all operators stop working, and the production efficiency is lowered.

In the technical scheme, at least two branch lines are included, the two branch lines and the main line respectively form two groups of independent production lines, and when one production line needs to replace the model, the other production line can continue to produce, so that the production progress is guaranteed.

In addition, in actual production, when different working procedure products are produced, the required working procedures are different, the traditional production line body is in a series connection design and possibly comprises branches of unnecessary working procedures, the production line body design of the technical scheme can also avoid passing through the branches of the unnecessary working procedures, and the effective utilization rate of the production line body is improved.

In the technical scheme, the two branch lines can be respectively connected with a secondary main line to form a double-U-shaped production line; and a main line is arranged between the two auxiliary main lines, so that the working procedures finished by the two auxiliary main lines are respectively transmitted to the same main line, and the working procedures are continuously finished by the main line.

The tail parts of the two branch lines are connected with the head parts of the main line through the transmission belts, and the work products finished by the branch lines are transmitted to the main line through the transmission belts.

In this technical scheme, the transmission band includes belt, belt pulley and driving motor, rotates through driving motor drive belt pulley to make the belt motion. Wherein, two groups of conveyer belts transmit the work procedure products finished by branch lines at two sides to the middle main line from the counterclockwise direction and the clockwise direction respectively.

Furthermore, the whole body formed by the production lines and the conveying belts is in an m-shaped design.

The flexible production line body among this technical scheme is m type design, and such design makes the process of accomplishing at same group of production line originally fall into two sets of production lines and accomplishes to avoid the line type overlength of production line, simultaneously, the production line of m type design can hold more operators, thereby effectively improves the efficiency of production. In addition, when the order quantity required for production is reduced, one production line can be stopped without starting all the working procedures, so that the cost is saved.

Furthermore, the object placing device is in a frame-shaped cuboid design, an indicator lamp is arranged at the top of the object placing device, a control device electrically connected with the indicator lamp is arranged below the table body, and the indicator lamp at least comprises two groups of light colors and is used for indicating the working state of the workbench; the frame at the top of the object placing device extends outwards to the position right above the desktop, and a lamp tube is arranged at the position corresponding to the position right above the desktop.

In the technical scheme, the indicating lamps are mainly used for more intuitively and quickly reporting the state of the workbench to related workers, and the control device is used for controlling different indicating lamps to be turned on so as to represent different working states; the indicating lamp is preferably provided with 3 light colors of red, green and yellow, wherein the red represents a stop state, the green represents a normal working state, and the yellow represents attention to play a role in reminding. The control device can also be provided with a sound control device which can send different alarms when different indicator lights are turned on so as to facilitate the responsible person to rapidly manage the working state of the site.

Furthermore, a billboard, a cross beam and a tool table are sequentially arranged on the middle upper part of the object placing device from top to bottom, the tabletop of the table body extends to the frame on the outermost side of the object placing device, the billboard comprises an upper transverse groove, a lower transverse groove and a middle plate surface, a plurality of small holes are formed in the middle plate surface, and gaps are reserved in the upper transverse groove and the lower transverse groove; the cross beam is provided with a display frame for mounting a display; the connecting part of the tool table and the object placing device is provided with a guide rail for adjusting the angle of the tool table.

In this technical scheme, the paper file can be placed to the billboard, go up the clearance of horizontal groove and horizontal groove down and can be fixed in middle face with the file, the aperture of middle face can also hang corresponding little article, the preferred metal material of middle face, the metal material of middle face can also be through article such as magnetism fixed file.

The display is mainly used for introducing the procedure of the working procedure of the operator in an electronic display mode, and guiding the operation of the operator, and compared with the traditional paper operation guidance, the method has the advantages of being more visual, convenient, environment-friendly and efficient.

The tool table is mainly used for placing a material tray, is obliquely arranged and inclines towards the direction of an on-site operator, so that the operator can conveniently take and place materials; the guide rail arranged at the joint of the tool table and the object placing device can also drive the tool table to be adjusted in inclination angle, so that the operation of an operator is facilitated.

The tool table is arranged on the object placing device and is higher than the desktop by 0.2-0.5 m, the tool table inclines towards the direction of an on-site operator, the inclined angle is 10-45 degrees, the material taking and placing are facilitated, and the tool table is more in line with human engineering.

Furthermore, a bottom plate is arranged at the bottom of the table body and above the roller devices, a transmission device which is obliquely arranged is arranged in a space from the table top to the bottom plate of the table body, the transmission device is formed by arranging a plurality of balls which are connected in series side by side, and objects placed on the transmission device are conveyed downwards through the rotation of the balls.

In this technical scheme, transmission mainly used conveys and places articles such as the material tray that finishes using, transmission's import is established in the front of the table body, and is corresponding to field operation personnel's operation position below, transmission's export is established at the back of the table body, and exports the position and is less than the import position to material tray or article automatic landing are to transmission's export.

Wherein, a baffle is arranged below the transmission device and is used for catching and containing the material tray or the object.

Wherein, the inclination angle of the transmission device is 10-45 degrees, which is more in line with human engineering.

Furthermore, a power supply connecting device and a communication device are arranged on the lower surface of the table body, a wire groove is formed in the frame of the object placing device, wires of the power supply connecting device and the communication device are communicated with a peripheral main circuit and a network along the wire groove, and independent interfaces which are independently communicated with the power supply connecting device and the communication device on each workbench are arranged on the main circuit and the network.

In the technical scheme, the power supply connecting device and the communication device are arranged on the lower surface of the table body, and the wire groove is arranged for accommodating wires, so that the table top of the table body is cleaner and more effectively utilized; the flexible splicing of each workbench is more convenient by arranging the independent interface.

Further, the bottom fixing pieces are arranged at the bottom of the table body and the bottom of the storage device, a safety door is arranged on the back face of the storage device, and the safety door is arranged below the storage device and corresponds to the back face of the table body.

In the technical scheme, the bottom fixing piece is in a non-contact state with the ground in a normal state; when the roller device is damaged, the bottom fixing piece can play a role in fixing the workbench, and the production safety is ensured.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the utility model discloses a workstation mutual independence can splice each other again, when carrying out different processes, can also quick travel and change the production line, has strong adaptability, the high and convenient to use's of flexibility ratio beneficial effect.

(2) The production line body of the utility model is in an m-shaped design, can accommodate more operators when the order quantity is high, and improves the production efficiency; when the order quantity is small, the production line body can be flexibly adjusted or one production line can be stopped, so that the cost is saved; when different finished products or semi-finished products are produced, the production line model can be quickly adjusted and replaced, and the work of other production lines is not influenced, so that the production progress is ensured.

Drawings

Fig. 1 is a schematic structural view of an m-type production line body of example 1.

Fig. 2 is a perspective view of the table.

Fig. 3 is an enlarged view of the table body of the workbench.

Fig. 4 left side view of the table.

Fig. 5 is a schematic plan view of the production line body of example 1.

Fig. 6 is a schematic plan structure view of the production wire body of example 2.

Fig. 7 is a schematic plan view of a conventional U-shaped production line.

Detailed Description

The drawings of the present invention are for illustration purposes only and are not to be construed as limiting the invention. For a better understanding of the following embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example 1

As shown in fig. 1, a flexible production line body includes a plurality of work tables 1, the work tables 1 are spliced by connection devices 110 thereof to form 3 m-shaped production lines, the 3 production lines include two branch lines 2 and a main line 3, and work pieces completed by the branch lines 2 are respectively transferred to the main line 3 and are continuously operated and completed by the main line 3.

The transmission between the two branch lines and the main line is realized through the transmission belts 4, the transmission belts 4 comprise two groups, the two groups are respectively connected with the tail parts of the two branch lines 2 and the head parts of the main line 3, so that the process products finished by the branch lines 2 are transmitted to the main line 3 through the transmission belts 4 to be continuously finished, and the transmission directions of the two groups of transmission belts 4 are opposite.

As shown in fig. 5, the flexible production line in the technical solution is m-shaped, and the design enables the processes originally completed on the same set of series production lines to be completed on two sets of parallel production lines, thereby avoiding the overlong line type of the production lines and effectively utilizing the space of the production workshop.

At the same time, the production line of m-type design can accommodate more operators. When the yield needs to be increased, the two groups of branch lines 2 produce simultaneously, so that the production efficiency is effectively improved. When the order quantity required to be produced is reduced, one production line can be stopped without starting all the working procedures, so that the cost is saved.

When the production line needs to be replaced, one branch line can be suspended, and the other branch line can continue to work, so that the production efficiency is ensured.

When only one production line is provided, all the processes are arranged on the same production line, so that unnecessary processes are performed when different processes are produced. In the embodiment, unnecessary processes can be divided into two groups of branch line production, necessary processes are produced in the main branch line, and when different processes are produced, the branch line work of the unnecessary processes can be selectively stopped, so that the cost is saved, and the working efficiency is improved.

As shown in fig. 2 and 4, the workbench 1 of the present embodiment includes a table body 11 and an object placing device 12, wherein the object placing device 12 is disposed on a back surface of the table body 11 and extends from a bottom of the table body 11 to an upper side of the table body 11, roller devices 120 are disposed at bottoms of the table body 11 and the object placing device 12, and auxiliary locking members 121 are disposed on the roller devices 120 for positioning rollers; the side of the object placing device 12 is provided with a connecting device 110 for splicing with the connecting device 110 of another workbench 1 to form a production line.

The workbench 1 of the technical scheme can realize the position of the workbench 1 by the roller device 120, so that the assembled process or production model is more flexible, the workbench can adapt to the assembly of more products or parts, and the workbench has strong adaptability and high flexibility.

The roller device 120 is provided with an auxiliary locking component 121, and the auxiliary locking component 121 can clamp the roller by pulling the auxiliary locking component 121 downwards, so that the roller device has the function of fixing the position of the roller; when the workbench 1 needs to be moved, the auxiliary locking part 121 can be unlocked by pulling upwards the auxiliary locking part 121, so that the roller can move universally.

The height of the object placing device 12 is 1.8-2.5 m, the length of the table top of the table body 11 is 0.8-1.5 m, the width of the table top is 0.8-1.4 m, the set size is more in line with the human engineering, and the physical strength is saved.

As shown in fig. 3, an electrical pipeline 130 and an electrostatic device 140 are disposed on a lower surface of the table body 11, and an electrical interface and an electrostatic interface are disposed on the electrical pipeline 130 and the electrostatic device 140, respectively, and the electrical interface is used for being connected with an external main electrical pipeline 130 or an electrical interface of another workbench 1 to implement electrical transmission; the electrostatic interface is used for being connected with the electrostatic interface of the other workbench 1 and releasing static electricity for the other workbench 1; the electrostatic device 140 is connected with an electrostatic ring (not shown) contacting with the human body, and the static electricity on the human body is discharged to the ground through the electrostatic ring and the electrostatic device 140.

As shown in fig. 2, the object placing device 12 is a frame-shaped cuboid, an indicator lamp 111 is disposed at the top of the object placing device 12, a control device (not shown in the figure) electrically connected to the indicator lamp 111 is disposed below the table body 11, and the indicator lamp 111 at least includes two groups of light colors for indicating the working state of the workbench 1; the frame at the top of the object placing device 12 extends outwards to the position right above the desktop, and a lamp tube 112 is arranged at the position corresponding to the position right above the desktop.

In the technical scheme, the indicator lamps 111 are mainly used for more intuitively and quickly reporting the state of the workbench 1 to related workers, and the control device is used for controlling different indicator lamps 111 to be on so as to represent different working states; the indicator 111 is provided with 3 light colors of red, green and yellow, wherein the red represents a stop state, the green represents a normal working state, and the yellow represents attention to play a role in reminding. The control device is further provided with a sound control device which sends different alarms when different indicator lamps 111 are turned on, so that a person in charge can more conveniently and rapidly manage the working state of the site.

The middle upper part of the object placing device 12 is sequentially provided with a billboard 150, a cross beam 160 and a tool table 170 from top to bottom, the tabletop of the table body 11 extends to the outermost frame of the object placing device 12, the billboard 150 comprises an upper transverse groove, a lower transverse groove and a middle plate surface, the middle plate surface is provided with a plurality of small holes, and gaps are reserved in the upper transverse groove and the lower transverse groove; a display frame 161 for mounting a display is arranged on the beam 160; the connecting part of the tool table 170 and the object placing device 12 is provided with a guide rail for adjusting the angle of the tool table 170.

In this technical scheme, the paper file can be placed to billboard 150, go up the clearance of horizontal slot and horizontal slot down and can be fixed in middle face with the file, the aperture of middle face can also hang corresponding little article, the preferred metal material of middle face, the metal material of middle face can also be through article such as fixed file of magnetism absorption.

The display is mainly used for introducing the procedure of the working procedure of the operator in an electronic display mode, and guiding the operation of the operator, and compared with the traditional paper operation guidance, the method has the advantages of being more visual, convenient, environment-friendly and efficient.

The tool table 170 is mainly used for placing a material tray, and the tool table 170 is arranged obliquely and inclines towards the direction of an on-site operator, so that the operator can take and place materials conveniently; the guide rail arranged at the joint of the tool table 170 and the object placing device 12 can also drive the tool table 170 to adjust the inclination angle, so that the operation of an operator is facilitated.

The tool table 170 is arranged on the object placing device 12 and is higher than the desktop by 0.2-0.5 m, the tool table 170 inclines towards the direction of an on-site operator, and the inclined angle A1 is 15-25 degrees, so that the material taking and placing are facilitated, and the human engineering is better met.

As shown in fig. 4, a bottom plate 113 is disposed at the bottom of the table body 11 and above the roller device 120, an obliquely disposed transmission device 180 is disposed in a space from the table top to the bottom plate of the table body 11, the transmission device 180 includes a plurality of balls connected in series and disposed side by side, and the balls rotate to downwardly transfer objects placed thereon.

In the technical scheme, the transmission device 180 is mainly used for conveying and placing used materials such as material trays, the inlet of the transmission device 180 is arranged on the front side of the table body 11 and corresponds to the lower portion of the operation position of a field operator, the outlet of the transmission device 180 is arranged on the back side of the table body 11, and the outlet position is lower than the inlet position, so that the materials or the materials can automatically slide to the outlet of the transmission device 180.

The inclination angle A2 of the transmission device 180 is 20-25 degrees, which is more in line with human engineering.

As shown in fig. 2, the lower surface of the table body 11 is provided with a power connection device and a communication device (not shown), the frame of the object placing device 12 is provided with a wire slot, wires of the power connection device and the communication device are connected with a peripheral main circuit and a network along the wire slot, and the main circuit and the network are provided with independent interfaces which are independently connected with the power connection device and the communication device on each workbench 1.

In the technical scheme, the power supply connecting device and the communication device are arranged on the lower surface of the table body 11, and the wire groove is arranged for accommodating wires, so that the table top of the table body 11 is cleaner and more tidy, and the effectively utilized space is larger; the flexible splicing of each working table 1 is more convenient by arranging an independent interface.

Bottom fixing pieces 114 are arranged at the bottoms of the table body 11 and the object placing device 12, a safety door is arranged on the back surface of the object placing device 12, and the safety door is arranged below the object placing device 12 and corresponds to the back surface of the table body 11.

In this technical solution, the bottom fixing member 114 is in a non-contact state with the ground in a normal state; when the roller device 120 is damaged, the bottom fixing member 114 can fix the working platform 1, thereby ensuring the safety of production.

Example 2

As shown in fig. 6, the difference between the present embodiment and embodiment 1 is that the production line body formed by the workbench in the present embodiment further includes two secondary main lines 5, wherein the tail portions of the two branch lines 2 are respectively connected to the head portions of the two secondary main lines 5 through the transmission belts, and the tail portions of the two secondary main lines 5 are respectively connected to the head portion of the main line 3 through the transmission belts; the work pieces finished by the branch line 2 are transmitted to the sub main line 5 and are continuously finished by the sub main line 5, and the work pieces finished by the sub main line 5 are transmitted to the main line 3 and are finished by the main line 3.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the technical solutions of the present invention, and are not limitations to the specific embodiments of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention shall be included in the protection scope of the present invention.

Claims (10)

1. A novel workbench is characterized by comprising a table body and an object placing device, wherein the object placing device is arranged on the back of the table body and extends to the upper part of the table body from the bottom of the table body; the side surface of the object placing device is provided with a connecting device for realizing splicing with the connecting device of another workbench to form a production line.

2. The novel workbench according to claim 1, wherein an electrical pipeline and an electrostatic device are arranged on the lower surface of the desk body, and an electrical interface and an electrostatic interface are respectively arranged on the electrical pipeline and the electrostatic device, and the electrical interface is used for being connected with an external main electrical pipeline or an electrical interface of another workbench to realize electrical transmission; the electrostatic interface is used for being connected with the electrostatic interface of the other workbench and releasing static electricity for the other workbench; the static device is connected with a static ring which is in contact with a human body, and static electricity on the human body is released to the ground through the static ring and the static device.

3. A flexible production line body is characterized by comprising a plurality of working tables according to any one of claims 1-2, wherein the working tables are spliced through connecting devices of the working tables to form a plurality of production lines, the production lines at least comprise two branch lines and a main line, and working substances finished by the branch lines are respectively transmitted to the main line and are continuously operated and finished by the main line.

4. The flexible production line body according to claim 3, further comprising at least two sets of transmission belts, wherein the tail parts of the two branch lines are connected with the head part of the main line through the transmission belts, and the work product completed by the branch lines is transmitted to the main line through the transmission belts.

5. A flexible production line body according to claim 4, wherein said plurality of production lines and conveyor belt are of m-shaped design as a whole.

6. The flexible production line according to claim 3, wherein the object placing device is in a frame-shaped cuboid design, an indicator lamp is arranged at the top of the object placing device, a control device electrically connected with the indicator lamp is arranged below the table body, and the indicator lamp at least comprises two groups of light colors for indicating the working state of the workbench; the frame at the top of the object placing device extends outwards to the position right above the desktop, and a lamp tube is arranged at the position corresponding to the position right above the desktop.

7. The flexible production line body according to claim 3, wherein a signboard, a beam and a tool table are sequentially arranged on the middle upper part of the object placing device from top to bottom, the table top of the table body extends to the outermost frame of the object placing device, the signboard comprises an upper transverse groove, a lower transverse groove and a middle plate surface, a plurality of small holes are arranged on the middle plate surface, and gaps are reserved in the upper transverse groove and the lower transverse groove; the cross beam is provided with a display frame for mounting a display; the connecting part of the tool table and the object placing device is provided with a guide rail for adjusting the angle of the tool table.

8. A flexible production line according to claim 3, wherein a base plate is provided at the bottom of the table above the roller device, a transmission device is provided in the space from the table top to the base plate of the table, the transmission device is formed by arranging a plurality of balls connected in series side by side, and the objects placed on the transmission device are conveyed downwards by the rotation of the balls.

9. A flexible production line according to claim 3, characterized in that the lower surface of the table body is provided with a power supply connection device and a communication device, the frame of the object placing device is provided with a wire groove, wires of the power supply connection device and the communication device are connected with a main circuit and a network of an external device along the wire groove, and the main circuit and the network are provided with independent interfaces which are independently connected with the power supply connection device and the communication device on each workbench.

10. A flexible production line according to claim 3, characterized in that the table body and the bottom of the storage device are provided with bottom fixing members, the back of the storage device is provided with a safety door, and the safety door is arranged below the storage device and corresponds to the back of the table body.

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