CN211800972U - Instrument equipment table with wiring structure - Google Patents

Instrument equipment table with wiring structure Download PDF

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Publication number
CN211800972U
CN211800972U CN202020193962.4U CN202020193962U CN211800972U CN 211800972 U CN211800972 U CN 211800972U CN 202020193962 U CN202020193962 U CN 202020193962U CN 211800972 U CN211800972 U CN 211800972U
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China
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power source
space
independent space
cabinet
surface part
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CN202020193962.4U
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Chinese (zh)
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陈德义
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Guangdong Tmoon Laboratory Equipment Manufacturing Co ltd
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Guangdong Tmoon Laboratory Equipment Manufacturing Co ltd
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Abstract

The instrument equipment table with the wiring structure is provided with a table top surface part, and the table top surface part is provided with a length extending transversely along the left-right direction and a width extending longitudinally along the front-back direction; the table top is characterized by comprising a horizontal surface part and an inclined surface part which is located at the side edge position of the horizontal surface part and is obliquely arranged, the horizontal surface part and the inclined surface part are arranged front and back, a first independent space and a second independent space are arranged in the instrument platform, the second independent space is transversely arranged in a left-right extending mode, the first independent space is located in front of the second independent space, a vertical partition wall is arranged between the first independent space and the second independent space, a side opening part communicated with the first independent space is arranged on the inclined surface part, the vertical partition wall is located outside a projection area of the side opening part when viewed from top to bottom, and a joint mounting hole used for mounting a first power source output joint is formed in the vertical partition wall.

Description

Instrument equipment table with wiring structure
Technical Field
The invention relates to a table for instrument equipment with a wiring structure.
Background
In the process of carrying out scientific research experiments, various types of chemical gases such as nitrogen and hydrogen are often used, and a power supply and various types of liquids are also used, so that various pipelines are required to be configured in a laboratory for respectively conveying power sources such as liquid, gas and power supply and an output interface which is connected with the pipelines and outputs the power sources. These various pipes and output connectors are generally directly exposed and randomly arranged at different positions in a laboratory, so that the management and maintenance are not easy, the laboratory is messy, and safety accidents are easy to occur. In order to solve the above technical problems, chinese patent 201611075365.6 discloses a wire routing structure, and in particular relates to a wire routing structure for office furniture, where the office furniture includes a support and a work table top disposed on the support, the work table top is provided with an opening, and the opening is provided with a cover plate capable of being opened/closed. The inclined plane type socket installation structure is arranged below the opening, and the inclined plane type socket installation structure can be leaked outside by opening the cover plate. The inclined plane type socket mounting structure comprises a plate body, wherein the plate body is of a long-strip-shaped folded edge structure and comprises a socket mounting part and an upper side part arranged on the upper side of the socket mounting part and/or a lower side part arranged on the lower side of the socket mounting part; the socket mounting part is intersected with the upper side part and/or the lower side part at an angle of 10-80 degrees; the socket mounting portion is provided with at least one socket hole. The socket is installed back on the jack, follow the certain angle of socket installation department slope, the user stands naturally and just can follow table surface is last the hole department just can insert the socket, does not need the health to incline forward and just can see the socket.
Disclosure of Invention
The wiring structure that discloses to above-mentioned patent 201611075365.6 carries out the analysis and discovers, this wiring structure still has the potential safety hazard, mainly embodies socket installation department slope is arranged and is arranged the below of trompil, if place at careless empting the water-jug of table surface, the liquid in the water-jug very easily passes through the trompil drippage is installed on the socket installation department and causes the incident. Especially, be applied to the table in the laboratory, the laboratory staff often carries out various chemical liquid tests on it, if use above-mentioned line structure of walking, the probability that the incident appears is higher. Obviously, this is not allowed. In addition, the arrangement mode that the opening is arranged on the working table top ensures that the opening with a large area is required to be conveniently inserted by hands, so that the use is very inconvenient, and the whole appearance of the office furniture is damaged by the opening with the large area. It can be seen that further optimization of the routing structure on the table is highly desirable.
Aiming at the defects of the prior art, the invention provides an instrument equipment platform with a wiring structure, which is provided with a table top surface part, wherein the table top surface part is provided with a length extending transversely along the left-right direction and a width extending longitudinally along the front-back direction; the table top is characterized by comprising a horizontal surface part and an inclined surface part which is positioned at the side position of the horizontal surface part and is obliquely arranged, wherein the horizontal surface part and the inclined surface part are arranged front and back, a first independent space and a second independent space are arranged in the instrument platform, the second independent space is transversely arranged in a left-right extending manner, the first independent space is positioned in front of the second independent space, a vertical partition wall is arranged between the first independent space and the second independent space, a side opening part communicated with the first independent space is arranged on the inclined surface part, the vertical partition wall is positioned outside a projection area of the side opening part when viewed from top, a joint mounting hole for mounting a first power source output joint is arranged on the vertical partition wall, and the first independent space is used for collecting a user joint movably connected with the first power source output joint, the second independent space is used for storing a first power source pipeline which provides a power source for the first power source output joint.
The first independent space is a relatively closed space defined by a wall body, and has a obvious separation from the external space, but a communication channel is not arranged between the first independent space and the external space. The second independent space has the same meaning as the first independent space, and a repetitive discussion thereof will not be made.
Wherein, the independent space of second transversely extends along left and right sides direction and arranges, like this the independent space of second can be for first power source pipeline provides bulky storage space, is convenient for right first power source pipeline arranges in order, accomodates.
Wherein a side mouth portion communicating with the first isolated space is provided on the inclined surface portion, the above feature firstly defines that the side mouth portion is provided on the inclined surface portion so that the side mouth portion is also arranged obliquely, and a user can observe the condition in the first isolated space through the side mouth portion by standing naturally. The above feature further defines that the side opening portion and the first independent space are communicated with each other, and an external object can enter the first independent space through the side opening portion.
Wherein, from top to bottom, the vertical partition wall is located outside the projection area of the side mouth, and the above-mentioned characteristic defines the position relation between the vertical partition wall and the side mouth, and the vertical partition wall and the side mouth are arranged in a staggered manner, and the vertical partition wall is not located right below the side mouth.
The first power source line is a pipe for transporting water, electricity, gas or other power sources, and other power source lines to be discussed below have the same meaning and will not be discussed repeatedly.
According to the technical scheme, compared with the prior art, the invention has the beneficial technical effects that:
first, since the side opening is disposed on the inclined surface, a user can observe the inside of the first independent space through the side opening in a natural standing state, and can access articles from the first independent space through the side opening, and the application experience is very friendly. In addition, in the case that the side opening part with the same area is arranged, compared with the case that the side opening part is arranged on the face part which is horizontally arranged, the invention can ensure that the user can observe the inside of the first independent space through the side opening part in a natural standing state to have a wider visual angle range, and is more convenient to clearly observe the condition in the first independent space.
And secondly, because the vertical partition wall is arranged between the first independent space and the second independent space, the space in the instrument equipment table is functionally partitioned through the vertical partition wall, so that a hand can not contact a first power source pipeline placed in the second independent space when entering the first independent space, and safety accidents are avoided.
Thirdly, the first independent space is used for storing the user joint which is movably connected with the first power source output joint, so that the exposure of the user joint can be reduced, and the effect of protecting the user joint from being corroded by chemical substances is achieved; in addition, under the condition that the first independent space has enough storage space, partial pipelines connected with the user connectors can be stored in the first independent space, so that partial pipelines can be arranged, and the situation that the peripheral environment of the equipment table is too messy due to excessive exposure of the pipelines is avoided.
Fourthly, as the vertical partition wall is positioned outside the projection area of the side opening part from top to bottom, and the joint mounting hole is formed in the vertical partition wall, even if liquid is dripped into the first independent space through the side opening part, the liquid is difficult to drip on the vertical partition wall, and the liquid is difficult to drip on the first power source output joint arranged on the vertical partition wall, so that safety accidents caused by the contact of the first power source output joint and the liquid can be well reduced.
The first power source output joint is installed on the vertical partition wall through the joint installation hole, the first power source output joint comprises an input end and an output end, the output end is exposed in the first independent space and used for being movably connected with a user joint, and the input end is exposed in the second independent space and connected with the first power source pipeline. This facilitates the connecting operation between the user joint and the output end and between the first power source line and the input end.
In a further technical solution, a cover plate capable of being turned over is further provided on the inclined surface portion, and the cover plate is used for covering the side opening portion. Therefore, after the cover plate is covered, the first independent space and objects stored in the first independent space can be prevented from being polluted by dust or other dirty objects, the exposure of the first independent space can be reduced, and the surrounding environment of the equipment table is tidy and clean.
The technical scheme is that the head end of the cover plate is hinged to the upper side edge position of the side opening part, a notch part used for lifting and turning over the cover plate is arranged at the tail end of the cover plate, a brush is arranged on the lower side edge position of the side opening part, and when the cover plate covers the side opening part, the brush seals the notch part. Thus, the provision of the notch portion provides for ease of lifting the cover plate, while reducing the ingress of dust or other debris through the notch portion into the first separate space by means of the brush, without the brush obstructing the passage of the pipeline.
The technical scheme is that a third space for arranging a second power source pipeline is further arranged in the instrument equipment table, the third space is located below the first independent space and the second independent space, and a transverse bottom wall is arranged between the third space and the first independent space and between the third space and the second independent space. In this way, the first independent space and the third space are separated by the transverse bottom wall, so that safety accidents caused by the fact that a human hand passes through the first independent space and then contacts a second power source pipeline arranged in the third space can be avoided. In addition, the second independent space and the third space are partitioned by the transverse bottom wall, so that the power source pipeline can be managed in a partitioned manner, and power source pipelines such as a water source pipeline and a power source pipeline which need to be managed separately can be arranged by utilizing the second independent space and the third space. The third space may be a closed space or an open space.
The further technical scheme can also be that a bottom through hole is arranged on the transverse bottom wall and is communicated with the first independent space and the third space. Therefore, liquid entering the first independent space can be drained through the bottom through hole, and the first independent space is enabled to be cleaned as soon as possible; in addition, the bottom through hole can be used as a wire passing hole.
The inclined plane part is provided with an inclined part installation through hole, and the inclined plane part further comprises a second power source output joint and a second power source pipeline, wherein the second power source output joint comprises an input end and an output end, the second power source output joint is arranged on the inclined plane part through the inclined part installation through hole, the output end of the second power source output joint is exposed at the outer side of the inclined plane part and used for being movably connected with a user joint, the input end of the second power source output joint is exposed in the first independent space, the rear pipeline of the second power source pipeline is arranged in the third space, and the front pipeline of the second power source pipeline penetrates through the bottom through hole to enter the first independent space and is connected with the input end of the second power source output joint. Thus, the power source conveyed by the second power source pipeline can be guided to the output connector of the second power source arranged on the inclined surface part by the structure, and the connection with power source application equipment is facilitated.
Further technical scheme can also be, be provided with slope installation through-hole and slope line hole on the slope face portion, still including fluid pressure regulating device and fluid pipeline, fluid pressure regulating device includes input and output, fluid pressure regulating device passes through slope installation through-hole sets up on the slope face portion, fluid pressure regulating device's input and output expose respectively in the outside of slope face portion, the back end pipeline of fluid pipeline arrange in the third space, and the anterior segment pipeline of fluid pipeline passes the bottom through-hole gets into first independent space passes the line jogged joint of slope the input of fluid pressure regulating device.
The power source support frame comprises a left front side plate, a right front side plate and a transverse bottom wall connected between the left front side plate and the right front side plate, and the vertical partition wall is vertically connected to the transverse bottom wall so as to divide the space above the transverse bottom wall into the first independent space and the second independent space. According to the technical scheme, the power source supporting frame is provided with an independent supporting structure, and can be used for assembling with other components of the instrument equipment platform after various power source pipelines are fixedly installed on the power source supporting frame in advance in the process of assembling the instrument equipment platform, so that the installation operation of the power source pipelines and the assembly operation of the instrument equipment platform are simplified.
A further solution may also be that a third space for arranging a second power source line is provided below the transverse bottom wall.
The left front side plate and the right front side plate are respectively a metal bending piece and are provided with a front vertical bending edge and a rear vertical bending edge, and a main plate connected between the front vertical bending edge and the rear vertical bending edge, and the left end and the right end of the transverse bottom wall are respectively connected to the vertical bending edges of the left front side plate and the right front side plate; the first power source pipeline penetrates through the main board and extends into the second independent space; or the main board is provided with a second power source pipeline which penetrates through the main board and extends into the third space. According to the technical scheme, firstly, the left front side plate and the right front side plate are respectively metal bending pieces, so that the manufacturing is convenient, and the manufacturing cost is low. In addition, the front side plate is provided with the front vertical bending edge and the rear vertical bending edge, and the main plate, so that the supporting strength of the front side plate can be enhanced, and a line passing hole for a pipeline to pass through can be easily machined in the main plate.
The invention has the characteristics and advantages, so the invention can be applied to the instrument equipment table with the wiring structure.
Drawings
FIG. 1 is a schematic perspective view of a rear side of a stage for an instrument device to which the present invention is applied;
FIG. 2 is a perspective view of the front side of the stage for an apparatus;
FIG. 3 is an exploded view of the stage for the equipment;
fig. 4 is a schematic perspective view of the power source support frame 3;
FIG. 5 is a schematic sectional view taken along the line A-A in FIG. 4;
FIG. 6 is a schematic structural view of a front view direction of the stage for the equipment;
FIG. 7 is a schematic cross-sectional view taken along line B-B of FIG. 6;
fig. 8 is a schematic perspective view of the mobile storage cabinet 8;
fig. 9 is a schematic perspective view of the mobile storage cabinet 9;
fig. 10 is an exploded view of the mobile storage cabinet 9.
Detailed Description
The structure of a station (also called an integrated instrument station) for an instrument device to which the technical solution of the present invention is applied will be further described with reference to the accompanying drawings.
As shown in the drawings, the present invention provides a table for an instrument device, having a table plate 1, and the table plate 1 has a length extending laterally in a left-right direction and a width extending longitudinally in a front-rear direction; the lower space of the table board 1 comprises a front space 2 and a rear space 2a which are arranged along the front-rear direction, and further comprises left and right front side plates (31, 31 a) which are arranged in the front space 2, wherein the left and right front side plates (31, 31 a) are positioned at the left and right sides of the front space 2, and the front space 2 is used for arranging a first power source pipeline (not shown in the figure); an upper supporting frame 4 and at least two supporting cabinet units (5, 5a, 5 b) which are arranged at intervals left and right are arranged in the rear space 2a, one upper supporting frame 4 is simultaneously placed on the at least two supporting cabinet units (5, 5a, 5 b) which are arranged at intervals left and right, the table board 1 is supported on the upper supporting frame 4 and the left and right front side plates (31, 31 a), and intermediate cabinet partitions (7, 7 a) are arranged between the supporting cabinet units (5, 5a, 5 b) which are arranged at intervals left and right.
In the following, the above technical solution is further explained with reference to the drawings, as shown in fig. 1, fig. 2, fig. 3 and fig. 7, an upper supporting frame 4 and three supporting cabinet units (5, 5a, 5 b) arranged at intervals left and right are arranged in the rear space 2a, but two, four, etc. at least two supporting cabinet units may be provided in other embodiments. The supporting cabinet units (5, 5a, 5 b) are immovable, the position of which is fixed during normal use and cannot be changed at will and easily. The upper support frame 4 comprises left and right frame side beams (41, 42) and a plurality of middle connecting beams 43 connected between the left and right frame side beams (41, 42), and the left and right frame side beams (41, 42) and the middle connecting beams 43 are firmly connected together, so that the upper support frame 4 forms a relatively independent frame body. The supporting cabinet units (5, 5a, 5 b) are similar in structure, and the structure of the supporting cabinet unit 5 will be described as an example. The upper portion of the supporting cabinet unit 5 is open, and includes left and right cabinet side plates (51 a, 51 b) arranged left and right, and a back cabinet side plate 51c and a cabinet door plate 51d connected between the left and right cabinet side plates (51 a, 51 b). A cabinet base plate 52 is also provided at the bottom of the supporting cabinet unit 5. The left and right cabinet side plates (51 a, 51 b) and the back cabinet side plate 51c are firmly connected with the cabinet bottom plate 52, so that the supporting cabinet unit 5 forms a relatively independent cabinet body, and the supporting cabinet unit 5 also forms an independent hollow three-dimensional supporting mechanism, and compared with a single thin plate-shaped supporting plate, the supporting strength of the supporting cabinet unit 5 is more excellent. The table board 1 is a common cabinet top plate for all the supporting cabinet units (5, 5a, 5 b), and a supporting cabinet inner cavity 50 for the supporting cabinet unit 5 is formed between the left and right cabinet side plates (51 a, 51 b), the back cabinet side plate 51c and the table board 1. A middle cabinet partition plate 7 is arranged between the supporting cabinet units (5 and 5 a) which are arranged at intervals at the left and the right, and two ends of the middle cabinet partition plate 7 are connected with the front end parts of the supporting cabinet units (5 and 5 a); an intermediate cabinet partition plate 7a is arranged between the supporting cabinet units (5 a, 5 b) which are arranged at left and right intervals, two ends of the intermediate cabinet partition plate 7a are connected to the front end parts of the supporting cabinet units (5 a, 5 b), so that the front side space 2 and the rear side space 2a are separated, the space below the table board 1 is divided functionally, hands cannot easily penetrate through the rear side space 2a to enter the front side space 2 to contact with the first power source pipeline, and potential safety hazards are reduced. Furthermore, a lower supporting frame 70 is arranged in the rear space 2a, on which lower supporting frame 70 the supporting cabinet units (5, 5a, 5 b) are supported.
As shown in fig. 4, 6 and 7, the table top plate 1 further has an inclined surface portion 6 arranged obliquely, the inclined surface portion 6 is located in front of the horizontal surface portion 10, and the horizontal surface portion 10 and the inclined surface portion 6 form a table top surface portion. The front space 2 extends to the lower part of the inclined plane part 6, a power source support frame 3 is arranged in the front space 2, the power source support frame 3 comprises a left front side plate, a right front side plate (31, 31 a) and a transverse bottom wall 32 connected between the left front side plate and the right front side plate (31, 31 a), and a vertical partition wall 33 vertically arranged is connected to the transverse bottom wall 32, so that the front space above the transverse bottom wall 32 is divided into a first independent space 21 and a second independent space 22. The second independent space 22 is transversely extended in the left-right direction, and the first independent space 21 is located in front of the second independent space 22. The inclined plane part 6 is located between the left and right front side plates (31, 31 a), a side opening part 60 communicating with the first independent space 21 is provided on the inclined plane part 6, and the vertical partition wall 33 is located outside a projection area of the side opening part 60 as viewed from above, so that the vertical partition wall 33 is arranged in a staggered manner from the side opening part 60, and the vertical partition wall 33 is not located right below the side opening part 60. A connector mounting hole (not marked in fig. 6, which is covered by the first power source output connector 34) for mounting the first power source output connector 34 is formed in the vertical partition wall 33, the first independent space 21 is used for storing a user connector (not shown in the drawings) which is in loose joint with the first power source output connector 34, the second independent space 22 is used for storing a first power source pipeline (not shown in the drawings), and the first power source pipeline is used for providing a power source for the first power source output connector 34. The first power source output connection 34 and the first power source line are also included. In this embodiment, the first power source output connector 34 is an electrical outlet, and the first power source line is a power cord. The first power source output joint 34 is installed on the vertical partition wall 33 through the joint installation hole, and the first power source output joint 34 includes an input end exposed to the first independent space 21 and used for loose joint of a user joint, and an output end exposed to the second independent space 22 and connected to the first power source line. The power source support frame 3 has an independent support structure, and in the process of assembling the equipment table, the power source support frame 3 is used for mounting and fixing various power source pipelines in advance and then is assembled with the table plate 1 and other components, so that the mounting operation of the power source pipelines and the assembling operation of the equipment table are simplified.
As shown in fig. 4 and 5, the left and right front side plates (31, 31 a) have similar structures, and the left front side plate 31 will be described as an example. The left front side plate 31 is a metal bending piece and is provided with front and rear vertical bending edges (311, 312) and a main plate 313 connected between the front and rear vertical bending edges (311, 312). Thus, the left front side plate 31 is easy to manufacture, has low manufacturing cost, has excellent supporting strength due to the vertical bending edges (311, 312) arranged at the front and the rear parts and the main plate 313, and can easily process a wire passing hole for a pipeline on the main plate 313. The left end and the right end of the transverse bottom wall 32 are respectively connected to the vertical bent edges of the left front side plate and the right front side plate (31 and 31 a). The first power source line extends into the second independent space 22 through the main plate 313. Further, the left and right front side plates (31, 31 a) are flush with the cabinet side plates (51 b, 51 b') of the left and right arranged supporting cabinet units (5, 5 b), respectively, and together constitute left and right outer sides of the entire table. This optimizes the appearance of the stage for the equipment.
According to the technical scheme, the following beneficial technical effects can be achieved: first, since the side port portion 60 is disposed on the inclined surface portion 6, it is not only convenient for a user to observe the inside of the first independent space 21 through the side port portion 60 in a natural standing state, but also convenient for a human hand to take articles from the inside of the first independent space 21 through the side port portion 60, and the application experience is very friendly. In addition, in the case of providing the side port part 60 having the same area, the present invention enables a user to observe the inside of the first isolated space 21 through the side port part 60 in a natural standing state with a wider range of viewing angles than when the side port part 60 is provided on a horizontally arranged face, thereby facilitating a clear observation of the inside of the first isolated space 21. Secondly, because the vertical partition wall 33 is arranged between the first independent space 21 and the second independent space 22, the space in the table is functionally partitioned by the vertical partition wall 33, so that a hand can not contact the first power source pipeline placed in the second independent space 22 when entering the first independent space 21, thereby avoiding safety accidents. Thirdly, since the first independent space 21 is used for storing the user connector which is movably connected with the first power source output connector 34, the exposure of the user connector can be reduced, and the effect of protecting the user connector from being corroded by chemical substances is achieved; in addition, under the condition that the first independent space 21 has enough storage space, partial pipelines connected with the user connectors can be stored in the first independent space 21, so that partial pipelines can be arranged, and the situation that the peripheral environment of the equipment table is too messy due to excessive exposed pipelines is avoided. Fourthly, since the vertical partition 33 is located outside the projection area of the side port portion 60 as viewed from above, and the joint mounting hole is provided in the vertical partition 33, even if liquid drops into the first isolated space 21 through the side port portion 60, it is difficult to drop onto the vertical partition 33, and thus onto the first power source output joint 34 mounted on the vertical partition 33, so that it is possible to well reduce safety accidents caused by the first power source output joint 34 contacting with the liquid.
As shown in fig. 6 and 7, the inclined surface portion 6 is further provided with a cover plate 61 that can be reversed, and the cover plate 61 is configured to cover the side port portion 60. Thus, after the cover plate 61 is covered, the first independent space 21 and the objects stored therein can be prevented from being polluted by dust or other dirt, and the exposure of the first independent space 21 can be reduced, so that the equipment table is tidy and clean. Further, the head end of the cover plate 61 is hinged to the upper side position of the side opening portion 60, a notch portion 610 for lifting and turning over the cover plate 61 is provided at the tail end of the cover plate 61, a brush 62 is provided at the lower side position of the side opening portion 60, and when the cover plate 61 covers the side opening portion 60, the brush 62 closes the notch portion 610. Thus, the provision of the notch portion 610 provides convenience in lifting the cover plate 61, while reducing the entry of dust or other dirt into the first separate space 21 through the notch portion 610 by means of the brush 62 without the brush 62 obstructing the passage of the pipeline.
As shown in fig. 6 and 7, a third space 23 is provided below the lateral bottom wall 32, and the third space 23 is located below the first independent space 21 and the second independent space 22. For this purpose, the front space 2 actually includes an upper space (21, 22) located above the transverse bottom wall 32 and a lower space, i.e., the third space 23, located below the transverse bottom wall 32. A second power source line (not shown) is disposed in the upper portion of the third space 23 near the transverse bottom wall 32, and in this embodiment, the second power source line is a water source line or an air source line. A bottom through hole (not shown) is provided in the transverse bottom wall 32, and the bottom through hole communicates the first independent space 21 and the third space 23. Therefore, liquid entering the first independent space 21 can be drained through the through hole at the bottom, so that the first independent space 21 is recovered to be clean as soon as possible, or the first independent space is used as a wire passing hole. Further, an inclined portion installation through hole (not marked in the drawing) is formed in the inclined surface portion 6 (shielded by the second power source output connector 63), and the present invention further includes a second power source output connector 63 and a second power source pipeline (not shown in the drawing), the second power source output connector 63 includes an input end and an output end, the second power source output connector 63 is disposed on the inclined surface portion 6 through the inclined portion installation through hole, the output end of the second power source output connector 63 is exposed to the outside of the inclined surface portion 6 and is used for loose connection with a user connector, the input end of the second power source output connector 63 is exposed to the first independent space 21, the rear end pipeline of the second power source pipeline passes through the main board 313 of the left front side plate 31 and extends into the third space 23, and the front end pipeline of the second power source pipeline passes through the bottom through hole and enters the first independent space 21 and is connected to the second power source output connector 63. Thus, with the above-described structure, the power source delivered by the second power source line can be guided to the second power source output joint 63 provided on the inclined surface portion 6, facilitating connection with the user joint. In addition, the inclined surface portion 6 is provided with an inclined portion mounting through hole (shielded by the fluid pressure adjusting device 64 in fig. 6, not labeled) and an inclined portion wiring hole (shielded by the fluid line 65 in fig. 6, not labeled), and further includes the fluid pressure adjusting device 64 and the fluid line 65, the fluid pressure adjusting means 64 includes an input end 642 and an output end 641, the fluid pressure adjusting means 64 is provided on the inclined surface portion 6 through the inclined portion mounting through-hole, the input end 642 and the output end 641 of the fluid pressure adjusting device 64 are exposed to the outside of the inclined surface portion 6, the rear line of the fluid line 65 is disposed at a position on the upper portion of the third space 23 near the lateral bottom wall 32, and the front pipeline of the fluid pipeline 65 passes through the bottom through hole to enter the first independent space 21 and passes through the inclined part through hole to be connected with the input end 642 of the fluid pressure regulating device 64.
As shown in fig. 2, the third space 23 further includes a storage space 35, the storage space 35 is located below the second power source pipeline, and a plurality of movable storage cabinets (8, 9) are disposed in the storage space 35. A plurality of the mobile storage cabinets (8, 9) are arranged side to side and are directly vertically arranged on the ground in the storage space 35 of the third space 23. The structural distribution of the mobile storage cabinets (8, 9) is described in detail below.
As shown in fig. 8, the movable storage cabinet 8 includes a cabinet main body 81, the cabinet main body 81 includes a movable cabinet inner cavity 810 and a side opening 811 communicating with the movable cabinet inner cavity 810, and further includes a cabinet door 82 capable of closing the side opening 811. The cabinet main body 81 is provided with a cabinet wall wire passing hole 812, and the cabinet wall wire passing hole 812 is communicated with the inner cavity 810 of the mobile cabinet. In this way, power source application devices such as a vacuum pump, a transformer, and a motor may be stored in the inner cavity 810 of the mobile cabinet, a cabinet power line (not shown) is disposed on the mobile storage cabinet 8, one end of the cabinet power line passes through the cabinet wall line passing hole 812 and is connected to the power source application device, and the other end of the cabinet power line passes through the bottom through hole and enters the first independent space 21 from the lower space and is connected to the first power source output connector 34. A buffer pad (not shown) is arranged on the cavity side wall of the inner cavity 810 of the mobile cabinet, and a sound absorption cotton (not shown) is also arranged on the buffer pad. Therefore, the buffer pad can buffer the vibration generated when the power source application equipment stored in the inner cavity 810 of the mobile cabinet runs, so that the noise can be reduced, and the sound-absorbing cotton can block the noise in the inner cavity 810 of the mobile cabinet from spreading outwards. A pair of left and right separate fixed support legs 83 are mounted on the outer side end of the cabinet main body 81. The fixed supporting leg 83 for the cabinet comprises a bracket 831 and a non-slip mat 832 mounted on the bracket 831. A pair of left and right movable supporting legs 84 are mounted on the inner end of the cabinet main body 81, and the movable supporting legs 84 include rollers 842. Thus, when the power source application equipment stored in the inner cavity 810 of the mobile cabinet vibrates, the rolling of the rollers 942 can be prevented by the friction between the non-slip pads 832 of the cabinet-use fixing support legs 83 and the ground, so that the mobile storage cabinet 8 can be maintained at the original position as much as possible. When the movable storage cabinet 8 needs to be moved, the outer end of the cabinet main body 81 can be lifted upward, and the position of the movable storage cabinet 8 can be conveniently adjusted by using the roller of the cabinet-use movable supporting leg 84.
As shown in fig. 9 and 10, the portable storage cabinet 9 includes a cabinet main body 91, and the cabinet main body 91 has cabinet walls (911, 911a, 912, 913, 914), and specifically includes a top cabinet wall 913, a bottom cabinet wall 914, which are vertically separated, left and right side cabinet walls (911, 911 a) disposed between the top cabinet wall 913 and the bottom cabinet wall 914, and a back cabinet wall 912 disposed between the side cabinet walls (911, 911 a). A mobile cabinet interior 910 with a lateral opening is formed between the cabinet walls (911, 911a, 912, 913, 914). A pair of left and right separate cabinet-use fixed support legs 94a are mounted on the outer ends of the cabinet bottom wall 914. The fixed supporting foot 94a for the cabinet comprises a bracket 941a and a non-slip pad 942a installed on the bracket 941 a. A pair of left and right separated movable supporting legs 94 is installed at the inner end of the cabinet bottom wall 914, and the movable supporting legs 94 include a bracket 941 and a roller 942 installed on the bracket 941. Thus, when the power source application device stored in the mobile cabinet inner chamber 910 is vibrated, the rollers 842 are prevented from rolling by the friction between the skids 942a of the cabinet fixing support legs 94 and the ground, so that the mobile storage cabinet 9 can be maintained at the original position as much as possible. When the movable storage cabinet 9 needs to be moved, the outer end of the cabinet main body 91 can be lifted upwards, and the position of the movable storage cabinet 9 can be conveniently adjusted by using the roller of the movable supporting leg 94 for the cabinet.
The movable storage cabinet 9 further includes a storage drawer 92 that can be moved back and forth in the inside and outside directions on the cabinet main body 91. The storage drawer 92 can be pushed through the side opening into the mobile cabinet interior 910. The storage drawer 92 is provided with drawer plate bodies (921, 921a, 922, 923, 924), and specifically comprises left and right drawer side plates (921, 921 a), an inner and outer drawer back plate 922 and a drawer panel 923, which are arranged separately, and a drawer bottom plate 924, wherein a drawer storage space 920 is formed between the drawer plate bodies (921, 921a, 922, 923, 924). Guide mechanisms (95, 95 a) are provided between the cabinet side wall bodies (911, 911 a) of the cabinet main body 91 and the drawer side plates (921, 921 a) of the locker drawer 92, respectively, and the guide mechanisms (95, 95 a) guide the movement of the locker drawer 92 in the inward and outward directions. Guiding mechanism (95, 95 a) are telescopic sliding guide group, telescopic sliding guide group includes main guide rail (951, 951 a) and slides respectively and cup joints vice guide rail (952, 952 a) on main guide rail (951, 951 a), main guide rail (951, 951 a) are fixed the setting respectively on cabinet side wall body (911, 911 a) of cabinet main part 91, vice guide rail (952, 952 a) are fixed the setting respectively on drawer side plate (921, 921 a) of storing drawer 92. Thus, when the outer end of the storage drawer 92 is located outside the inner cavity 910 of the mobile cabinet, the secondary guide rails (952, 952 a) are still in sleeved connection with the primary guide rails (951, 951 a), so that the outer end of the storage drawer 92 can be supported to a certain extent, and the outer end of the storage drawer 92 is prevented from falling. Of course, in other embodiments, the guide mechanism may alternatively be disposed between the cabinet bottom wall 914 and the drawer bottom 924. The storage drawer 92 may be pushed into the mobile cabinet interior 910 to switch to a closed state when moving inward, and may be extended out of the mobile cabinet interior 910 to switch to an open state when moving outward. While the outer end of the storage drawer 92 remains outside of the mobile bin interior 910 when the storage drawer 92 is in the closed position, in other embodiments, the outer end of the storage drawer 92 may be received within the mobile bin interior 910.
As shown in fig. 9 and 10, the drawer support leg 93 is further included, the drawer support leg 93 is mounted at an outer end of the storage drawer 92, the drawer support leg 93 includes a bracket 931 and a roller 932 mounted on the bracket 931, and the roller 932 is configured to provide rolling support to the outer end of the storage drawer 92 when the outer end of the storage drawer 92 is outside the mobile cabinet interior 910. Wherein the rollers 932 are configured to provide rolling support to the outer end of the storage drawer 92 when the outer end of the storage drawer 92 is outside the mobile bin interior 910, as defined by the feature that the rollers 932 are outside the mobile bin interior 910 when the outer end of the storage drawer 92 is outside the mobile bin interior 910, and the drawer support legs 93 are configured to provide support to the outer end of the storage drawer 92 against excessive dropping by bearing against an object outside the mobile bin interior 910, such as the ground, and to allow the outer end of the storage drawer 92 to move over the ground by rolling the rollers 932. The rollers 932 are not configured to cooperate with the guide mechanism (95, 95 a) to provide rolling support for the storage drawer 92. In addition, a notch area 9140 for avoiding the drawer support leg 93 is provided on the cabinet bottom wall 914 of the cabinet main body 91, and when the storage drawer 92 is pushed into the movable cabinet inner chamber 910 and is in a closed state, the drawer support leg 93 enters the notch area 9140. Thus, when the storage drawer 92 is in the closed position, the drawer support legs 93 may be retained outside the movable cabinet interior 910 by the cut-out portion 9140, and the outer end of the cabinet main body 91 may be accommodated within the movable cabinet interior 910 as much as possible by the cut-out portion 9140.
According to the above technical solution, since the guide means (95, 95 a) is provided between the cabinet wall body of the cabinet main body 91 and the drawer plate body of the locker drawer 92, on the basis of this, the drawer support leg 93 is further installed at the outer end of the storage drawer 92, so that, upon pulling the storage drawer 92 outward, the inner end of the storage drawer 92 is primarily slidably supported and guided by the guide mechanism (95, 95 a), while the outer end of the storage drawer 92 outside of the mobile cabinet interior 910 may be rollingly supported and able to continue to move by the rollers 932, it can be seen that the storage drawer 92 has a dual support mechanism, which allows for more smooth movement of the storage drawer 92, even if a heavy load is loaded, the outer end of the storage drawer 92 does not fall excessively to impair the smoothness and smoothness of movement of the storage drawer 92.
As shown in fig. 10, a cabinet wall wire passing hole 9130 is disposed on the cabinet top wall 913 of the cabinet main body 91, and the cabinet wall wire passing hole 9130 communicates with the movable cabinet inner cavity 910. In this way, power source application equipment such as a vacuum pump and a transformer cabinet can be stored in the storage drawer 92, and a cabinet power line (not shown) is disposed in the movable storage cabinet 9, and the cabinet power line in the movable storage cabinet 9 passes through the bottom through hole and enters the upper space from the lower space. Specifically, one end of the power line for the cabinet passes through the cabinet wall wire through hole 9130 to be connected with the power source application device, and the other end of the power line passes through the bottom through hole to enter the first independent space 21 from the lower space and is connected with the first power source output connector 34. Of course, if necessary, the other end of the power line for the cabinet may be connected to the second power source output connector 63 or other equipment through the side port portion 60 after entering the first independent space 21. Therefore, power supply and application of the power source application equipment cannot be obstructed when the power source application equipment is stored in the movable storage cabinet 9, and the movable storage cabinet 9 can be applied to a laboratory for storing the power source application equipment, so that the cleanliness of the laboratory environment is improved. In addition, a waste recovery container for recovering liquid or solid waste may be stored in the drawer storage 920.
In the process of installing the equipment stand, the supporting cabinet units (5, 5a, 5 b), the upper supporting frame 4, the lower supporting frame 70, the power source supporting frame 3, and the movable storage units (8, 9) may be installed in advance, the supporting cabinet units (5, 5a, 5 b) may be supported by the lower supporting frame 70, the upper supporting frame 4 may be simultaneously placed on the supporting cabinet units (5, 5a, 5 b), the table board 1 may be supported by the upper supporting frame 4 and the left and right front side plates (31, 31 a) of the power source supporting frame 3, and the movable storage units (8, 9) may be pushed into the storage space 35. Since the one upper supporting frame 4 is simultaneously rested on the supporting cabinet units (5, 5a, 5 b), the table board 1 is supported on the one upper supporting frame 4, so that the rear side part of the table board 1 is mainly supported by the one upper supporting frame 4 and the supporting cabinet units (5, 5a, 5 b), the supporting cabinet units (5, 5a, 5 b) can resist the load gravity transmitted by the upper supporting frame 4 cooperatively, and since each supporting cabinet unit (5, 5a, 5 b) is formed with an independent hollow three-dimensional supporting mechanism, the supporting mechanism has independent supporting capability, thereby being beneficial to enhancing the whole bearing capability of the equipment table. In addition, since the table top 1 is supported by the left and right front side plates (31, 31 a), the front portion of the table top 1 can be stably supported by the left and right front side plates (31, 31 a), and the left and right front side plates (31, 31 a), the upper support frame 4, and the cabinet support units (5, 5a, 5 b) serve as support units for the table top 1. Therefore, the front side or the rear side of the table board 1 can be well supported, the stability is very good, and the table board is not easily crushed by heavy objects.
The present invention can be applied to a stage for an instrument device because of the above-described features and advantages.

Claims (10)

1. The instrument equipment table with the wiring structure is provided with a table top surface part, and the table top surface part is provided with a length extending transversely along the left-right direction and a width extending longitudinally along the front-back direction; the table top is characterized by comprising a horizontal surface part and an inclined surface part which is positioned at the side position of the horizontal surface part and is obliquely arranged, wherein the horizontal surface part and the inclined surface part are arranged front and back, a first independent space and a second independent space are arranged in the instrument platform, the second independent space is transversely arranged in a left-right extending manner, the first independent space is positioned in front of the second independent space, a vertical partition wall is arranged between the first independent space and the second independent space, a side opening part communicated with the first independent space is arranged on the inclined surface part, the vertical partition wall is positioned outside a projection area of the side opening part when viewed from top, a joint mounting hole for mounting a first power source output joint is arranged on the vertical partition wall, and the first independent space is used for collecting a user joint movably connected with the first power source output joint, the second independent space is used for storing a first power source pipeline which provides a power source for the first power source output joint.
2. The desk for equipment with trace structure according to claim 1, further comprising the first power source output connector and the first power source pipeline, wherein the first power source output connector is mounted on the vertical partition wall through the connector mounting hole, the first power source output connector comprises an input end and an output end, the output end is exposed in the first independent space and is used for being in loose connection with a user connector, and the input end is exposed in the second independent space and is connected to the first power source pipeline.
3. The desk for equipment with trace structure according to claim 1, wherein a flip-up cover is further disposed on the inclined surface portion, a head end of the flip-up cover is hinged to an upper side position of the side opening portion, a notch portion for lifting up the flip-up cover is disposed at a tail end of the flip-up cover, a brush is disposed at a lower side position of the side opening portion, and the brush closes the notch portion when the flip-up cover is covered on the side opening portion.
4. The desk for equipment with the routing structure according to any one of claims 1 to 3, wherein a third space for arranging a second power source pipeline is further provided in the desk for equipment, the third space is located below the first independent space and the second independent space, and a transverse bottom wall is provided between the third space and the first independent space and the second independent space.
5. The desk for equipment with trace structure according to claim 4, wherein a bottom through hole is disposed on the transverse bottom wall, and the bottom through hole connects the first independent space and the third space.
6. The instrumentation station comprising a trace structure according to claim 5, the inclined surface part is provided with an inclined part mounting through hole, and also comprises a second power source output joint and a second power source pipeline, the second power source output connector comprises an input end and an output end, the second power source output connector is arranged on the inclined surface part through the inclined part mounting through hole, the output end of the second power source output connector is exposed to the outer side of the inclined surface part and is used for movably connecting a user connector, an input end of the second power source output joint is exposed to the first independent space, a rear-end line of the second power source line is disposed in the third space, and the front section pipeline of the second power source pipeline passes through the bottom through hole to enter the first independent space and is connected with the input end of the second power source output connector.
7. The desk for instrument and equipment with wiring structure as defined in claim 5, wherein the inclined surface portion is provided with an inclined portion installation through hole and an inclined portion wiring hole, and further comprises a fluid pressure regulating device and a fluid line, the fluid pressure regulating device comprises an input end and an output end, the fluid pressure regulating device passes through the inclined portion installation through hole, the inclined surface portion is provided with an input end and an output end, the input end and the output end of the fluid pressure regulating device are respectively exposed to the outer side of the inclined surface portion, the rear pipeline of the fluid line is arranged in the third space, the front pipeline of the fluid line passes through the bottom through hole to enter the first independent space and pass through the inclined portion wiring hole to connect the input end of the fluid pressure regulating device.
8. The desk for equipment with the routing structure according to any one of claims 1 to 3, wherein a power source support is disposed in the space below the desk top portion, the power source support comprises a left front side plate, a right front side plate and a transverse bottom wall connected between the left front side plate and the right front side plate, and the vertical partition wall is vertically connected to the transverse bottom wall so as to divide the space above the transverse bottom wall into the first independent space and the second independent space.
9. The equipment rack with trace structure of claim 8, wherein a third space for disposing a second power source pipeline is disposed below the transverse bottom wall.
10. The desk for the instrument and equipment with the routing structure according to claim 9, wherein the left and right front side plates are respectively metal bending pieces and have front and rear separately arranged vertical bending edges and a main board connected between the front and rear vertical bending edges, and left and right ends of the transverse bottom wall are respectively connected to the vertical bending edges of the left and right front side plates; the first power source pipeline penetrates through the main board and extends into the second independent space; or the main board is provided with a second power source pipeline which penetrates through the main board and extends into the third space.
CN202020193962.4U 2020-02-21 2020-02-21 Instrument equipment table with wiring structure Active CN211800972U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111068805A (en) * 2020-02-21 2020-04-28 广东天赐湾实验室装备制造有限公司 Instrument equipment table with wiring structure

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111068805A (en) * 2020-02-21 2020-04-28 广东天赐湾实验室装备制造有限公司 Instrument equipment table with wiring structure

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