CN219535562U - Wire slot for partition wall of clean room - Google Patents

Abstract

The utility model provides a wire slot for a partition wall of a clean room, which comprises a box body and a sealing plate strip, wherein the box body is arranged between two adjacent wallboards and is provided with an opening facing the inner side or the outer side of the wallboards, a through cavity is penetrated through the box body along the up-down direction, embedded blocks which are in plug-in fit with an embedded slot are respectively arranged on two sides of the box body, limit strips extending along the up-down direction and plug-in seats with slots are respectively arranged on two opposite inner side walls of the box body, and the plug-in seats are positioned on one side of the limit strips close to the opening of the box body; the sealing plate strip is blocked in the opening of the box body, and the inner side wall of the sealing plate strip is provided with a clamping piece which is matched with the limiting strip in a clamping way and an inserting strip which extends to the inner side of the box body and is matched with the inserting groove in an inserting way. The wire slot for the clean room partition wall provided by the utility model can clearly see the damage condition of an internal circuit without climbing to the top of a wallboard manually, and can be used for purposefully replacing damaged wires, so that the working efficiency is improved.

Description

Wire slot for partition wall of clean room

Technical Field

The utility model belongs to the technical field of installation of clean room trunking, and particularly relates to a trunking for a partition wall of a clean room.

Background

The trunking is also called a wiring trunking, a wiring trunking and a line trunking, and is used for arranging wires such as power lines, data lines and the like in a standard manner and fixing the wires on building materials on the ground, wallboards or ceilings.

In the construction process of the clean room, the wire pipe is required to be buried in the wallboard in advance, then the wallboard is installed, and finally the wire is penetrated into the wire pipe, so that the damage condition of the internal circuit cannot be clearly seen in the later-stage circuit maintenance, all wires can be pulled out from the top of the wallboard only by manual climbing for inspection and replacement, a damaged wire cannot be accurately determined, the wire is pulled out and replaced in a targeted mode, and the maintenance process is extremely complicated.

Disclosure of Invention

The embodiment of the utility model provides a wire slot for a clean room partition wall, which can clearly see the damage condition of an internal circuit without manually climbing to the top of a wallboard, and can be used for purposefully replacing damaged wires, thereby improving the working efficiency.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a clean room wire casing for partition wall, including box body and shrouding strip, the box body sets up between two adjacent wallboards, and has the opening towards wallboard inboard and/or outside, runs through along the upper and lower direction on the box body and is equipped with the through cavity, the both sides of box body are equipped with respectively with embedded groove grafting complex embedded block, all be equipped with on the two opposite inside walls of box body along the spacing strip that extends of upper and lower direction and the bayonet socket that has the slot, the bayonet socket is located one side that is close to the box body opening; the sealing plate strip is blocked at the opening of the box body, and the inner side wall of the sealing plate strip is provided with a clamping piece which is matched with the limiting strip in a clamping way and an inserting strip which extends to the inner side of the box body and is matched with the inserting groove in an inserting way.

In one possible implementation manner, the clamping piece comprises two connecting plates and a clamping strip, the two connecting plates are connected to the inner side wall of the sealing plate strip and are respectively arranged close to the two side edges of the sealing plate strip, the connecting plates extend into the box body parallel to the side wall of the box body, and the connecting plates are positioned above or below the cutting strip; the clamping strip is connected to the outer side wall of the connecting plate along the up-down direction, and the clamping strip is used for being matched with the limiting strip in a clamping mode.

In some embodiments, the stop bar has a decreasing inner and outer cross-sectional area, and the clip bar has a decreasing inner and outer cross-sectional area.

In one possible implementation, an extension strip extending toward the inner end of the slip is connected to the outer periphery of the overhanging end of the slip, with a gap between the extension strip and the outer wall of the slip.

In some embodiments, an abutment block is provided on the outer sidewall of the extension strip, and is configured to be in abutment engagement with the inner sidewall of the slot.

In some embodiments, the thickness of the outer end of the abutment block tapers in the axial direction of the extension bar.

In one possible implementation, the two sides of the insert block are respectively provided with an elastic extrusion block for abutting fit with the inner side wall of the insert groove.

In one possible implementation, the opening of the box body is provided with two partition boards which face the inner side and the outer side of the wallboard respectively, the box body is internally provided with partition board strips extending along the up-down direction, and two side edges of the partition board strips are respectively connected to two opposite inner side walls of the box body.

In some embodiments, two sealing strips are provided and respectively plugged at two openings of the box body, and outer side walls of the two sealing strips are respectively flush with inner side walls and outer side walls of the wallboard.

In one possible implementation, the cutting is provided with three groups of clamping pieces along the vertical direction at intervals, the clamping pieces are provided with two groups, and a group of clamping pieces are arranged between every two adjacent groups of cutting pieces.

Compared with the prior art, the wire slot for the clean room partition wall provided by the embodiment has the advantages that when circuit maintenance is needed, only the sealing strip and the box body are required to be separated on one side of the wallboard, even if the cutting strip is separated from the slot, the clamping piece is separated from the limiting strip, the condition of the circuit inside the box body can be observed, and the damaged wire is subjected to targeted replacement and maintenance, so that the working efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic top sectional view of a slot for a partition wall in a clean room according to an embodiment of the present utility model;

fig. 2 is a schematic top cross-sectional structure diagram of a slot for a partition wall of a clean room according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a partial enlarged structure at I in FIG. 2 according to an embodiment of the present utility model;

fig. 4 is a schematic top view of a slot for a partition wall of a clean room according to an embodiment of the present utility model;

fig. 5 is a schematic front view of a slot for a clean room partition wall according to an embodiment of the present utility model.

Wherein, each reference sign in the figure:

1. a wallboard; 2. an embedding groove; 10. a case body; 11. a through cavity; 20. an embedded block; 30. sealing strips; 40. a limit bar; 50. a clamping piece; 51. a clamping strip; 52. a connecting plate; 60. a socket; 61. a slot; 70. cutting; 71. an extension strip; 72. an abutment block; 80. an elastic extrusion block; 90. a separator plate strip.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or be indirectly on the other element. It is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be construed as limiting the present utility model. The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a number" is two or more, unless explicitly defined otherwise.

The outside and inside of the wall panel 1 are the directions marked by the arrows in fig. 1. The adjacent end faces of the adjacent two wallboards 1 are the adjacent edges of the adjacent two wallboards 1.

Referring to fig. 1 to 5, the slot for the partition wall of the clean room provided by the utility model will now be described. The wire casing for the partition wall of the toilet, including box body 10 and shrouding strip 30, the box body 10 is set up between two adjacent wallboards 1, and have opening towards inboard and/or outside of wallboard 1, run through the cavity 11 in the upper and lower direction on the box body 10, there are embedded blocks 20 that are inserted and cooperated with embedded groove 2 separately on both sides of the box body 10, there are limit bars 40 and inserting seats 60 with slots 61 extending in the upper and lower direction on two opposite inner sidewalls of the box body 10, the inserting seat 60 is located one side that the limit bar 40 is close to the opening of the box body 10; the sealing strip 30 is sealed at the opening of the box body 10, and the inner side wall of the sealing strip 30 is provided with a clamping piece 50 which is matched with the limit strip 40 in a clamping way and an inserting strip 70 which extends to the inner side of the box body 10 and is matched with the inserting groove 61 in an inserting way.

The embodiment of the utility model provides a wire slot for a partition wall of a clean room, in the actual use process, firstly, an embedded block 20 on one side of a box body 10 is inserted into an embedded slot 2 of a wall board 1 which is installed, and the other wall board 1 is spliced from the other side of the box body 10, so that the embedded block 20 on the other side is inserted into the embedded slot 2 of the other wall board 1, the adjacent two end surfaces of the two wall boards 1 are contacted with each other, a sealing strip 30 is finally installed, an inserting strip 70 on the sealing strip 30 is aligned and inserted into a slot 61, a clamping piece 50 is also clamped and matched with a limiting strip 40 after the inserting strip 70 is inserted into the slot 61, and the sealing strip 30 is contacted and matched with the opening end of the box body 10, thereby completing the quick installation of the sealing strip 30 and improving the installation efficiency of the sealing strip 30.

When the circuit maintenance is required, only the sealing strip plate 30 and the box body 10 are required to be separated from each other by standing on one side of the wallboard 1, even if the cutting 70 is separated from the slot 61, the clamping piece 50 is separated from the limiting strip 40, the condition of the circuit inside the box body 10 can be observed, the damaged electric wire is replaced and maintained in a targeted mode, and the working efficiency is improved.

Compared with the prior art, when the circuit maintenance is needed, the wire slot for the partition wall of the clean room is provided, the wire slot for the partition wall of the clean room only needs to stand on one side of the wallboard 1 to separate the sealing strip 30 from the box body 10, even if the cutting 70 is separated from the slot 61, the clamping piece 50 is separated from the limiting strip 40, the condition of the circuit inside the box body 10 can be observed, the damaged wire is replaced and maintained in a targeted mode, and the working efficiency is improved.

In one possible implementation manner, the above-mentioned clamping member 50 adopts a structure as shown in fig. 2 to 4, referring to fig. 2 to 4, the clamping member 50 includes two connecting plates 52 and a clamping strip 51, the two connecting plates 52 are connected to the inner side walls of the sealing strip 30 and are respectively disposed near the edges of two sides of the sealing strip 30, the connecting plates 52 extend into the box 10 parallel to the side walls of the box 10, and the connecting plates 52 are located above or below the cutting 70; the clamping strip 51 is connected to the outer sidewall of the connecting plate 52 along the up-down direction, and the clamping strip 51 is used for being matched with the limiting strip 40 in a clamping manner.

Specifically, the connection plate 52 can elastically deform, and in the process that the clamping strip 51 passes through the limit strip 40, the limit strip 40 can press the connection plate 52 to slightly bend towards the middle direction close to the box body 10, and after the clamping strip 51 completely passes through the limit strip 40, the connection plate 52 can recover to an initial state. During installation, the connecting plate 52 drives the clamping strip 51 to enter the box body 10, the clamping strip 51 reaches one side, far away from the opening of the box body 10, of the limiting strip 40, one side, close to the sealing strip 30, of the clamping strip 51 is in contact fit with one side, far away from the opening of the box body 10, of the limiting strip 40, and therefore clamping of the clamping strip 51 and the limiting strip 40 is achieved, and the installation efficiency of the sealing strip 30 is improved.

In some embodiments, referring to fig. 2-4, the stop bar 40 is tapered from inside to outside in cross-sectional area and the snap bar 51 is tapered from inside to outside in cross-sectional area.

Specifically, the inner side of the limit bar 40 is a side of the limit bar 40 connected with the inner side wall of the box body 10, and the outer side of the limit bar 40 is a side of the limit bar 40 far away from the inner side wall of the box body 10 connected with the limit bar. The inner side of the clamping strip 51 is one side of the clamping strip 51 connected with the outer side wall of the connecting plate 52, and the outer side of the clamping strip 51 is one side of the clamping strip 51 far away from the outer side wall of the connecting plate 52 connected with the clamping strip. The cross sections of the limit strips 40 and the clamping strips 51 are triangular. In the process that the clamping piece 50 gradually enters the box body 10, the inclined surface of the limiting strip 40 close to the opening of the box body 10 and the inclined surface of the clamping strip 51 far away from the sealing strip 30 are guide inclined surfaces, so that the clamping strip 51 and the limiting strip 40 are conveniently clamped; in the process that the clamping piece 50 gradually falls out of the box body 10, the inclined plane of the opening of the box body 10, which is far away from the limit strip 40, and the inclined plane of the clamping strip 51, which is close to the sealing strip 30, are mutually guide inclined planes, so that the separation of the limit strip 40 of the clamping strip 51 is facilitated, and the dismounting efficiency of the sealing strip 30 is generally improved.

In one possible implementation, the insert 70 is configured as shown in fig. 2 to 4, and referring to fig. 2 to 4, an extension 71 extending toward an inner end of the insert 70 is connected to an outer periphery of an overhanging end of the insert 70, and a gap is formed between the extension 71 and an outer wall of the insert 70.

Specifically, where slot 61 is oriented toward the opening of case 10, insert 70 is configured to engage slot 61 to stabilize the position of closure strip 30 in contact engagement with the opening of case 10, thereby improving the stability of the position of closure strip 30. The extension bar 71 can be elastically deformed, and since a certain distance is provided between the extension bar 71 and the outer wall of the insertion bar 70, the slot wall of the insertion slot 61 presses the extension bar 71 toward the insertion bar 70 during the insertion of the insertion bar 70 into the insertion slot 61, so that the extension bar 71 has a tendency to recover to an initial state, so as to press the slot wall of the insertion slot 61, to increase the friction between the extension bar 71 and the slot wall of the insertion slot 61, and to enable the insertion bar 70 to be stably inserted into the insertion slot 61.

In some embodiments, referring to fig. 2-4, the outer sidewall of extension bar 71 is provided with an abutment block 72 disposed in an outwardly convex manner for abutting engagement with the inner sidewall of slot 61.

Specifically, the abutting block 72 is configured to increase the pressing force between the extension bar 71 and the inner wall of the socket 61, so that the insert 70 is stably inserted into the socket 61, and the connection stability between the insert 70 and the socket 60 is enhanced.

Optionally, the side of the abutment block 72 remote from the extension bar 71 has an outwardly projecting boss.

Alternatively, the thickness of the outer end of the abutment block 72 becomes gradually smaller in the axial direction of the extension bar 71.

In some embodiments, referring to fig. 2-4, the thickness of the outer end of the abutment block 72 is tapered in the axial direction of the extension bar 71.

Specifically, the axial direction of the extension strip 71 is a direction perpendicular to the plate surface of the seal plate strip 30. The cross section of the abutting block 72 is triangular, namely, the arrangement mode of the abutting block 72 not only facilitates the extension strip 71 to enter the slot 61, but also increases the separation difficulty of the cutting 70 and the slot 61, and enhances the connection stability of the cutting 70 and the socket 60.

In one possible implementation manner, the insert block 20 adopts a structure as shown in fig. 1, 2 and 4, and referring to fig. 1, 2 and 4, two sides of the insert block 20 are respectively provided with an elastic extrusion block 80 for abutting and matching with an inner side wall of the insert groove 2.

Specifically, the elastic extrusion block 80 can elastically deform, and the extrusion force between the embedded block 20 and the inner wall of the embedded groove 2 is increased due to the arrangement of the elastic extrusion block 80, so that the embedded block 20 is stably positioned in the embedded groove 2, and the installation of another wallboard 1 is facilitated.

The embedded block 20 on one side of the box body 10 is inserted into the reserved embedded groove 2, and the position of the box body 10 is fixed due to the extrusion of the elastic extrusion block 80 and the inner wall of the embedded groove 2, so that the other wallboard 1 is spliced from the other side of the box body 10 conveniently, the embedded block 20 on the other side of the box body 10 is inserted into the embedded groove 2 of the other wallboard 1, and the installation efficiency is improved.

Further, through holes are formed in the embedded block 20 in a penetrating manner in the vertical direction, and the weight of the embedded block 20 is reduced and materials are saved due to the arrangement of the through holes.

Further, the elastic pressing block 80 has a semicircular cross section. The outer peripheral wall of the elastic extrusion block 80 is a smooth arc-shaped curved surface, and the elastic extrusion block 80 is in such a shape that the embedded block 20 is conveniently inserted into the embedded groove 2, the embedded block 20 is stably positioned in the embedded groove 2, and the installation efficiency is improved.

Further, the elastic pressing block 80 is provided with a through hole penetrating in the up-down direction. The arrangement of the through holes not only saves the manufacturing material of the elastic extrusion block 80, but also enhances the elastic deformation capacity of the elastic extrusion block 80.

In one possible implementation manner, the above-mentioned case 10 adopts a structure as shown in fig. 1, 2 and 4, referring to fig. 1, 2 and 4, two openings of the case 10 are provided and face the inner side and the outer side of the wall plate 1 respectively, a partition strip 90 extending along the up-down direction is provided in the case 10, and two side edges of the partition strip 90 are connected to two opposite inner side walls of the case 10 respectively.

Specifically, two openings of the box body 10 are plugged with sealing strips 30, two sides of each of the sealing strips 90 are provided with a limiting strip 40 and a plugging seat 60, and each sealing strip 30 is provided with a clamping piece 50 and a plugging strip 70. The partition board 90 is connected to the middle of the box body 10 to divide the through cavity 11 into two parts, so that the circuits for two sides of the wall board 1 can be respectively arranged on one box body 10, and the installation quantity of the box bodies 10 is reduced.

In some embodiments, referring to fig. 1, two sealing strips 30 are provided and plugged at two openings of the box body 10, and outer side walls of the two sealing strips 30 are respectively flush with inner side walls and outer side walls of the wallboard 1.

Specifically, after the integral installation is completed, obvious protruding parts are not arranged on the wallboard 1, and the integral aesthetic property is improved.

In one possible implementation manner, the above-mentioned fastening members 50 are configured as shown in fig. 1, and referring to fig. 1, the cutting 70 is provided with three groups of fastening members 50 spaced vertically, and two groups of fastening members 50 are provided between each two adjacent groups of cutting 70.

Specifically, two clamping members 50 are provided in each group and are respectively arranged near the two side edges of the sealing lath 30. By clamping the two groups of clamping pieces 50 and the limiting strips 40 and inserting the three groups of cutting pieces 70 and the inserting seats 60, the stability of connection of the sealing plate strips 30 and the box body 10 is improved.

The insert 70 and the slot 61 on the socket 60 not only have the positioning effect, but also further improve the connection stability of the sealing plate strip 30 and the box body 10 through the extrusion of the insert 70 and the inner wall of the slot 61.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. The wire casing is used to toilet partition wall sets up between two adjacent wallboards, two be equipped with the embedded groove on the terminal surface that the wallboard is adjacent respectively, its characterized in that, the wire casing is used to toilet partition wall includes:

the box body is arranged between two adjacent wallboards and provided with openings facing the inner side and/or the outer side of the wallboards, a through cavity is penetrated through the box body along the up-down direction, embedded blocks which are in plug-in fit with the embedded grooves are respectively arranged on two sides of the box body, limiting strips extending along the up-down direction and plug-in seats with slots are respectively arranged on two opposite inner side walls of the box body, and the plug-in seats are positioned on one side, close to the openings of the box body, of the limiting strips; and

the sealing strip is plugged at the opening of the box body, and the inner side wall of the sealing strip is provided with a clamping piece which is matched with the limiting strip in a clamping way and an inserting strip which extends to the inner side of the box body and is matched with the inserting groove in an inserting way.

2. The wire chase for a clean room partition wall of claim 1, wherein the clip comprises:

the two connecting plates are connected to the inner side walls of the sealing strips and are respectively arranged close to the edges of the two sides of the sealing strips, the connecting plates extend into the box body in parallel to the side walls of the box body, and the connecting plates are positioned above or below the cutting strips; and

the clamping strip is connected to the outer side wall of the connecting plate along the up-down direction and is used for being matched with the limiting strip in a clamping mode.

3. The wire chase for a clean room partition wall of claim 2, wherein the stop bars have a gradually decreasing inner and outer cross-sectional area, and the snap bars have a gradually decreasing inner and outer cross-sectional area.

4. The wire chase for a clean room partition wall of claim 1, wherein an extension strip extending toward an inner end of the slip is connected to an outer periphery of an overhanging end of the slip, and a gap is provided between the extension strip and an outer wall of the slip.

5. The slot for a clean room partition as recited in claim 4, wherein the outer side wall of the extension bar is provided with an abutment block protruding outwards for abutment engagement with the inner side wall of the slot.

6. The wire chase for a clean room partition wall of claim 5, wherein the thickness of the outer end of the abutment block is tapered in the axial direction of the extension bar.

7. The slot for a clean room partition wall as recited in any one of claims 1 to 6, wherein both sides of the insert block are respectively provided with elastic extrusion blocks for abutting engagement with inner side walls of the insert slot.

8. The slot for a clean room partition wall according to any one of claims 1 to 6, wherein two openings are provided in the case and face the inner side and the outer side of the wall plate, respectively, and partition strips extending in the up-down direction are provided in the case, and both side edges of the partition strips are connected to opposite inner side walls of the case, respectively.

9. The slot for a clean room partition as recited in claim 8, wherein said sealing strips are provided with two sealing strips, which are respectively plugged at two openings of said box body, and outer side walls of said sealing strips are respectively flush with inner side walls and outer side walls of said wall panels.

10. The slot for a clean room partition wall according to any one of claims 1 to 6, wherein three sets of the cutting are provided at intervals in the up-down direction, two sets of the clamping members are provided, and one set of the clamping members is provided between each two adjacent sets of the cutting.