A partition panel
By using a separate design for the installation and protective components, and by utilizing the cooperation of protruding and recessed parts, the problem of difficult replacement and maintenance of partition walls is solved, achieving low-damage and efficient installation during the replacement process.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- QINGHAIXIWANG HI TECH&MATERIAL CO LTD
- Filing Date
- 2024-12-06
- Publication Date
- 2026-06-09
Smart Images

Figure CN122169603A_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of partition wall technology, and more particularly to a partition wall. Background Technology
[0002] Partition wall panels refer to prefabricated wall panels used in non-load-bearing parts of buildings.
[0003] Partition walls are the main material for non-load-bearing interior partition walls in general industrial buildings, residential buildings, and public buildings, and are installed on the walls of buildings.
[0004] In related technologies, partition walls present significant challenges in replacement and maintenance. Summary of the Invention
[0005] This application provides a partition wall panel that can solve the problem of difficult replacement and maintenance of partition wall panels.
[0006] To achieve the above objectives, this application adopts the following technical solution:
[0007] This application provides a partition wall panel, comprising:
[0008] Mounting components are used for external wall connections;
[0009] At least one protective element is connected to the mounting element, and the protective element has a groove formed thereon;
[0010] A plate body is disposed within a groove, and at least a portion of the plate body is connected to at least a portion of the protective element;
[0011] One of the protective component and the mounting component has at least one protrusion, and the other of the protective component and the mounting component has at least one recess, and the protrusion and the recess are configured to cooperate.
[0012] In one feasible implementation, it further includes:
[0013] A fixing element is provided on the protective element and connected to the mounting element. The fixing element is used to limit the relative movement between the protective element and the mounting element.
[0014] In one feasible embodiment, the fastener is a bolt, the protrusion has a first bolt hole, the recess has a second bolt hole, and the bolt is respectively configured to mate with the first bolt hole and the second bolt hole;
[0015] The protective component has an abutment portion located on the side of the bolt away from the mounting component, which is used to connect with the plate.
[0016] In one feasible implementation, the mounting component has a first positioning part, and the protective component has a second positioning part, with the first and second positioning parts being configured in cooperation.
[0017] In one feasible implementation, multiple protrusions and multiple recesses are provided, with each of the multiple protrusions and multiple recesses corresponding to one another.
[0018] In one feasible implementation, multiple protective elements are provided, and the multiple protective elements are respectively disposed on the mounting element along the height direction of the vertical partition wall.
[0019] In one feasible implementation, the protective component includes: a first frame and a second frame, the first frame being fixedly connected to the mounting component and connected to the plate, the second frame being fixedly connected to the mounting component and connected to the plate, the first frame and the second frame being disposed at opposite ends of the plate, and the first frame and the second frame being connected to form a groove.
[0020] In one possible implementation, the mounting member has a receiving groove, and at least a portion of the first frame and the second frame are located within the receiving groove;
[0021] And / or, the mounting components and the wall enclose to form a receiving groove, with at least a portion of the first frame and the second frame located within the receiving groove.
[0022] In one feasible implementation, it further includes: at least one auxiliary member, one end of which is connected to the wall, and the other end of which is connected to at least one of the protective member and the panel.
[0023] In one feasible implementation, at least three auxiliary components are provided, wherein the auxiliary component located in the middle of the three auxiliary components is the first auxiliary component, and the auxiliary components located on both sides of the middle auxiliary component are the second auxiliary component and the third auxiliary component, respectively. The first auxiliary component is connected to the protective component, and the second and third auxiliary components are respectively connected to the plate body.
[0024] This application provides a partition wall panel, comprising: an mounting member, at least one protective member, and a panel body. The mounting member is used to connect to an external wall, the protective member is connected to the mounting member, the protective member has a groove, the panel body is disposed within the groove, and at least a portion of the panel body and at least a portion of the protective member are connected. One of the protective member and the mounting member has at least one protrusion, and the other of the protective member and the mounting member has at least one recess, the protrusion and the recess being mutually accommodating.
[0025] In this partition wall structure, the mounting component is used to connect to the wall, and the protective component is connected to the mounting component. The groove of the protective component is used to support and limit the panel. The mounting component and the protective component are set separately, which allows the panel and the protective component to be replaced separately when the partition wall needs to be replaced. This reduces the difficulty of replacing the partition wall with the wall and reduces the damage to the wall caused by disassembling the partition wall. The protrusions and recesses on the protective component and the mounting component cooperate to reduce the connection difficulty between the protective component and the mounting component, and facilitate the auxiliary positioning during the installation of the protective component on the mounting component, thereby reducing the connection difficulty between the protective component and the mounting component and thus reducing the connection difficulty between the partition wall and the wall.
[0026] Therefore, the partition wall provided in the embodiments of this application can solve the problem of difficult replacement and maintenance of partition wall panels. Attached Figure Description
[0027] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0028] Figure 1 One of the schematic diagrams of the main structure of the partition wall panel provided in the embodiments of this application;
[0029] Figure 2 One of the schematic diagrams of the main structure of the mounting component provided in the embodiments of this application;
[0030] Figure 3 One of the schematic diagrams of the main structure of the protective component provided in the embodiments of this application;
[0031] Figure 4 A second schematic diagram of the main structure of the mounting component provided in the embodiments of this application;
[0032] Figure 5 A second schematic diagram of the main structure of the protective component provided in the embodiments of this application;
[0033] Figure 6 A second schematic diagram of the main structure of the partition wall panel provided in the embodiments of this application;
[0034] Figure 7 The third schematic diagram of the main structure of the protective component provided in the embodiments of this application;
[0035] Figure 8 The third schematic diagram of the main structure of the partition wall provided in the embodiments of this application.
[0036] Explanation of reference numerals in the attached figures:
[0037] 10-Walls;
[0038] 100 - Mounting part; 101 - First positioning part; 102 - Recessed part;
[0039] 200 - Protective component; 201 - Groove; 202 - Second positioning part; 203 - First frame; 204 - Second frame; 205 - Protrusion; 206 - Glue application groove;
[0040] 300-plate body;
[0041] 400 - Fastener;
[0042] 500 - Reception tank;
[0043] 600 - Auxiliary component; 601 - First auxiliary component; 602 - Second auxiliary component; 603 - Third auxiliary component; 604 - Connecting bracket; 605 - Connecting screw. Detailed Implementation
[0044] To make the objectives, technical solutions, and advantages of the embodiments of this application clearer, the technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application. Unless otherwise specified, the following embodiments and features can be combined with each other.
[0045] In existing technologies, partition walls are typically constructed from aerated concrete blocks, bricks, and cement. The outer surface of the partition wall requires leveling with mortar and putty, surface sanding, and then painting for decoration. After the exterior decoration is complete, the partition wall needs to be reinforced using nails, screws, and adhesives. When repair or replacement is required, the original partition wall must be removed and a new one installed, leading to significant difficulties in replacement and repair.
[0046] To overcome the shortcomings of the prior art, this application provides a partition wall panel. An mounting component is used to connect to a wall, and a protective component is connected to the mounting component. The groove in the protective component supports and limits the panel. The mounting component and the protective component are separate, allowing for individual replacement of the panel and the protective component when the partition wall panel needs to be replaced. This reduces the difficulty of replacing the partition wall panel with the wall and minimizes damage to the wall caused by disassembling the partition wall panel. The protrusions and recesses on the protective component and the mounting component cooperate to reduce the connection difficulty between them and facilitate the installation of the protective component. This also helps in positioning the protective component during installation, further reducing the connection difficulty between the protective component and the mounting component, thereby reducing the overall connection difficulty between the partition wall panel and the wall.
[0047] Therefore, the partition wall provided in the embodiments of this application can solve the problem of difficult replacement and maintenance of partition wall panels.
[0048] The contents of this application will now be described in detail with reference to the accompanying drawings, so that those skilled in the art can have a clearer and more detailed understanding of the contents of this application.
[0049] The following sections provide a detailed description of the specific structure of the partition wall and various possible implementation methods.
[0050] like Figure 1 As shown, an embodiment of this application provides a partition wall panel, including: a mounting member 100, at least one protective member 200, and a panel body 300. The mounting member 100 is used to connect to an external wall 10, the protective member 200 is connected to the mounting member 100, the protective member 200 has a groove 201, the panel body 300 is disposed within the groove 201, and at least a portion of the panel body 300 and at least a portion of the protective member 200 are connected. One of the protective member 200 and the mounting member 100 has at least one protrusion 205, and the other of the protective member 200 and the mounting member 100 has at least one recess 102, the protrusion 205 and the recess 102 being configured to cooperate.
[0051] It should be noted that there are several different connection methods between the plate 300 and the protective component 200. The connection methods between the plate 300 and the protective component 200 will be illustrated below.
[0052] In one feasible implementation, the protective element 200 and the plate 300 are bonded together with adhesive, and the protective element 200 is provided with an adhesive groove 206 for accommodating adhesive.
[0053] Understandably, the protective component 200 and the plate 300 are bonded together with glue, which can improve the connection strength between the protective component 200 and the plate 300. The glue groove 206 can reduce the difficulty of applying glue between the protective component 200 and the plate 300, thereby improving the installation efficiency between the protective component 200 and the plate 300.
[0054] In another feasible implementation, the protective element 200 and the plate 300 are connected by nails.
[0055] Understandably, the protective component 200 and the plate 300 are connected by nails, which has the advantage of simple installation and can improve the connection strength between the protective component 200 and the plate 300.
[0056] It is understandable that there are no restrictions on the connection method between the protective component 200 and the plate 300, and it can be selected according to the actual use requirements.
[0057] It should be noted that there are multiple ways to connect the protective component 200 and the plate 300. Examples of the connection positions of the protective component 200 and the plate 300 will be given below.
[0058] In one feasible implementation, the bottom of the groove 201 of the protective member 200 is connected to the plate body 300.
[0059] Understandably, the bottom of the groove 201 of the protective component 200 can support the plate 300 to improve the connection stability between the protective component 200 and the plate 300.
[0060] In another feasible embodiment, the groove sidewall of the groove 201 of the protective member 200 is connected to the plate 300.
[0061] It is understandable that the groove sidewall of the groove 201 of the protective component 200 can limit the plate 300 to reduce the offset of the plate 300 relative to the wall 10, thereby improving the connection stability between the protective component 200 and the plate 300.
[0062] In addition, in other feasible embodiments, the bottom of the groove 201 of the protective member 200 and the sidewall of the groove 201 of the protective member 200 are respectively connected to the plate body 300.
[0063] It is understandable that the bottom of the groove 201 of the protective component 200 can support the plate 300, and the side wall of the groove 201 of the protective component 200 can limit the plate 300 to reduce the offset of the plate 300 relative to the wall 10, thereby improving the connection stability between the protective component 200 and the plate 300.
[0064] It is understandable that the connection position between the protective component 200 and the plate 300 is not restricted and can be selected according to actual usage requirements.
[0065] like Figure 2 and Figure 3 As shown, it should be noted that there are multiple mounting positions for the protrusion 205 and the recess 102. Examples of the mounting positions for the protrusion 205 and the recess 102 will be given below.
[0066] In one possible implementation, a protrusion 205 is formed on the protective member 200 and extends toward the side closer to the mounting member 100, and a recess 102 is formed on the mounting member 100 and extends toward the side away from the protective member 200, with the protrusion 205 and the recess 102 being configured to cooperate.
[0067] It is understandable that the protrusion 205 and the recess 102 cooperate to increase the contact area between the protective member 200 and the mounting member 100, thereby improving the connection strength between the protective member 200 and the mounting member 100. Furthermore, the protrusion 205 and the recess 102 can assist in the positioning of the mounting member 100 and the protective member 200 during installation.
[0068] In another feasible embodiment, a protrusion 205 is formed on the mounting member 100 and extends toward the side closer to the protective member 200, and a recess 102 is formed on the protective member 200 and extends toward the side away from the protective member 200. The protrusion 205 and the recess 102 are configured to cooperate.
[0069] It is understandable that the protrusion 205 and the recess 102 cooperate to increase the contact area between the protective member 200 and the mounting member 100, thereby improving the connection strength between the protective member 200 and the mounting member 100. Furthermore, the protrusion 205 and the recess 102 can assist in the positioning of the mounting member 100 and the protective member 200 during installation.
[0070] like Figure 4 and Figure 5As shown, in another feasible embodiment, multiple protrusions 205 and recesses 102 are provided, with each protrusion 205 and recess 102 corresponding to the other. A portion of the protrusions 205 are formed on the mounting member 100 and extend toward the side closer to the protective member 200. A portion of the recesses 102 are formed on the protective member 200 and extend toward the side away from the protective member 200. Another portion of the protrusions 205 are formed on the mounting member 100 and extend toward the side closer to the protective member 200. The other portion of the recesses 102 are formed on the protective member 200 and extend toward the side away from the protective member 200. The protrusions 205 and recesses 102 are provided in a cooperative manner.
[0071] It is understandable that the protrusion 205 and the recess 102 cooperate to increase the contact area between the protective member 200 and the mounting member 100, thereby improving the connection strength between the protective member 200 and the mounting member 100. Furthermore, the protrusion 205 and the recess 102 can assist in the positioning of the mounting member 100 and the protective member 200 during installation.
[0072] It is understandable that the installation positions of the protrusion 205 and the recess 102 are not restricted and can be selected according to actual usage requirements.
[0073] The partition wall provided in the embodiments of this application further includes: a fixing member 400, which is disposed on the protective member 200 and connected to the mounting member 100. The fixing member 400 is used to limit the relative movement between the protective member 200 and the mounting member 100.
[0074] Understandably, the fastener 400 is designed to limit the relative movement between the protective element 200 and the mounting element 100, thereby improving the connection strength between the protective element 200 and the mounting element 100.
[0075] It should be noted that the fastener 400 has several different settings, and the following examples illustrate the different settings of the fastener 400.
[0076] In one feasible embodiment, the fastener 400 is an adhesive that is bonded between the protective member 200 and the mounting member 100, and the adhesive is used to fix the protective member 200 and the mounting member 100.
[0077] Understandably, the use of adhesive can reduce the difficulty of connecting the protective component 200 and the mounting component 100.
[0078] In another feasible embodiment, the fastener 400 is a bolt, the protrusion 205 has a first bolt hole, the recess 102 has a second bolt hole, the bolt is respectively fitted with the first bolt hole and the second bolt hole, and the protective member 200 has an abutment portion located on the side of the bolt away from the mounting member 100, the abutment portion is used to connect with the plate 300.
[0079] Understandably, the bolts improve the connection stability between the protective component 200 and the mounting component 100, thereby increasing the connection strength and extending the service life of the protective component 200 and the mounting component 100. The abutment portion connects to the plate 300, increasing the contact area between the plate 300 and the protective component 200. The abutment portion is located on the side of the bolt away from the mounting component 100, which reduces direct contact between the plate 300 and the bolt, thereby reducing stress concentration on the plate 300 and improving the service life of the plate 300.
[0080] Understandably, there are no restrictions on the specific setting of the fastener 400; it can be selected according to actual usage requirements.
[0081] It should be noted that when the fastener is a bolt, there are multiple bolts, and these multiple bolts can be arranged in various ways. Examples of the arrangement of multiple bolts will be given below.
[0082] In one feasible implementation, multiple bolts are spaced apart along the length of the mounting member 100.
[0083] Understandably, increasing the number of bolts can improve the connection strength between the mounting component 100 and the protective component 200, thereby extending the service life of the partition wall.
[0084] In another feasible implementation, multiple bolts are spaced apart along the width of the mounting member 100.
[0085] It is understandable that increasing the number of bolts can improve the connection strength between the mounting component 100 and the protective component 200, and reduce the occurrence of stress concentration between the mounting component 100 and the protective component 200, thereby extending the service life of the partition wall.
[0086] In addition, in another feasible embodiment, multiple bolts are staggered on the mounting member 100.
[0087] Understandably, the staggered arrangement of multiple bolts on the mounting component 100 can reduce stress concentration between the mounting component 100 and the protective component 200, and can also reduce the connection difficulty between the mounting component 100 and the protective component 200, thereby improving the installation efficiency of the partition wall panel.
[0088] Understandably, there are no restrictions on the arrangement of multiple bolts; they can be selected according to actual usage requirements.
[0089] The mounting component 100 provided in the embodiments of this application has a first positioning part 101, and the protective component 200 has a second positioning part 202. The first positioning part 101 and the second positioning part 202 are configured to cooperate with each other.
[0090] It is understandable that the first positioning part 101 and the second positioning part 202 are configured in cooperation to reduce the connection difficulty between the mounting part 100 and the protective part 200, thereby improving the installation efficiency between the mounting part 100 and the protective part 200.
[0091] It should be noted that the first positioning part 101 and the second positioning part 202 provided in the embodiments of this application have a variety of different configuration methods. The configuration methods of the first positioning part 101 and the second positioning part 202 will be described with examples below.
[0092] In one feasible implementation, the first positioning part 101 is a buckle, and the second positioning part 202 is a slot, with the buckle and the slot being configured to cooperate.
[0093] Understandably, the combination of clips and slots can assist in positioning the mounting component 100 and the protective component 200, thereby reducing the difficulty of connecting the mounting component 100 and the protective component 200 and improving the installation efficiency between them.
[0094] In another feasible implementation, the first positioning part 101 is a key and the second positioning part 202 is a groove, and the key and the groove are configured to cooperate.
[0095] Understandably, the key and slot combination can assist in positioning the mounting part 100 and the protective part 200, thereby reducing the connection difficulty between the mounting part 100 and the protective part 200, thus improving the installation efficiency between the mounting part 100 and the protective part 200, and increasing the contact area between the mounting part 100 and the protective part 200, thereby improving the connection strength between the mounting part 100 and the protective part 200.
[0096] It is understandable that the configuration of the first positioning unit 101 and the second positioning unit 202 is not limited and can be selected according to actual usage requirements.
[0097] The embodiments of this application provide multiple protective elements 200, which are disposed on the mounting element 100 along the height direction of the vertical partition wall.
[0098] It is understandable that increasing the number of protective components 200 can increase the contact area between the protective components 200 and the plate 300, thereby improving the connection stability between the protective components 200 and the plate 300.
[0099] It should be noted that there are various different connection methods between multiple protective components 200. Examples of the connection methods between multiple protective components 200 are given below.
[0100] In one feasible implementation, two adjacent protective elements 200 among a plurality of protective elements 200 are connected end to end.
[0101] It is understandable that connecting two adjacent protective elements 200 end to end can improve the connection stability between the multiple protective elements 200.
[0102] In another feasible implementation, multiple protective elements 200 are spaced apart along the height direction of the vertical partition wall.
[0103] Understandably, the arrangement of multiple protective components 200 at intervals along the vertical height of the partition wall can reduce the processing cost of the protective components 200.
[0104] It is understandable that there are no restrictions on the specific connection method between multiple protective components 200, and it can be selected according to actual usage requirements.
[0105] like Figure 6 and Figure 7 As shown, the protective component 200 provided in the embodiment of this application includes: a first frame 203 and a second frame 204. The first frame 203 is fixedly connected to the mounting component 100 and connected to the plate 300, and the second frame 204 is fixedly connected to the mounting component 100 and connected to the plate 300. The first frame 203 and the second frame 204 are respectively disposed at both ends of the plate 300, and the first frame 203 and the second frame 204 are connected to form a groove 201.
[0106] Understandably, the connection between the first frame 203 and the second frame 204 to form a groove 201 reduces the difficulty of connecting the protective component 200 and the mounting component 100, thereby improving the installation efficiency between them. The first frame 203 and the second frame 204 are located at opposite ends of the panel 300, allowing them to cooperate and limit the offset of the panel 300, thus improving the safety performance of the partition wall.
[0107] It should be noted that there are several different ways to connect the first frame 203 and the second frame 204. The following are examples of the connection methods between the first frame 203 and the second frame 204.
[0108] In one feasible implementation, the first frame 203 is fixedly connected to the second frame 204.
[0109] It is understandable that the fixed connection between the first frame 203 and the second frame 204 can increase the contact area between the first frame 203 and the second frame 204, thereby improving the connection strength of the protective component 200.
[0110] In another feasible implementation, the first frame 203 and the second frame 204 are spaced apart.
[0111] It is understandable that the first frame 203 and the second frame 204 are spaced apart, which can reduce the processing cost of the first frame 203 and the second frame 204, thereby reducing the processing cost of the protective component 200.
[0112] It is understandable that the connection method between the first frame 203 and the second frame 204 is not restricted and can be selected according to actual usage requirements.
[0113] It should be noted that there are several different ways to connect the first frame 203 and the plate 300. The following are examples of the connection methods between the first frame 203 and the plate 300.
[0114] In one feasible implementation, the first frame 203 and the plate 300 are bonded together by adhesive, with the adhesive disposed between the first frame 203 and the plate 300.
[0115] It is understandable that the first frame 203 and the plate 300 are bonded together with glue, which can improve the connection strength between the first frame 203 and the plate 300 and reduce the connection difficulty between the first frame 203 and the plate 300, thereby improving the installation efficiency between the first frame 203 and the plate 300.
[0116] In another feasible implementation, the first frame 203 and the plate 300 are connected by nails.
[0117] It is understandable that the connection between the first frame 203 and the plate 300 is made by nails, which can improve the connection strength between the first frame 203 and the plate 300 and has the advantage of easy fixing, thereby improving the installation efficiency between the first frame 203 and the plate 300.
[0118] It is understandable that the connection method between the first frame 203 and the plate 300 is not restricted and can be selected according to actual usage requirements.
[0119] It should be noted that there are several different ways to connect the second frame 204 and the plate 300. The following are examples of the connection methods between the second frame 204 and the plate 300.
[0120] In one feasible implementation, the second frame 204 and the plate 300 are bonded together by adhesive, which is disposed between the second frame 204 and the plate 300.
[0121] It is understandable that the second frame 204 and the plate 300 are bonded together with glue, which can improve the connection strength between the second frame 204 and the plate 300 and reduce the connection difficulty between the second frame 204 and the plate 300, thereby improving the installation efficiency between the second frame 204 and the plate 300.
[0122] In another feasible implementation, the second frame 204 and the plate 300 are connected by nails.
[0123] It is understandable that the second frame 204 and the plate 300 are connected by nails, which can improve the connection strength between the second frame 204 and the plate 300 and has the advantage of easy fixing, thereby improving the installation efficiency between the second frame 204 and the plate 300.
[0124] It is understandable that the connection method between the second frame 204 and the board 300 is not restricted and can be selected according to actual usage requirements.
[0125] It should be noted that there are several different connection methods between the first frame 203 and the mounting component 100. The connection methods between the first frame 203 and the mounting component 100 will be illustrated below.
[0126] In one possible implementation, the mounting member 100 has a receiving groove 500, and at least a portion of the first frame 203 is located within the receiving groove 500.
[0127] It is understandable that the side of the first frame 203 away from the plate 300 is located in the receiving groove 500. The setting of the receiving groove 500 can reduce the connection difficulty between the first frame 203 and the mounting part 100, and can improve the connection strength between the first frame 203 and the mounting part 100.
[0128] In another possible implementation, the mounting member 100 and the wall 10 enclose a receiving groove 500, and at least a portion of the first frame 203 is located within the receiving groove 500.
[0129] It is understandable that the side of the first frame 203 away from the plate 300 is located in the receiving groove 500. The setting of the receiving groove 500 can reduce the connection difficulty between the first frame 203, the mounting part 100 and the wall 10, and can improve the connection strength between the first frame 203, the mounting part 100 and the wall 10.
[0130] It is understandable that there are no restrictions on the connection method between the first frame 203 and the mounting component 100, and it can be selected according to actual usage requirements.
[0131] It should be noted that there are several different connection methods between the second frame 204 and the mounting component 100. The connection methods between the second frame 204 and the mounting component 100 will be illustrated below.
[0132] In one possible implementation, the mounting member 100 has a receiving groove 500, and at least a portion of the second frame 204 is located within the receiving groove 500.
[0133] It is understandable that the side of the second frame 204 away from the plate 300 is located in the receiving groove 500. The setting of the receiving groove 500 can reduce the connection difficulty between the second frame 204 and the mounting part 100, and can improve the connection strength between the second frame 204 and the mounting part 100.
[0134] In another possible implementation, the mounting member 100 and the wall 10 enclose a receiving groove 500, and at least a portion of the second frame 204 is located within the receiving groove 500.
[0135] It is understandable that the side of the second frame 204 away from the plate 300 is located in the receiving groove 500. The setting of the receiving groove 500 can reduce the connection difficulty between the second frame 204, the mounting part 100 and the wall 10, and can improve the connection strength between the second frame 204, the mounting part 100 and the wall 10.
[0136] It is understandable that there are no restrictions on the connection method between the second frame 204 and the mounting component 100, and it can be selected according to the actual usage requirements.
[0137] like Figure 8 As shown, the partition wall provided in the embodiments of this application further includes: at least one auxiliary member 600, one end of the auxiliary member 600 is connected to the wall 10, and the other end of the auxiliary member 600 is connected to at least one of the protective member 200 and the panel 300.
[0138] Understandably, the installation of the auxiliary component 600 can improve the connection stability between at least one of the protective component 200 and the plate 300 and the wall 10, thereby improving the connection stability between the partition wall and the wall 10.
[0139] It should be noted that the auxiliary component 600 has several different settings, and the following examples illustrate the settings of the auxiliary component 600.
[0140] In one feasible implementation, the auxiliary component 600 is a facade tie rod.
[0141] Understandably, the installation of facade tie rods can improve the connection stability between the wall 10 and at least one of the protective components 200 and the panel 300, and can also improve the load-bearing capacity of the wall 10 and at least one of the protective components 200 and the panel 300, thereby increasing the service life of the partition wall panel. Furthermore, the facade tie rods allow at least one of the protective components 200 and the panel 300 to be suspended from the wall 10, enabling the partition wall panel to be installed at an adjustable height according to the height of the wall 10, thus accommodating the installation of partition wall panels of various heights.
[0142] In another feasible implementation, the auxiliary component 600 is a steel cable.
[0143] Understandably, the steel cable can suspend at least one of the protective element 200 and the panel 300 from the wall 10, so that the installation height of the partition panel can be adjusted according to the height of the wall 10 to accommodate the installation of partition panels of various different heights.
[0144] Understandably, there are no restrictions on how the auxiliary component 600 is set up; it can be selected according to actual usage needs.
[0145] It should be noted that the auxiliary component 600 has a variety of different settings, and the following examples illustrate the different settings of the auxiliary component 600.
[0146] In one feasible implementation, an auxiliary component 600 is provided, with one end of the auxiliary component 600 connected to the wall 10 and the other end of the auxiliary component 600 connected to the protective component 200.
[0147] Understandably, the auxiliary component 600 allows the protective component 200 to be suspended from the wall 10, so that the partition wall can be adapted to the installation of walls 10 of various different heights.
[0148] In another feasible implementation, two auxiliary components 600 are provided, wherein one end of the first auxiliary component 600 is connected to the wall 10 and the other end of the auxiliary component 600 is connected to one side surface of the plate 300, and one end of the second auxiliary component 600 is connected to the wall 10 and the other end of the auxiliary component 600 is connected to the other side surface of the plate 300.
[0149] Understandably, the auxiliary component 600 allows the panel 300 to be suspended from the wall 10, so that the partition wall can be adapted to the installation of walls 10 of various different heights. The two auxiliary components 600 are respectively placed on the two sides of the panel 300, which can evenly distribute the force on both sides of the panel 300, thereby reducing the occurrence of the panel 300 tilting relative to the wall 10.
[0150] In addition, in another feasible embodiment, three auxiliary components 600 are provided, wherein the auxiliary component 600 located in the middle of the three auxiliary components 600 is the first auxiliary component 601, and the two sides of the middle auxiliary component 600 are the second auxiliary component 602 and the third auxiliary component 603, respectively. The first auxiliary component 601 is connected to the protective component 200, and the second auxiliary component 602 and the third auxiliary component 603 are respectively connected to the plate body 300.
[0151] Understandably, the first auxiliary component 601 allows the protective component 200 to be suspended from the wall 10, enabling the partition wall panel to be installed on walls 10 of various heights. The second auxiliary component 602 and the third auxiliary component 603 allow the panel 300 to be suspended from the wall 10, enabling the partition wall panel to be installed on walls 10 of various heights. The second auxiliary component 602 and the third auxiliary component 603 are respectively located on the two sides of the panel 300, which can evenly distribute the force on both sides of the panel 300, thereby reducing the occurrence of tilting of the panel 300 relative to the wall 10.
[0152] It should be noted that the second auxiliary component 602 and the third auxiliary component 603 are connected to the plate 300 by connecting brackets 604 and connecting screws 605. There are two connecting brackets 604. One end of one of the two connecting brackets 604 is connected to the second auxiliary component 602, and the other end of the connecting bracket 604 is connected to the wall 10. One end of the other connecting bracket 604 is connected to the third auxiliary component 603, and the other end of the connecting bracket 604 is connected to the wall 10. A through hole is provided on the wall 10. The two connecting brackets 604 and the wall 10 are fixedly connected by connecting screws 605, which pass through the wall.
[0153] It is understandable that the design of the connecting bracket 604, connecting screw 605, and through hole can ensure that the connection positions of the second auxiliary component 602, the third auxiliary component 603, and the plate 300 are in the same straight line, thereby reducing the occurrence of plate 300 offset and improving the operational stability of plate 300.
[0154] Understandably, there is no limit to the number of auxiliary components 600 that can be set, and they can be selected according to actual usage needs.
[0155] It should be noted that when there are three auxiliary components 600, the first auxiliary component 601, the second auxiliary component 602 and the third auxiliary component 603 form a group of auxiliary components. Along the extension direction of the partition wall, there are multiple auxiliary components, which are spaced apart.
[0156] Understandably, increasing the number of auxiliary components can improve the connection strength between the partition wall and the wall 10.
[0157] It should be noted that the terms "one embodiment," "embodiment," "exemplary embodiment," "some embodiments," etc., mentioned in the specification indicate that the described embodiment may include a specific feature, structure, or characteristic, but not every embodiment necessarily includes that specific feature, structure, or characteristic. Furthermore, such phrases do not necessarily refer to the same embodiment. Moreover, when a specific feature, structure, or characteristic is described in connection with an embodiment, implementing such a feature, structure, or characteristic in conjunction with other embodiments, whether explicitly described or not, is within the knowledge scope of those skilled in the art.
[0158] Generally speaking, terms should be understood at least in part by their use in context. For example, at least in part by context, the term "one or more" as used in the text can be used to describe any feature, structure, or characteristic of the singular meaning, or a combination of features, structures, or characteristics of the plural meaning. Similarly, at least in part by context, terms such as "a" or "the" can also be understood to convey either singular or plural usage.
[0159] It should be readily understood that the terms “on,” “above,” and “on top of” in this application should be interpreted in the broadest possible sense, such that “on” means not only “directly on something” but also “on something” with an intermediate feature or layer therebetween, and that “above” or “on top of” means not only “on top of something” but also “on top of something” without an intermediate feature or layer therebetween (i.e., directly on something).
[0160] Furthermore, for ease of explanation, spatially relative terms such as "below," "below," "under," "above," and "above" may be used to describe the relationship of one element or feature relative to other elements or features as shown in the figures. Spatially relative terms are intended to encompass different orientations of the device in use or operation other than those shown in the figures. The device may have other orientations (rotated 90° or in other orientations), and the spatially relative descriptive terms used herein may be interpreted accordingly.
[0161] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this application, and are not intended to limit them. Although this application has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some or all of the technical features therein. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of this application.
Claims
1. A partition wall panel, characterized in that, include: Mounting component (100) for connecting to an external wall (10); At least one protective element (200) is connected to the mounting element (100), the protective element (200) having a groove (201); A plate (300) is disposed in the groove (201), and at least a portion of the plate (300) is connected to at least a portion of the protective member (200); One of the protective member (200) and the mounting member (100) has at least one protrusion (205), and the other of the protective member (200) and the mounting member (100) has at least one recess (102), the protrusion (205) and the recess (102) being configured to cooperate.
2. A partition wall panel according to claim 1, characterized in that, Also includes: A fixing member (400) is provided on the protective member (200) and connected to the mounting member (100), the fixing member (400) being used to limit the relative movement between the protective member (200) and the mounting member (100).
3. A partition wall panel according to claim 2, characterized in that, The fastener (400) is a bolt, the protrusion (205) has a first bolt hole, the recess (102) has a second bolt hole, and the bolt is respectively configured to cooperate with the first bolt hole and the second bolt hole; The protective member (200) has an abutment portion located on the side of the bolt away from the mounting member (100), the abutment portion being used to connect with the plate (300).
4. A partition wall panel according to claim 1, characterized in that, The mounting component (100) has a first positioning part (101), and the protective component (200) has a second positioning part (202), the first positioning part (101) and the second positioning part (202) are configured to cooperate.
5. A partition wall panel according to claim 1, characterized in that, The protrusions (205) are provided in multiple ways, and the recesses (102) are provided in multiple ways, with each of the protrusions (205) and the recesses (102) corresponding to each other.
6. A partition wall panel according to any one of claims 1-5, characterized in that, Multiple protective components (200) are provided, and the multiple protective components (200) are respectively disposed on the mounting component (100) along the height direction perpendicular to the partition wall plate.
7. A partition wall panel according to any one of claims 1-5, characterized in that, The protective component (200) includes a first frame (203) and a second frame (204). The first frame (203) is fixedly connected to the mounting component (100) and connected to the plate (300). The second frame (204) is fixedly connected to the mounting component (100) and connected to the plate (300). The first frame (203) and the second frame (204) are respectively disposed at both ends of the plate (300). The first frame (203) and the second frame (204) are connected to enclose and form the groove (201).
8. A partition wall panel according to claim 7, characterized in that, The mounting component (100) has a receiving groove (500) in which at least a portion of the first frame (203) and the second frame (204) are located; And / or, the mounting member (100) and the wall (10) enclose to form the receiving groove (500), at least a portion of the first frame (203) and the second frame (204) are located within the receiving groove (500).
9. A partition wall panel according to any one of claims 1-5, characterized in that, Also includes: At least one auxiliary component (600) is provided, one end of which is connected to the wall (10), and the other end of which is connected to at least one of the protective component (200) and the plate (300).
10. A partition wall panel according to claim 9, characterized in that, At least three auxiliary components (600) are provided, wherein the auxiliary component (600) located in the middle of the three auxiliary components (600) is the first auxiliary component (601), and the auxiliary components (602) and the third auxiliary component (603) located on both sides of the middle auxiliary component (600) are respectively. The first auxiliary component (601) is connected to the protective component (200), and the second auxiliary component (602) and the third auxiliary component (603) are respectively connected to the plate body (300).