Waterproofing membrane laying guide with anti-derailment structure
By designing components such as the guide rail frame and limit rod of the waterproof membrane laying guide, the problem of misalignment during waterproof membrane construction was solved, achieving an efficient and tight laying effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HEBEI YUYUAN WIN-WIN CONSTRUCTION TECHNOLOGY CO LTD
- Filing Date
- 2025-07-09
- Publication Date
- 2026-06-26
Smart Images

Figure CN224413176U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of waterproof membrane technology, specifically a waterproof membrane laying guide with an anti-deviation structure. Background Technology
[0002] Waterproof membranes are mainly used in building walls, roofs, tunnels, highways, landfills, etc., to resist external rainwater and groundwater seepage. They are flexible building materials that can be rolled up. During construction, waterproof membranes are used to effectively protect the foundation from leakage during the building construction process.
[0003] During the application of waterproof membranes, the sticker on the bottom side needs to be peeled off so that it can be laid flat on the building substrate using the adhesive on the bottom side. However, existing waterproof membranes are prone to shifting when applied to large building substrates, thus affecting the laying effect. To address this issue, a waterproof membrane laying guide with an anti-shift structure is proposed to solve the above problems. Utility Model Content
[0004] The purpose of this utility model is to provide a waterproof membrane laying guide with an anti-deviation structure to solve the problem mentioned in the background art that the existing waterproof membrane is prone to deviation when it is used on a large building base surface, thus affecting its laying effect.
[0005] To achieve the above objectives, the present invention provides the following technical solution: a waterproof membrane laying guide with an anti-deviation structure, comprising a guide rail frame, wherein a groove is provided on the upper end face of the guide rail frame, and multiple sets of vertical through holes are provided on the outer side of the groove on the guide rail frame, and multiple sets of horizontal through holes are correspondingly provided on the outer side of the groove on the guide rail frame, wherein a limiting rod is inserted into the through hole, and the other end of the limiting rod is inserted into the building base surface;
[0006] A slide rod is inserted into the slide groove of the guide rail frame, and the upper end of the slide rod is threaded on the outer wall. A fixing rod is screwed on the upper end of the slide rod, and a support plate is provided on the opposite side of the fixing rod. A locking rod is inserted through the support plate, and the locking rod is provided on the fixing block. A take-up roller is inserted between the fixing blocks, and a waterproof roll is wound on the take-up roller.
[0007] The fixing block has connecting rods on one side of its outer wall, and the connecting rods have fixing frames at their lower ends. Pressure rollers are inserted through the fixing frames, and scrapers are provided on the outer wall of the fixing block below the connecting rods.
[0008] Preferably, the guide rail frame has multiple sets of limiting rods inserted into the through holes to form a locking and limiting structure with the building base surface.
[0009] Preferably, the slide bar forms a sliding structure with the guide rail via a slide groove, and the fixed rod and the slide bar form a helical locking structure.
[0010] Preferably, the take-up roller is inserted into the support plate by a locking rod to form a locking and limiting structure with the fixing rod.
[0011] Preferably, the pressure roller is provided with rotating blocks at both ends, and the rotating blocks are inserted through both ends of the fixed frame, and the pressure roller and the fixed frame form a rotating structure.
[0012] Compared with the prior art, the beneficial effects of this utility model are as follows: The guide rail frame of the waterproof membrane laying guide with anti-deviation structure forms a locking and limiting structure with the building base surface through multiple sets of limiting rods inserted into the through holes. The limiting rods facilitate the limiting installation of the guide rail frame, so as to assist the laying process of the waterproof membrane through the guide rail frame. The sliding rod of the device forms a sliding structure with the guide rail frame through the sliding groove, and the fixed rod and the sliding rod form a spiral locking structure. This facilitates the adjustment of the height of both ends of the take-up roller according to the installation position of the guide rail frame, so as to ensure that the take-up roller can lay the waterproof membrane normally. The pressure roller of the device has rotating blocks at both ends, and the rotating blocks are inserted into both ends of the fixed frame. The pressure roller and the fixed frame form a rotating structure, so as to facilitate the compression of the waterproof membrane during the laying process through the pressure roller, further ensuring the flat laying effect of the waterproof membrane while ensuring its tight connection with the building base surface. Attached Figure Description
[0013] Figure 1 This is a schematic diagram of a waterproof membrane laying guide with an anti-deviation structure according to the present invention;
[0014] Figure 2 This is a top view of the guide rail frame assembly for a waterproof membrane laying guide with an anti-deviation structure according to the present invention.
[0015] Figure 3 This is a side view of the guide rail frame assembly of a waterproof roll material laying guide with an anti-deviation structure according to the present invention.
[0016] Figure 4 This is a side view of the pressure roller assembly of a waterproof membrane laying guide with an anti-deviation structure according to the present invention.
[0017] In the diagram: 1. Guide rail frame, 2. Limiting rod, 3. Sliding rod, 4. Fixing rod, 5. Support plate, 6. Clamping rod, 7. Rewinding roller, 8. Waterproof membrane, 9. Connecting rod, 10. Fixing frame, 11. Pressure roller, 12. Scraper. Detailed Implementation
[0018] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0019] Please see Figure 1-4 This utility model provides a technical solution: a waterproof membrane laying guide with an anti-deviation structure, including a guide rail frame 1. The guide rail frame 1 has a groove on its upper end face, and multiple sets of vertical through holes are opened on the outer side of the groove on the guide rail frame 1. Correspondingly, multiple sets of horizontal through holes are opened on the outer side of the groove on the guide rail frame 1. A limiting rod 2 is inserted into the through holes, and the other end of the limiting rod 2 is inserted into the building base surface. It should be noted that the guide rail frame 1 of appropriate length should be selected according to the size of the building base surface to be constructed.
[0020] Furthermore, the guide rail frame 1 forms a locking and limiting structure with the building base surface by multiple sets of limiting rods 2 inserted into the through hole, which facilitates the locking and placement of the guide rail frame 1 on the building base surface, so as to guide the laying route of the waterproof membrane 8 through the guide rail frame 1.
[0021] A slide rod 3 is inserted into the slide groove of the guide rail frame 1, and the upper end of the slide rod 3 is threaded on the outer wall. A fixing rod 4 is screwed on the upper end of the slide rod 3, and a support plate 5 is provided on the opposite side of the fixing rod 4. A locking rod 6 is inserted into the support plate 5, and the locking rod 6 is respectively provided on the fixing block. A take-up roller 7 is inserted between the fixing blocks, and a waterproof roll 8 is wound on the take-up roller 7.
[0022] Furthermore, the slide bar 3 forms a sliding structure with the guide rail frame 1 through the slide groove, and the fixed rod 4 forms a spiral locking structure with the slide bar 3. Thus, the slide bar 3 and the guide rail frame 1 ensure that the waterproof membrane 8 can be moved and laid on the predetermined track, thereby avoiding the deviation of the waterproof membrane 8 during the laying process. At the same time, the height of the take-up roller 7 can be adjusted through the fixed rod 4 and the slide bar 3 to ensure that the two ends of the take-up roller 7 are flush.
[0023] Furthermore, the take-up roller 7 is inserted into the support plate 5 via the locking rod 6 to form a locking and limiting structure with the fixing rod 4, thereby facilitating the locking and installation of take-up rollers 7 of different sizes onto the fixing rod 4 for use.
[0024] The fixed block is provided with connecting rods 9 on one side of its outer wall, and the connecting rods 9 are provided with a fixing frame 10 at their lower ends. A pressure roller 11 is inserted through the fixing frame 10. Scrapers 12 are provided on the outer wall of the fixed block below the connecting rods 9. It should be noted that the scraper 12 in this device has an opening at one end of the winding roller 7, so as to ensure that the scraper 12 is used without affecting the rotation process of the winding roller 7. In addition, the connecting rods 9, scrapers 12 and other fixed connection components in this device are all installed by welding, spiral or other methods according to the actual situation to ensure normal operation and stability during operation.
[0025] Furthermore, the pressure roller 11 is provided with rotating blocks at both ends, and the rotating blocks are inserted through both ends of the fixed frame 10. The pressure roller 11 and the fixed frame 10 form a rotating structure, so that the waterproof membrane 8 can be squeezed by the pressure roller 11, thereby ensuring its flatness and adhesion.
[0026] Working principle: When using a waterproof membrane laying guide with an anti-deviation structure, if the waterproof membrane 8 needs to be laid on a building base surface that is closed on all four sides, one end of the waterproof membrane 8 can be aligned with the edge of the building base surface first, so that the waterproof membrane 8 can be laid on all four sides of the building base surface, so that the middle position of the building base surface can be constructed later. If the four sides of the building base surface are exposed, the guide rail frame 1 can be locked and placed on the side of the building base surface by the horizontal limiting rod 2. At the same time, the other set of guide rail frames 1 can be locked and placed on the upper surface of the building base surface by the vertical limiting rod 2. Meanwhile, the sliding rod 3 can be rotated, so that the height of the fixing rod 4 can be adjusted without affecting the state of the fixing rod 4, so that the support plates 5 on the two sets of fixing rods 4 are in a flush state. After the guide rail frame 1 is placed, the take-up roller 7 can be locked and placed by the locking rod 6, and the sliding rod 3 is inserted into the corresponding guide rail frame 1, so that the movement trajectory of the waterproof membrane 8 is guaranteed by the guide rail frame 1 and the sliding rod 3. The waterproof membrane 8 is laid in the same direction as the building base surface, thus avoiding deviation during the laying process and ensuring laying efficiency. During the laying process of the waterproof membrane 8, the sticker on the lower end of the waterproof membrane 8 can be peeled off, allowing one end to pass between the scraper 12 and the connecting rod 9, and the other end to be inserted under the pressure roller 11, so that it adheres to the building base surface and is bonded to it with the adhesive on its lower end surface. Then, the sliding rod 3 can drive the take-up roller 7 to move, and at the same time, the take-up roller 7 rotates, thereby guiding the laying of the waterproof membrane 8. At the same time, the pressure roller 11 can squeeze the laid waterproof membrane 8 to ensure its flatness and effectively ensure the tight connection between the waterproof membrane 8 and the building base surface. During the laying process of the waterproof membrane 8, the scraper 12 can be used to clean the building base surface, thereby avoiding the presence of pebbles or other particulate impurities on the building base surface from affecting the laying effect of the waterproof membrane 8. This is the usage process of the waterproof membrane laying guide with anti-deviation structure.
[0027] Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.
Claims
1. A waterproofing membrane laying guide with anti- drift structure comprising a rail frame (1) characterised in that: The guide rail frame (1) has a sliding groove on its upper end face, and the outer side of the sliding groove has multiple sets of vertical through holes on the guide rail frame (1), and the outer side of the sliding groove has multiple sets of horizontal through holes on the guide rail frame (1). A limit rod (2) is inserted into the through hole, and the other end of the limit rod (2) is inserted into the building base surface. A slide rod (3) is inserted into the slide groove of the guide rail frame (1), and the slide rod (3) is threaded on the outer wall near the upper end. A fixing rod (4) is screwed on the upper end of the slide rod (3), and a support plate (5) is provided on the opposite side of the fixing rod (4). A locking rod (6) is inserted on the support plate (5), and the locking rod (6) is provided on the fixing block. A take-up roller (7) is inserted between the fixing blocks, and a waterproof roll material (8) is wound on the take-up roller (7). The fixing block is provided with connecting rods (9) on one side of the outer wall, and the connecting rods (9) are provided with a fixing frame (10) at the lower end. A pressure roller (11) is inserted on the fixing frame (10), and a scraper (12) is provided on the outer wall of the fixing block below the connecting rods (9).
2. A waterproofing membrane laying guide with anti- drift structure according to claim 1, characterized in that: The guide rail frame (1) is fitted with the building base surface by multiple sets of limiting rods (2) inserted into the through hole.
3. A waterproof membrane laying guide with an anti-deviation structure according to claim 1, characterized in that: The slide bar (3) forms a sliding structure with the guide rail frame (1) through the slide groove, and the fixed rod (4) forms a spiral locking structure with the slide bar (3).
4. A waterproof membrane laying guide with an anti-deviation structure according to claim 1, characterized in that: The take-up roller (7) is inserted into the support plate (5) by the locking rod (6) and forms a locking and limiting structure with the fixing rod (4).
5. A waterproof membrane laying guide with an anti-deviation structure according to claim 1, characterized in that: The pressure roller (11) has rotating blocks at both ends, and the rotating blocks are inserted into both ends of the fixed frame (10), and the pressure roller (11) and the fixed frame (10) form a rotating structure.