CN221095850U - Steel plastic template supporting structure - Google Patents

Abstract

The utility model belongs to the technical field of steel-plastic template support, and particularly relates to a steel-plastic template support structure, which comprises angle steel outer frames spliced with each other and a plurality of compression bars which are used for abutting against the angle steel outer frames and are arranged in parallel, wherein the compression bars are fixedly arranged through a set opposite-pull assembly; the adjacent compression bars are provided with diagonal rods which are obliquely arranged through opposite-pull assemblies, and positioning assemblies used for being clamped with the angle steel outer frames are slidably arranged on the diagonal rods; the positioning assembly comprises a clamping sleeve used for clamping the angle steel outer frame, a pressing block is clamped on one side of the clamping sleeve, deviating from the angle steel outer frame, the pressing block is inserted through a screw rod arranged on the clamping sleeve, and the pressing block is clamped and installed through a compression nut installed on the screw rod through threads at the end part of the screw rod. The utility model can realize that the positioning stability of the steel plastic mold plate is improved, and the drawing screw rod can be taken out and recycled.

Description

Steel plastic template supporting structure

Technical Field

The utility model belongs to the technical field of steel-plastic template support, and particularly relates to a steel-plastic template support structure.

Background

In the pouring process of the building, the building needs to be shaped through the templates and supported through the supporting structure so as to improve the stability of the building, and the steel-plastic templates are produced by synthesizing and modifying recycled waste plastics, so that the production cost is greatly reduced, waste recycling can be realized, and in practical application, the building is easy to detach and saves labor. Because the steel-plastic mould plate is produced by adopting inorganic engineering plastics, the affinity between the plate surface and the concrete is extremely poor, the plate surface is naturally separated after the concrete is washed, and the mould plate is very convenient to disassemble, so that the damage rate of the mould plate is reduced, and the construction progress is accelerated.

Problems of the prior art:

When the steel-plastic template supporting structure is used for pouring, when the opposite-pulling screw rod is used, the opposite-pulling screw rod is often reserved in a pouring body after cement is solidified, the concrete cannot be taken out, and when the detachable opposite-pulling screw rod is adopted, the steel-plastic template is unstable in positioning.

Disclosure of utility model

The utility model aims to provide a steel-plastic mold plate supporting structure which can improve the positioning stability of the steel-plastic mold plate, take out a pull screw rod and recycle the pull screw rod.

The technical scheme adopted by the utility model is as follows:

The steel-plastic template supporting structure comprises angle steel outer frames which are spliced with each other and a plurality of compression bars which are used for abutting against the angle steel outer frames and are arranged in parallel, wherein the compression bars are fixedly installed through a oppositely-pulled assembly;

The adjacent compression bars are provided with diagonal rods which are obliquely arranged through opposite-pull assemblies, and positioning assemblies used for being clamped with the angle steel outer frames are slidably arranged on the diagonal rods;

The positioning assembly comprises a clamping sleeve used for clamping the angle steel outer frame, a pressing block is clamped on one side of the clamping sleeve, deviating from the angle steel outer frame, the pressing block is inserted through a screw rod arranged on the clamping sleeve, and the pressing block is clamped and installed through a compression nut installed on the screw rod through threads at the end part of the screw rod.

The compression bar is provided with a waist-shaped hole, the opposite-pulling assembly is inserted into the waist-shaped hole, and the opposite-pulling assembly is sleeved with a pressing plate which is used for being abutted to the outer side of the waist-shaped hole.

The utility model discloses a pull rod, including pull rod, push rod, clamp plate, screw rod, pull rod both ends all weld to connect the end piece to the pull rod both ends, the pull assembly includes the pull rod to the pull rod, it is provided with the screw block to the integrative on the pull rod, the pull rod runs through the plug-in connection end piece surface, and through screw block butt is in the connection end piece outside, the clamp plate is located and connects end piece one side that deviates from the screw block.

And a sleeve is sleeved on the opposite-pull screw rod.

The clamping sleeve is fixed with the lug on one side deviating from the angle steel outer frame, the screw is fixed in the middle of the lug, the latch is arranged on one side of the adjacent pressing block of the lug, and one side of the adjacent latch of the pressing block is matched with the latch.

The side of the pressing block is fixedly provided with a connecting block, sleeve holes are formed in two sides of the connecting block in a penetrating mode, and the sleeve holes are used for being inserted into the diagonal draw bars and matched with the diagonal draw bars.

The pressing block is connected with the latch in a meshed manner through the abutting connection of the pressing nut.

The utility model has the technical effects that:

according to the utility model, the installation stability of the angle steel outer frame is improved through the diagonal draw bar, the angle steel outer frame is prevented from shifting in the pouring process, the diagonal draw bar is positioned and installed through the opposite draw assemblies at the two ends, and after the diagonal draw bar is installed, the diagonal draw bar is sleeved with the positioning assembly for realizing clamping connection with the angle steel outer frame.

According to the utility model, the sleeve is sleeved on the opposite-pull screw, and after cement pouring is completed and solidified, the opposite-pull screw is pulled out by the following technical mode, so that the effect of recycling is achieved.

Drawings

FIG. 1 is a schematic structural installation of the present utility model;

FIG. 2 is a schematic illustration of the structure of the pull-up assembly of the present utility model;

FIG. 3 is a schematic view of a positioning assembly according to the present utility model.

In the drawings, the list of components represented by the various numbers is as follows:

1. An angle steel outer frame;

2. A compression bar; 201. a waist-shaped hole;

3. a diagonal draw bar; 301. connecting end pieces;

4. A positioning assembly; 401. a cutting sleeve; 402. a bump; 403. latch teeth; 404. briquetting; 405. a connecting block; 406. trepanning; 407. a compression nut; 408. a screw;

5. A pull-up assembly; 501. a counter-pulling screw; 502. a screw block; 503. a pressing plate; 504. a sleeve.

Detailed Description

The present utility model will be specifically described with reference to examples below in order to make the objects and advantages of the present utility model more apparent. It should be understood that the following text is intended to describe only one or more specific embodiments of the utility model and does not limit the scope of the utility model strictly as claimed.

As shown in fig. 1, a steel-plastic template supporting structure comprises angle steel outer frames 1 spliced with each other and a plurality of compression bars 2 which are used for being abutted with the angle steel outer frames 1 and are arranged in parallel, wherein the compression bars 2 are fixedly installed through a set opposite-pull assembly 5.

Wherein, adjacent depression bar 2 is provided with oblique pull rod 3 that the slope set up through opposite pull subassembly 5 installation, slidable mounting has the locating component 4 that is used for with angle steel frame 1 joint on the oblique pull rod 3.

In order to improve the installation stability of the angle steel outer frame 1 through the diagonal draw bar 3 and avoid the angle steel outer frame 1 from shifting in the pouring process, the aim of solving is achieved through the following technical scheme:

Referring to fig. 2 and 3, the positioning assembly 4 includes a clamping sleeve 401 for clamping the angle steel outer frame 1, a pressing block 404 is clamped on one side of the clamping sleeve 401 away from the angle steel outer frame 1, and the pressing block 404 is inserted through a screw 408 arranged on the clamping sleeve 401 and clamped by a compression nut 407 installed through threads at the end of the screw 408.

Further, a protruding block 402 is fixed on one side of the clamping sleeve 401, which is away from the angle steel outer frame 1, a screw 408 is fixed in the middle of the protruding block 402, a latch 403 is arranged on one side of the protruding block 402, which is adjacent to the pressing block 404, and one side of the pressing block 404, which is adjacent to the latch 403, is matched with the latch 403.

Furthermore, a connecting block 405 is fixed on the side of the pressing block 404, and sleeve holes 406 are formed on two sides of the connecting block 405 in a penetrating manner, and the sleeve holes 406 are used for inserting the diagonal draw bars 3 and are matched with the diagonal draw bars 3.

According to the structure, the working principle is that the angle steel outer frame 1 after installation is required to be further positioned, so the diagonal draw bar 3 is positioned and installed through the opposite draw assemblies 5 at the two ends, after the diagonal draw bar 3 is installed, the diagonal draw bar 3 is clamped with the angle steel outer frame 1 through the positioning assembly 4 sleeved on the diagonal draw bar 3, the diagonal draw bar 1 is clamped and positioned through the clamping sleeve 401 on the positioning assembly 4, the pressing block 404 is meshed and connected with the clamping teeth 403 through the meshing and clamping of the convex block 402 and the pressing block 404, and therefore the fixed installation between the clamping sleeve 401 at the two sides and the connecting block 405 is realized.

In addition, referring to fig. 1 and 2 in detail, after cement pouring is completed and set, the method is used for pulling out the pull screw 501 in the following technical manner, so as to achieve the effect of recycling:

The compression bar 2 is provided with a waist-shaped hole 201, the opposite-pull assembly 5 is inserted into the waist-shaped hole 201, and the opposite-pull assembly 5 is sleeved with a pressing plate 503 for abutting against the outer side of the waist-shaped hole 201.

Further, the two ends of the diagonal draw bar 3 are welded with the connecting end pieces 301, the opposite draw assembly 5 comprises opposite draw screws 501, screw blocks 502 are integrally arranged on the opposite draw screws 501, the opposite draw screws 501 penetrate through the surface of the plug-in connecting end pieces 301 and are abutted to the outer sides of the connecting end pieces 301 through the screw blocks 502, the pressing plate 503 is located on one side, deviating from the screw blocks 502, of the connecting end pieces 301, and sleeves 504 are sleeved on the opposite draw screws 501.

According to the above structure, by sleeving the sleeve 504 on the outer side of the counter-pulling screw 501 before installing the counter-pulling screw 501 and by screwing the two ends of the counter-pulling screw 501 in the casting process, the screw fixing mode of the counter-pulling screw 501 comprises that the two ends are connected with the diagonal draw bars 3 and are matched with the waist-shaped holes 201 to realize fixing, and the installation method is suitable for a working casting body in which the counter-pulling screw 501 can be installed in a penetrating manner.

After the casting body is solidified, the diagonal draw bars 3, the angle steel outer frames 1 and the compression bars 2 on the two sides are removed, and the opposite draw screw 501 is pulled out from the sleeve 504, so that the opposite draw screw 501 is recycled.

The foregoing is merely a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model, which are intended to be comprehended within the scope of the present utility model. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims (7)

1. A steel-plastic template support structure, comprising:

The angle steel outer frames (1) are spliced with each other, and a plurality of compression bars (2) are used for abutting the angle steel outer frames (1) and are arranged in parallel, and the compression bars (2) are fixedly installed through the opposite-pulling assembly (5);

the adjacent compression bars (2) are provided with diagonal rods (3) which are obliquely arranged through opposite-pull assemblies (5), and positioning assemblies (4) which are used for being clamped with the angle steel outer frames (1) are slidably arranged on the diagonal rods (3);

The positioning assembly (4) comprises a clamping sleeve (401) for clamping the angle steel outer frame (1), a pressing block (404) is clamped on one side, away from the angle steel outer frame (1), of the clamping sleeve (401), the pressing block (404) is inserted through a screw (408) arranged on the clamping sleeve (401) in a penetrating mode, and a compression nut (407) is installed through threads at the end portion of the screw (408) in a clamping mode.

2. A steel-plastic template supporting structure as claimed in claim 1, wherein: the compression bar (2) is provided with a waist-shaped hole (201), the opposite-pull assembly (5) is inserted into the waist-shaped hole (201), and the opposite-pull assembly (5) is sleeved with a pressing plate (503) for being abutted to the outer side of the waist-shaped hole (201).

3. A steel-plastic template supporting structure as claimed in claim 2, wherein: the utility model discloses a pull rod, including pull rod (301), pull rod (3) both ends all weld and connect end piece (301), pull assembly (5) are including pulling screw rod (501) to the pair, it is provided with screw block (502) to pull integrally on screw rod (501), it runs through grafting connection end piece (301) surface to pull screw rod (501), and through screw block (502) butt is in connection end piece (301) outside, clamp plate (503) are located connection end piece (301) and deviate from screw block (502) one side.

4. A steel-plastic template supporting structure according to claim 3, characterized in that: a sleeve (504) is sleeved on the opposite-pulling screw rod (501).

5. A steel-plastic template supporting structure as claimed in claim 1, wherein: the cutting ferrule (401) deviates from angle steel frame (1) one side and is fixed with lug (402), screw rod (408) are fixed at lug (402) middle part, adjacent briquetting (404) one side of lug (402) is equipped with latch (403), adjacent latch (403) one side of briquetting (404) is agreed with latch (403).

6. A steel-plastic template supporting structure as claimed in claim 5, wherein: the side of the pressing block (404) is fixedly provided with a connecting block (405), sleeve holes (406) are formed in two sides of the connecting block (405) in a penetrating mode, and the sleeve holes (406) are used for being inserted into the diagonal draw bars (3) and are matched with the diagonal draw bars (3).

7. The steel-plastic mold plate supporting structure as claimed in claim 6, wherein: the pressing block (404) is in abutting connection with the latch (403) through a pressing nut (407).