CN214785971U - Building engineering frame post template reinforcing apparatus - Google Patents

Abstract

The application relates to a building engineering frame post template reinforcing apparatus, it includes the reinforcement frame, the reinforcement frame sets up two, two all be provided with the piece of supporting on the reinforcement frame, support the piece and be used for supporting tightly pouring the template, two be provided with the connecting piece between the reinforcement frame, the connecting piece is used for ordering about two supports the piece on the reinforcement frame and supports tightly to pouring the template simultaneously. This application produces the poor effect of the shaping quality that the deviation leads to later stage frame post easily when having the installation of reinforcement frame.

Description

Building engineering frame post template reinforcing apparatus

Technical Field

The application relates to the technical field of building engineering, in particular to a frame column template reinforcing device for building engineering.

Background

Building engineering frame post template reinforcing apparatus is used for fixing pouring the template, carries out the building engineering construction operation in-process in the building field, carries out the pouring during operation of concrete, need use to pour the template as interim supporting construction, guarantees the shaping quality after concrete placement.

Patent document with publication number CN209670341U discloses a building engineering frame post template reinforcing apparatus, including reinforcing frame, reinforcing frame is "U" type, closed fixed plate is installed to reinforcing frame's opening part, all rotate on frame and the closed fixed plate in the middle of the reinforcing frame and be connected with first adjusting screw, first fixed plate is all installed to the one end that first adjusting screw is close to each other, the equal accurate second adjusting screw that is connected with in both sides limit of reinforcing frame, the second fixed plate is all installed to the one end that second adjusting screw is close to each other, the one end and the reinforcing frame of closed fixed plate rotate to be connected, the other end passes through fixed screw and reinforcing frame fixed connection.

During the use, install the reinforcement frame in pouring the template outside, rotate closed fixed plate and fix closed fixed plate through fixing screw, rotate first adjusting screw and make first fixed plate support tightly with pouring the template, rotate second adjusting screw and make second fixed plate support tightly with the template, consolidate pouring the template.

The related technology has the following defects that when the pouring template is poured, reinforcing frames are required to be installed one by one, and the first adjusting screw rod or the second screw rod is rotated to reinforce the pouring template, so that deviation is easily generated when the reinforcing frames are installed, and the forming quality of a frame column in the later period is influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that the deviation is easy to produce when reinforcing frame installs and lead to the poor shaping quality of later stage frame post, this application provides a building engineering frame post template reinforcing apparatus.

The application provides a pair of engineering frame post template reinforcing apparatus is built in room adopts following technical scheme:

the utility model provides a building engineering frame post template reinforcing apparatus, includes the reinforcement frame, the reinforcement frame sets up two, two all be provided with the piece of supporting on the reinforcement frame, support the piece and be used for supporting tightly pouring the template, two be provided with the connecting piece between the reinforcement frame, the connecting piece is used for ordering about two supports the piece of supporting on the frame and supports tightly to pouring the template simultaneously.

Through adopting above-mentioned technical scheme, support tight piece and be used for supporting tightly to pouring the template, fix pouring the template, the connecting piece is used for ordering about the tight piece simultaneous movement of supporting of two back-up frames and presss from both sides tightly to pouring the template, during the use, install two back-up frames on pouring the template, support tight piece through two back-up frames of connecting piece drive is pressed from both sides tightly to pouring the template simultaneously to pouring the inside cement concrete formation frame post of template, the reinforcement deviation of pouring the template is little, the shaping of frame post is of high quality.

Optionally, the reinforcing frame includes a frame body and an installation rod, the installation rod is connected with the frame body in a rotating manner, and the frame body is provided with a first limiting member for limiting the rotation of the installation rod.

By adopting the technical scheme, the two reinforcing frames are sleeved on the periphery of the pouring template, the mounting rods of the two reinforcing frames are respectively rotated to close the mounting rods and the frame body, and the mounting rods and the frame body are fixed through the first limiting part, so that the pouring template is reinforced.

Optionally, the framework includes sill bar, first side lever and second side lever, first side lever and sill bar fixed connection, second side lever and sill bar sliding connection, the installation pole rotates with the second side lever to be connected, it is provided with the telescopic link to slide on the installation pole, be provided with on the sill bar and be used for restricting the gliding second locating part of second side lever, all fixedly on installation pole and the second side lever to the holding member.

Through adopting above-mentioned technical scheme, when the installation adds the reinforcing frame, make the holding piece that supports on the second side pole support tightly to pouring the template through the second locating part that slides to restrict the second side pole through the second locating part and slide, make the holding piece that supports on the second side pole keep supporting tight state with pouring the template, greatly increased the application scope of device.

Optionally, the first side rod is provided with a first slider along the length direction of the first side rod in a sliding manner, the second side rod is provided with a second slider along the length direction of the second side rod in a sliding manner, the second slider on the frame body is rotatably connected with the installation rod, the first limiting part is arranged on the first slider, and the second side rod is provided with a third limiting part for limiting the sliding of the second slider.

Through adopting above-mentioned technical scheme, when the installation adds the reinforcing frame, rotate the installation pole and make installation pole and framework closed, promote the installation pole and slide and make the piece of supporting on the installation pole support the template of pouring tightly, thereby rethread third locating part restriction second slider slides and restricts the installation pole and slides, further increases the application scope of device.

Optionally, the first side rod is provided with a first elastic element for driving the first sliding block to move in a direction away from the bottom rod.

Through adopting above-mentioned technical scheme, keep away from the sill bar through first elastic component drive first slider, be convenient for control the position of first slider, the butt joint of easy to assemble pole and first slider.

Optionally, the telescopic rod is fixedly provided with a limiting block, and a limiting groove for inserting the limiting block is formed in the first sliding block.

Through adopting above-mentioned technical scheme, when installation pole and first slider butt joint, the stopper on the telescopic link inserts the spacing inslot of first slider, stability when increasing installation pole and the butt joint of first slider.

Optionally, the first limiting part includes a limiting pin, a limiting hole is formed in the side wall of the first slider, the limiting hole is communicated with the limiting groove, the limiting pin penetrates through the limiting hole and is connected with the first slider in a sliding manner, and a pin hole for inserting the limiting pin is formed in the limiting block.

Through adopting above-mentioned technical scheme, behind the spacing groove that stopper on the telescopic link inserted first slider, make the spacer pin insert the pinhole on the stopper through the spacer pin that slides, prevent to a certain extent that telescopic link and first slider from breaking away from.

Optionally, the first sliding block is provided with a second elastic element for driving the limit pin to move towards the inside of the limit groove.

Through adopting above-mentioned technical scheme, through the second elastic component, prevent to a certain extent that the frame post is at the shaping in-process, the spacer pin slides out in following the pinhole.

Optionally, the connecting member includes a first connecting rod and a second connecting rod, two ends of the first connecting rod are respectively and fixedly connected to the two mounting rods of the reinforcing frame, and two ends of the second connecting rod are respectively and fixedly connected to the two second side rods of the reinforcing frame.

Through adopting above-mentioned technical scheme, when the solid frame of installation, the installation pole that promotes two reinforcement frames through the head rod slides simultaneously and supports tightly to the both sides limit of pouring the template, promotes the second side pole in two frameworks and slides simultaneously through the second connecting rod and supports tightly to the other both sides wall of pouring the template to reduce the installation deviation of reinforcement frame when reinforcing to pouring the template.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the abutting pieces are used for abutting the pouring template tightly and fixing the pouring template, the connecting pieces are used for driving the abutting pieces of the two reinforcing frames to move simultaneously to clamp the pouring template tightly, when the frame is used, the two reinforcing frames are installed on the pouring template, the abutting pieces of the two reinforcing frames are driven by the connecting pieces to clamp the pouring template simultaneously, and cement concrete is poured into the pouring template to form a frame column, the reinforcing deviation of the pouring template is small, and the forming quality of the frame column is good;

2. when the reinforcing frame is installed, the second side rod is slid to enable the abutting piece on the second side rod to abut against the pouring template, and the second limiting piece limits the second side rod to slide, so that the abutting piece on the second side rod and the pouring template are kept in an abutting state, and the application range of the device is greatly enlarged;

3. when the fixed frame is installed, the installation rods of the two reinforcing frames are pushed by the first connecting rods to slide simultaneously to tightly support two side edges of the pouring template, the second side rods on the two frame bodies are pushed by the second connecting rods to slide simultaneously to tightly support the other two side walls of the pouring template, and therefore installation deviation of the reinforcing frames to the pouring template in the reinforcing process is reduced.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a partial schematic structural diagram of an embodiment of the present application, which is mainly used for expressing a structural diagram of a reinforcing frame;

fig. 4 is an enlarged view of a portion B in fig. 3.

Description of reference numerals: 1. reinforcing the frame; 11. a frame body; 111. a bottom bar; 1111. a third chute; 1112. a third slider; 1113. a second bolt hole; 1114. a second ejector bolt; 112. a first side bar; 1121. a first chute; 1122. a first slider; 11221. a limiting groove; 11222. a limiting hole; 11223. a spacing pin; 11224. a second spring; 1123. a first spring; 113. a second side bar; 1131. a second chute; 1132. a second slider; 1133. a first bolt hole; 1134. a first ejector bolt; 12. mounting a rod; 121. a telescopic groove; 122. a telescopic rod; 1221. a limiting block; 12211. a pin hole; 2. a top plate; 3. a connecting member; 31. a first connecting rod; 32. a second connecting rod.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses engineering frame post template reinforcing apparatus is built in room. Referring to fig. 1, including reinforcing frame 1, reinforcing frame 1 is provided with two, and two reinforcing frames 1 all include framework 11 and installation pole 12, and framework 11 includes sill bar 111, first side pole 112 and second side pole 113, and first side pole 112 is parallel with second side pole 113, all is provided with on two reinforcing frames 1 and supports the piece, supports the piece and includes roof 2, all welds on installation pole 12, first side pole 112, second side pole 113 and the sill bar 111 and has roof 2.

Referring to fig. 1, a connecting member 3 is disposed between two reinforcing frames 1, the connecting member 3 includes a first connecting rod 31 and a second connecting rod 32, two ends of the first connecting rod 31 are respectively welded to the mounting rods 12 of the two reinforcing frames 1, and two ends of the second connecting rod 32 are respectively welded to the second side rods 113 of the two reinforcing frames 1.

Referring to fig. 2 and 3, a first sliding groove 1121 is formed in the side wall of the first side bar 112 along the length direction of the first side bar 112, a first sliding block 1122 is slidably disposed in the first sliding groove 1121 of the first side bar 112, a second sliding groove 1131 is formed in the side wall of the second side bar 113 along the length direction of the second side bar 113, a second sliding block 1132 is slidably disposed in the second sliding groove 1131 of the second side bar 113, the first sliding groove 1121 and the second sliding groove 1131 are both "T" shaped grooves, the first sliding block 1122 and the second sliding block 1132 are both "T" shaped blocks, and the mounting bar 12 is rotatably connected to the second sliding block 1132.

Referring to fig. 2, a first elastic member for driving the first slider 1122 to move away from the bottom rod 111 is disposed on the first side rod 112, the first elastic member is a first spring 1123, one end of the first spring 1123 is welded to the bottom wall of the first sliding slot 1121, and the other end of the first spring is abutted to the first slider 1122; driving the first slider 1122 away from the bottom bar 111 via the first spring 1123 facilitates controlling the position of the first slider 1122 and facilitates docking the mounting bar 12 with the first slider 1122.

Referring to fig. 2 and 3, a telescopic groove 121 is formed in the mounting rod 12 along the length of the mounting rod 12, a telescopic rod 122 is slidably arranged in the telescopic groove 121 of the mounting rod 12, a limiting block 1221 is welded to one end of the telescopic rod 122, which is far away from the second slider 1132, a limiting groove 11221 is formed in the side wall of the first slider 1122 along the sliding direction of the first slider 1122, and the limiting groove 11221 is used for placing the limiting block 1221; the stopper 1221 is inserted into the stopper groove 11221 of the first slider 1122, so that the stability of the installation rod 12 in abutting connection with the first slider 1122 is increased.

Referring to fig. 2, a first limiting member for preventing the mounting rod 12 from rotating is disposed on the first slider 1122, the first limiting member includes a limiting pin 11223, a limiting hole 11222 communicated with the limiting groove 11221 is formed in a side wall of the first slider 1122 along a sliding direction perpendicular to the slider, the limiting pin 11223 penetrates through the limiting groove 11221, is slidably connected with the limiting hole 11222 and the first slider 1122, and a pin hole 12211 for inserting the limiting pin 11223 is formed in the limiting block 1221.

After the limit block 1221 is inserted into the limit groove 11221 of the first slider 1122, the limit pin 11223 is inserted into the pin hole 12211 of the limit block 1221 by sliding the limit pin 11223, thereby preventing the limit block 1221 of the telescopic rod 122 from being separated from the first slider 1122 to a certain extent.

Referring to fig. 2, a second elastic piece for driving the limit pin 11223 to move towards the inside of the limit groove 11221 is arranged on the first slider 1122, the second elastic piece includes a second spring 11224, the second spring 11224 is sleeved on the limit pin 11223, one end of the second spring 11224 is welded to the first slider 1122, and the other end is welded to the limit pin 11223; the retainer pin 11223 is prevented from slipping out of the pin hole 12211 by the second spring 11224 to some extent during the molding process of the frame post.

Referring to fig. 3, a third limiting member for limiting the second slider 1132 to slide is disposed on the second side bar 113, the third limiting member includes a first ejector bolt 1134, a first bolt hole 1133 communicated with the second sliding groove 1131 is disposed along a length direction of the second side bar 113 at one end of the second side bar 113 far away from the bottom bar 111, the first ejector bolt 1134 is disposed through the first bolt hole 1133 and rotatably connected to the second side bar 113, and the first ejector bolt 1134 abuts against the second slider 1132.

Referring to fig. 3 and 4, the first side bar 112 is welded to the bottom bar 111, the length direction of the bottom bar 111 is perpendicular to the length direction of the first side bar 112, a third sliding groove 1111 is formed in the side wall of the bottom bar 111 close to the first side bar 112 along the length direction of the bottom bar 111, a third sliding block 1112 is slidably arranged in the third sliding groove 1111 of the bottom bar 111, the cross sections of the third sliding groove 1111 and the third sliding block 1112 are T-shaped, and the second side bar 113 is welded to the third sliding block 1112.

Referring to fig. 4, the bottom rod 111 is provided with a second limiting member for limiting the sliding of the second side rod 113, the second limiting member includes a second ejection bolt 1114, a second bolt hole 1113 communicated with the third sliding groove 1111 is formed in one end of the bottom rod 111 far away from the first side rod 112 along the length direction of the bottom rod 111, the second ejection bolt 1114 is inserted into the second bolt hole 1113 and is rotatably connected with the bottom rod 111, and the second ejection bolt 1114 is abutted against the third sliding block 1112.

When the reinforcing frame 1 is installed, the second side rod 113 is slid to enable the top plate 2 on the second side rod 113 to tightly support the pouring template, the second side rod 113 is limited to slide by tightly supporting the third sliding block 1112 through the second jacking bolt 1114, the top plate 2 on the second side rod 113 and the pouring template are kept in a tightly supporting state, and the application range of the device is greatly increased.

The implementation principle of the frame column template reinforcing device for the building construction engineering is as follows: when the reinforcing frame is used, the two reinforcing frames 1 are installed on the pouring template, the installing rods 12 of the two reinforcing frames 1 are driven to slide by pushing the first connecting rods 31 and meanwhile abut against two side walls of the pouring template, and the first jacking bolts 1134 are rotated to abut against the second sliding blocks 1132, so that the sliding of the installing rods 12 is limited; the second side rods 113 on the two frames 11 are driven by the second connecting rods 32 to slide simultaneously to support the other two side walls of the pouring template tightly, the second jacking bolts 1114 are rotated to support the third sliding blocks 1112 tightly, so that the sliding of the second side rods 113 is limited, and the installation deviation of the reinforcing frame 1 in the reinforcing process of the pouring template is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The reinforcing device for the frame column template of the building construction project comprises two reinforcing frames (1), and is characterized in that two reinforcing frames (1) are arranged, abutting pieces are arranged on the two reinforcing frames (1) and used for abutting against a pouring template, a connecting piece (3) is arranged between the two reinforcing frames (1), and the connecting piece (3) is used for driving the abutting pieces on the two reinforcing frames (1) to abut against the pouring template at the same time.

2. The building construction engineering frame column template reinforcing apparatus of claim 1, characterized in that: the reinforcing frame (1) comprises a frame body (11) and an installation rod (12), the installation rod (12) is rotatably connected with the frame body (11), and the frame body (11) is provided with a first limiting piece used for limiting the rotation of the installation rod (12).

3. The building construction engineering frame column template reinforcing apparatus of claim 2, characterized in that: frame body (11) are including sill bar (111), first side lever (112) and second side lever (113), first side lever (112) and sill bar (111) fixed connection, second side lever (113) and sill bar (111) sliding connection, installation pole (12) are rotated with second side lever (113) and are connected, it is provided with telescopic link (122) to slide on installation pole (12), be provided with on sill bar (111) and be used for restricting the gliding second locating part of second side lever (113), all fixed being provided with on installation pole (12) and second side lever (113) supports the piece.

4. The building construction engineering frame column template reinforcing apparatus of claim 3, characterized in that: the first side bar (112) slides along the length direction of first side bar (112) and is provided with first slider (1122), the second side bar (113) slides along the length direction of second side bar (113) and is provided with second slider (1132), second slider (1132) on framework (11) rotate with installation pole (12) and are connected, first locating part sets up on first slider (1122), be provided with on second side bar (113) and be used for restricting the gliding third locating part of second slider (1132).

5. The building construction engineering frame column template reinforcing apparatus of claim 4, characterized in that: the first side rod (112) is provided with a first elastic piece for driving the first sliding block (1122) to move in the direction away from the bottom rod (111).

6. The building construction engineering frame column template reinforcing apparatus of claim 4, characterized in that: the telescopic rod (122) is fixedly provided with a limiting block (1221), and a limiting groove (11221) for inserting the limiting block (1221) is formed in the first sliding block (1122).

7. The building construction engineering frame column template reinforcing apparatus of claim 6, characterized in that: the first limiting piece comprises a limiting pin (11223), a limiting hole (11222) is formed in the side wall of the first sliding block (1122), the limiting hole (11222) is communicated with the limiting groove (11221), the limiting pin (11223) penetrates through the limiting hole (11222) and is in sliding connection with the first sliding block (1122), and pin holes (12211) for inserting the limiting pin (11223) are formed in the limiting block (1221).

8. The building construction engineering frame column template reinforcing apparatus of claim 7, characterized in that: the first sliding block (1122) is provided with a second elastic piece for driving the limit pin (11223) to move towards the interior of the limit groove (11221).

9. The building construction engineering frame column template reinforcing apparatus of claim 3, characterized in that: the connecting piece (3) comprises a first connecting rod (31) and a second connecting rod (32), wherein two ends of the first connecting rod (31) are fixedly connected with the mounting rods (12) of the reinforcing frame (1) respectively, and two ends of the second connecting rod (32) are fixedly connected with the second side rods (113) of the reinforcing frame (1) respectively.

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