CN218375101U - Reinforced concrete corridor construction supporting structure for building construction technology - Google Patents

Abstract

The utility model provides a reinforced concrete corridor construction supporting structure in building construction technology, which comprises two parallel wall bodies arranged at intervals, wherein a sleeve arranged along the horizontal direction is arranged between the two wall bodies, two adjusting rods are connected in the sleeve in a sliding way along the axial direction, and a positioning and fixing mechanism which is in one-to-one correspondence with each adjusting rod is arranged on the sleeve; one end of each adjusting rod, which is far away from each other, is fixedly connected with a resisting plate positioned outside the sleeve, and the tops of the two resisting plates are fixedly connected with a telescopic supporting mechanism; the outer side surface of each abutting plate is contacted with a corresponding wall body, a plurality of inserting rods are uniformly distributed on the outer side surface of each abutting plate, and slots corresponding to the inserting rods one by one are formed in the wall body; the utility model discloses can accomplish fast and build efficiency to bearing structure's installation and dismouting, easy operation, the dismouting of being convenient for utilizes the use, improves greatly.

Description

A kind of building construction technology reinforced concrete corridor construction support structure

technical field

The utility model relates to a support structure, in particular to a construction support structure of reinforced concrete corridors in building construction technology.

Background technique

In building construction technology, conventional corridors are mostly poured by reinforced concrete, and support structures need to be built before pouring. The supporting structure used in the construction of existing reinforced concrete corridors is usually scaffolding, which is used to support the construction site.

However, the existing scaffolding has many connecting parts, which is troublesome to disassemble and assemble, and is very inconvenient to use, which greatly affects the construction efficiency and is not conducive to use.

Utility model content

The purpose of this utility model is to provide a construction support structure for reinforced concrete corridor construction in order to solve the problems raised in the above-mentioned background technology.

In order to achieve the above object, the utility model provides the following technical solutions:

A building construction technology reinforced concrete corridor construction support structure, including two walls arranged in parallel and at intervals, a sleeve arranged in the horizontal direction is arranged between the two walls, and the sleeve is slid and connected in the axial direction There are two adjusting rods, and the sleeve is provided with a positioning and fixing mechanism corresponding to each adjusting rod one by one; at the ends of the two adjusting rods that are far away from each other, there is a pressing plate located outside the sleeve. The top of the board is fixedly connected with a telescopic support mechanism;

The outer surface of each pressing plate is in contact with the corresponding wall, and a plurality of insertion rods are evenly distributed on the outer surface of each pressing plate, and the wall body is provided with slots corresponding to each insertion rod one by one.

As a further solution of the utility model: the positioning and fixing mechanism includes detachable fixing bolts pierced on the sleeve, and a number of positioning holes compatible with the fixing bolts are arranged at intervals along the horizontal direction on the sleeve. The near end of the inner end is provided with fixing holes suitable for fixing bolts.

As a further solution of the utility model: a sliding sleeve is provided on the movable sleeve of the sleeve, and a relief hole suitable for the fixing bolt is provided on the sliding sleeve, and the sliding sleeve is fixed between the bottom of the sliding sleeve and the adjacent pressing plate. Auxiliary support rods with inclined settings are attached.

As a further solution of the utility model: the support mechanism includes a support plate integrally formed on the top of each abutment plate and arranged in the horizontal direction, a fixed block is fixedly connected to the outer top of the sleeve, and two The bearing plate between the two supporting plates is provided with a movable groove at one end of each supporting plate close to the bearing plate, and the two ends of the bearing plate move along the horizontal direction and extend into the corresponding movable groove.

Compared with the prior art, the beneficial effects of the utility model are:

After the utility model adopts the above-mentioned structure, through the mutual cooperation between the sleeve, the adjusting rod, the positioning and fixing mechanism, the pressing plate, the supporting mechanism, the inserting rod and the slot, when in use, the two adjusting rods are adjusted so that The two adjustment rods are far away from each other or close to each other, so that the insertion rod can be inserted into the slot or pulled out from the slot, and then complete the installation and disassembly of the support structure. efficiency.

Description of drawings

Fig. 1 is a structural schematic diagram of a building construction technology reinforced concrete corridor construction support structure.

Fig. 2 is an internal schematic diagram of a building construction technology reinforced concrete corridor construction support structure.

FIG. 3 is a partially enlarged schematic diagram of point A in FIG. 2 .

In the figure: 1. Wall; 2. Sleeve; 3. Adjusting rod; 4. Positioning and fixing mechanism; 401. Fixing bolt; 402. Positioning hole; 403. Fixing hole; 5. Clamping plate; 6. Supporting mechanism; 601, support plate; 602, fixed block; 603, bearing plate; 604, movable groove; 7, inserting rod; 8, slot; 9, sliding sleeve; 10, auxiliary supporting rod.

Detailed ways

The technical solution of this patent will be further described in detail below in conjunction with specific embodiments.

Please refer to Figure 1-3, a building construction technology reinforced concrete corridor construction support structure, including two walls 1 arranged in parallel and at intervals, and the support structure is built between the two walls 1, so that the staff can see from below Walking, between the two walls 1, there is a sleeve 2 arranged in the horizontal direction, and two adjustment rods 3 are slidably connected in the axial direction in the sleeve 2, which can be far away from each other or close to each other, and on the sleeve 2 There is a positioning and fixing mechanism 4 corresponding to each adjustment rod 3 one by one, which can fix the adjusted adjustment rod 3; at the ends of the two adjustment rods 3 that are far away from each other, a pressing plate 5 located outside the sleeve 2 is fixedly connected , a telescopic support mechanism 6 is fixedly connected to the tops of the two pressing plates 5, which can be telescopically adjusted along with the distance between the two pressing plates 5; 1 are in contact with each other, and a number of insertion rods 7 are evenly distributed on the outer surface of each abutment plate 5. The wall 1 is provided with slots 8 corresponding to each insertion rod 7 one by one. When the insertion rods 7 are inserted into the slots 8 , the supporting structure can be fixed between the two walls 1, and the assembly and disassembly are simple and the operation is convenient.

Wherein, the positioning and fixing mechanism 4 includes fixing bolts 401 detachably pierced on the sleeve 2, and a plurality of positioning holes 402 adapted to the fixing bolts 401 are arranged at intervals along the horizontal direction on the sleeve 2. The proximal end of the inner end is provided with a fixing hole 403 adapted to the fixing bolt 401 . When in use, first remove the fixing bolts 401, and then adjust the distance between the two adjustment rods 3. After the adjustment, pass the fixing bolts 401 through the corresponding positioning holes 402 and fixing holes 403 in sequence, and then the distance between the two adjustment rods 3 can be adjusted. The adjustment rod 3 is fixed.

Further, a sliding sleeve 9 is movable on the sleeve 2, and a relief hole suitable for the fixing bolt 401 is provided on the sliding sleeve 9, between the bottom of the sliding sleeve 9 and the adjacent pressing plate 5 An auxiliary support rod 10 arranged obliquely is fixedly connected. During the adjustment process, the sliding sleeve 9 can move along with the pressing plate 5; Cooperating with the sliding sleeve 9, the auxiliary support between the sleeve 2 and the pressing plate 5 improves the stability of the structure, and the use effect is better.

In addition, the support mechanism 6 includes a support plate 601 integrally formed on the upper end of each abutment plate 5 and arranged in the horizontal direction, and a fixed block 602 is fixedly connected to the outer top of the sleeve 2, and the top of the fixed block 602 is connected with two The carrying plate 603 between the supporting plates 601 is provided with a movable groove 604 at one end of each supporting plate 601 close to the carrying plate 603, and the two ends of the carrying plate 603 move along the horizontal direction and extend into the corresponding movable groove 604. When the distance between the two abutting plates 5 is adjusted, both ends of the bearing plate 603 can slide in the movable groove 604, thereby telescopically adjusting the length of the supporting mechanism 6, the structure is simple, and the operation is convenient.

Furthermore, the top of the sliding sleeve 9 is fixedly connected to the adjacent support plate 601, which can provide auxiliary support for the support plate 601 and improve the stability of the structure.

The working principle of the utility model is: when in use, first adjust the two adjustment rods 3 according to the distance between the two walls 1, so that the two adjustment rods 3 are far away from each other, so that each pressing plate 5 and the corresponding The adjacent walls 1 are in contact with each other, and at the same time, each insertion rod 7 is inserted into the corresponding slot 8, and then each adjustment rod 3 is fixed by the positioning and fixing mechanism 4, so that the supporting structure can be installed and fixed on the two walls 1 between.

The preferred implementation of this patent has been described in detail above, but this patent is not limited to the above-mentioned implementation, and within the knowledge of those of ordinary skill in the art, it can also be made without departing from the purpose of this patent. Variations.

Claims (4)

1. A reinforced concrete corridor construction supporting structure in building construction technology comprises two parallel wall bodies (1) which are arranged at intervals, and is characterized in that a sleeve (2) arranged along the horizontal direction is arranged between the two wall bodies (1), two adjusting rods (3) are connected in the sleeve (2) in a sliding manner along the axial direction, and positioning and fixing mechanisms (4) corresponding to the adjusting rods (3) one by one are arranged on the sleeve (2); one end of each adjusting rod (3) which is far away from the other end is fixedly connected with a propping plate (5) which is positioned outside the sleeve (2), and the top parts of the two propping plates (5) are fixedly connected with a telescopic supporting mechanism (6);

the outer side surface of each abutting plate (5) is in contact with the corresponding wall body (1), a plurality of inserting rods (7) are uniformly distributed on the outer side surface of each abutting plate (5), and slots (8) corresponding to the inserting rods (7) one by one are formed in the wall body (1).

2. The supporting structure for reinforced concrete corridor construction according to the building construction technology of claim 1, wherein the positioning and fixing mechanism (4) comprises a fixing bolt (401) detachably arranged on the sleeve (2), a plurality of positioning holes (402) corresponding to the fixing bolt (401) are arranged on the sleeve (2) at intervals along the horizontal direction, and a fixing hole (403) corresponding to the fixing bolt (401) is arranged at the proximal end of the inner end of the adjusting rod (3).

3. The reinforced concrete corridor construction supporting structure in the building construction technology according to claim 2, wherein a sliding sleeve (9) is movably sleeved on the sleeve (2), a yielding hole matched with the fixing bolt (401) is formed in the sliding sleeve (9), and an auxiliary supporting rod (10) which is obliquely arranged is fixedly connected between the bottom of the sliding sleeve (9) and the adjacent abutting plate (5).

4. The reinforced concrete corridor construction supporting structure for building construction technology according to claim 1, wherein the supporting mechanism (6) comprises supporting plates (601) integrally formed at the upper ends of the abutting plates (5) and arranged along the horizontal direction, a fixed block (602) is fixedly connected to the outer top of the sleeve (2), a bearing plate (603) positioned between the two supporting plates (601) is connected to the top of the fixed block (602), a movable groove (604) is arranged at one end of each supporting plate (601) close to the bearing plate (603), and the two ends of the bearing plate (603) movably extend into the corresponding movable groove (604) along the horizontal direction.

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