CN216553187U - Temporary support for building construction - Google Patents

Abstract

The application relates to a temporary support for building construction, which comprises a Z-direction supporting telescopic component, an X-direction telescopic component, a Y-direction telescopic component and an inclined strut component; the Z-direction supporting telescopic assembly comprises a Z-direction supporting female rod, a Z-direction supporting sub-rod and a Z-direction positioning piece, wherein the Z-direction supporting female rod and the Z-direction supporting sub-rod are connected in a sliding manner; the X-direction telescopic assembly comprises an X-direction telescopic female rod, an X-direction telescopic sub-rod and an X-direction positioning piece, wherein the X-direction telescopic female rod and the X-direction telescopic sub-rod are connected in a sliding manner; the Y-direction telescopic assembly comprises a Y-direction telescopic female rod, a Y-direction telescopic sub-rod and a Y-direction positioning piece, which are connected in a sliding manner; the inclined strut assembly comprises a plurality of inclined strut telescopic supporting rods, and the inclined strut telescopic supporting rods are rotatably connected between the Z-direction supporting sub-rods and the X-direction telescopic sub-rods and rotatably connected between the Z-direction supporting sub-rods and the Y-direction telescopic sub-rods; the diagonal bracing telescopic support rod comprises a diagonal bracing telescopic female rod, a diagonal bracing telescopic sub-rod and a diagonal bracing positioning piece, wherein the diagonal bracing telescopic female rod and the diagonal bracing telescopic sub-rod are connected in a sliding mode. The application has the effects of simple structure and convenient disassembly and assembly.

Description

Temporary support for building construction

Technical Field

The application relates to the field of construction supports, in particular to a temporary support for construction.

Background

With the development of the construction industry in China, the steel structure of the construction is gradually developed from the traditional concrete reinforcement structure. The steel structure adopts the mode of assembling, and weight all is the tonnage level, consequently often need hoist and mount steel member to setting for the height on the construction, then assemble operations such as welding.

In the process of assembling and welding steel members, a scaffold is adopted to temporarily support the hoisted steel members in the traditional mode.

In the process of implementing the application, the inventor finds that at least the following problems exist in the technology: adopt traditional scaffold to build and carry out the mode that supports to the steel member, because scaffold installation is loaded down with trivial details with dismantling, consequently is consuming time hard at construction convenience, inconvenient use.

SUMMERY OF THE UTILITY MODEL

In order to provide a simple structure and convenient to use's support frame, this application provides a temporary support for construction.

The application provides a temporary support for construction adopts following technical scheme:

a temporary support for building construction comprises a Z-direction support telescopic component, an X-direction telescopic component, a Y-direction telescopic component and an inclined support component; the Z-direction support telescopic component, the X-direction telescopic component and the Y-direction telescopic component form a square frame shape;

the Z-direction support telescopic assembly comprises a Z-direction support female rod, a Z-direction support sub-rod and a Z-direction positioning piece, wherein the Z-direction support female rod and the Z-direction support sub-rod are connected in a sliding manner;

the X-direction telescopic assembly is fixedly connected to the Z-direction supporting telescopic assembly and comprises an X-direction telescopic female rod, an X-direction telescopic sub-rod and an X-direction positioning piece, wherein the X-direction telescopic female rod and the X-direction telescopic sub-rod are connected in a sliding manner;

the Y-direction telescopic assembly is fixedly connected to the Z-direction supporting telescopic assembly and comprises a Y-direction telescopic female rod and a Y-direction telescopic sub-rod which are connected in a sliding manner, and a Y-direction positioning piece;

the inclined strut assembly comprises a plurality of inclined strut telescopic supporting rods, and the inclined strut telescopic supporting rods are rotatably connected between the Z-direction supporting sub-rods and the X-direction telescopic sub-rods and between the Z-direction supporting sub-rods and the Y-direction telescopic sub-rods; the diagonal bracing telescopic support rod comprises a diagonal bracing telescopic female rod, a diagonal bracing telescopic sub-rod and a diagonal bracing positioning piece, wherein the diagonal bracing telescopic female rod and the diagonal bracing telescopic sub-rod are connected in a sliding mode.

By adopting the technical scheme, the support can be stretched in the X direction, the Y direction and the Z direction in the using process, so that the length, the width and the height of the support can be randomly adjusted in a set range by the support, the support is suitable for different working conditions, and the support is simple in structure, convenient to assemble and disassemble and convenient to use; and the inclined strut assembly with the telescopic function is further arranged to increase the structural strength of the support.

Preferably, a Z-direction sliding groove is formed in the Z-direction supporting female rod, the Z-direction supporting sub-rod is connected in the Z-direction sliding groove in a sliding manner, a plurality of Z-direction gear holes are formed in the Z-direction supporting sub-rod along the self-sliding direction, a Z-direction positioning hole corresponding to the Z-direction gear hole is formed in the side wall of the Z-direction supporting female rod, and the Z-direction positioning piece is sequentially arranged in the Z-direction positioning hole and the Z-direction gear hole in a penetrating manner;

one end of the X-direction telescopic sub-rod is fixedly connected to one end, far away from the Z-direction supporting sub-rod, of the Z-direction supporting main rod, X-direction sliding grooves are formed in two ends of the X-direction telescopic main rod, one end, far away from the Z-direction supporting main rod, of the X-direction telescopic sub-rod is connected in the X-direction sliding grooves in a sliding mode, a plurality of X-direction gear holes are formed in the X-direction telescopic sub-rod along the self sliding direction, X-direction positioning holes corresponding to the X-direction gear holes are formed in the side wall of the X-direction telescopic main rod, and X-direction positioning pieces sequentially penetrate through the X-direction positioning holes and the X-direction gear holes;

one end of the Y-direction telescopic sub-rod is fixedly connected to one end, far away from the Z-direction supporting sub-rod, of the Z-direction supporting main rod, Y-direction sliding grooves are formed in two ends of the Y-direction telescopic main rod, one end, far away from the Z-direction supporting main rod, of the Y-direction telescopic sub-rod is connected in the Y-direction sliding grooves in a sliding mode, a plurality of Y-direction gear holes are formed in the Y-direction telescopic sub-rod along the self sliding direction, Y-direction positioning holes corresponding to the Y-direction gear holes are formed in the side wall of the Y-direction telescopic main rod, and Y-direction positioning pieces penetrate through the Y-direction positioning holes and the Y-direction gear holes in sequence;

the utility model discloses a bracing slide structure, including the flexible female pole of bracing, be provided with the bracing slide groove in the flexible female pole of bracing, the flexible sub-pole of bracing slides and connects in the bracing slide inslot, just be provided with a plurality of bracing gear holes along self glide direction on the flexible sub-pole of bracing, the lateral wall of the flexible female pole of bracing be provided with the bracing locating hole that the gear hole of bracing corresponds, the bracing setting element wears to establish in proper order the bracing locating hole with the bracing gear is downthehole.

Through adopting above-mentioned technical scheme, realized Z to supporting flexible subassembly, X to flexible subassembly, Y to the regulation of the flexible length of flexible subassembly and bracing subassembly to utilize corresponding setting element to insert corresponding locating hole and gear hole in proper order and realize respectively that Z supports flexible subassembly, X to flexible subassembly, Y to the length location of flexible subassembly and bracing subassembly.

Preferably, the side wall of the Z-direction supporting female rod is provided with a Z-direction sliding limiting hole, the Z-direction supporting secondary rod is fixedly connected with a Z-direction limiting column, and the Z-direction limiting column is connected in the Z-direction sliding limiting hole in a sliding manner;

an X-direction sliding limiting hole is formed in the side wall of the X-direction telescopic female rod, an X-direction limiting column is fixedly connected to the X-direction telescopic female rod, and the X-direction limiting column is connected in the X-direction sliding limiting hole in a sliding mode;

the lateral wall of the Y-direction telescopic female rod is provided with a Y-direction sliding limiting hole, a Y-direction limiting post is fixedly connected to the Y-direction telescopic secondary rod, and the Y-direction limiting post is connected in a sliding manner in the Y-direction sliding limiting hole.

Through adopting above-mentioned technical scheme, be provided with the spacing post that corresponds and slide to connect in the spacing downthehole that slides that corresponds, can make the flexible sub-pole that corresponds be difficult to drop, play flexible the biggest and the limiting displacement of shortest length.

Preferably, one end of one inclined strut telescopic supporting rod is rotatably connected to the Z-direction limiting column, the other end of the inclined strut telescopic supporting rod is rotatably connected to the X-direction telescopic sub-rod, and the X-direction telescopic sub-rod is fixedly connected to the Z-direction supporting main rod which slides on the Z-direction limiting column;

one end of the other one of the inclined strut telescopic supporting rods is rotatably connected to the Z-direction limiting column, the other end of the other one of the inclined strut telescopic supporting rods is rotatably connected to the Y-direction telescopic sub-rod, and the Y-direction telescopic sub-rod is fixedly connected to the Z-direction limiting column and slides on the Z-direction supporting female rod.

By adopting the technical scheme, in the fixing mode, the inclined strut telescopic supporting rods sliding on the X-direction telescopic sub-rods at the two ends of the same X-direction telescopic female rod are not crossed, the inclined strut telescopic supporting rods sliding on the Y-direction telescopic sub-rods at the two ends of the same Y-direction telescopic female rod are not crossed, and the inclined strut telescopic supporting rods play a role in enhancing the strength of the whole structure.

Preferably, one end of one diagonal bracing telescopic support rod is rotatably connected to the Z-direction limiting column, the other end of the diagonal bracing telescopic support rod is rotatably connected to the X-direction telescopic sub-rod, and the X-direction telescopic sub-rod is the X-direction telescopic sub-rod on the opposite side of the X-direction telescopic sub-rod on the Z-direction support mother rod which slides on the Z-direction limiting column;

one end of one diagonal bracing telescopic supporting rod is rotatably connected to the Z-direction limiting column, the other end of the diagonal bracing telescopic supporting rod is rotatably connected to the Y-direction telescopic sub-rod, and the Y-direction telescopic sub-rod is the Y-direction telescopic sub-rod on the Z-direction supporting female rod, wherein the Z-direction limiting column slides, and the Y-direction telescopic sub-rod is arranged on the opposite side of the Y-direction telescopic sub-rod on the Z-direction supporting female rod.

Through adopting above-mentioned technical scheme, among this fixed mode, the X that slides at same X to flexible female pole both ends is crossed to the flexible bracing piece of bracing on the flexible sub-pole, slides and is crossed to the flexible bracing piece of bracing on the flexible sub-pole of Y at flexible female pole both ends at same Y, and the flexible bracing piece of bracing is for not crossing under the condition for support overall structure intensity is stronger.

Preferably, the cross section of the Z-direction positioning piece, the X-direction positioning piece, the Y-direction positioning piece or the diagonal bracing positioning piece along the self-axial direction is set to be a triangular structure.

Through adopting above-mentioned technical scheme, the section of triangle-shaped structure is favorable to improving the structural strength who corresponds the setting element for the setting element that corresponds is difficult to bending deformation, thereby is favorable to guaranteeing supporting structure's stability.

Preferably, reinforcing ribs are arranged among the Z-direction supporting telescopic assembly, the X-direction telescopic assembly and the Y-direction telescopic assembly.

Through adopting above-mentioned technical scheme, the strengthening rib is favorable to strengthening the structural strength of support.

Preferably, the surfaces of the X-direction telescopic female rod and the Y-direction telescopic female rod are provided with anti-slip layers.

Through adopting above-mentioned technical scheme, the skid resistant course is favorable to increasing the support and treats the stability of the butt between the support steel construction for the contact surface is difficult to skid.

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

the telescopic bracket has a simple structure, is convenient to disassemble and assemble, can be adjusted in length, width and height at will, realizes the positioning effect, and is practical and convenient;

the temporary support is convenient to move, can be recycled, and only needs to move to a corresponding position when changing a place, and the size requirement is adjusted, so that the complex work of dismounting is reduced.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application, wherein the bracing assembly is a first connection type;

fig. 2 is a schematic overall structure diagram of an embodiment of the present application, wherein the bracing assembly is in a second connection manner.

Reference numerals: 1. a Z-direction support telescopic component; 11. supporting the female rod in the Z direction; 12. a Z-direction supporting sub-rod; 13. a Z-direction positioning piece; 14. a Z-direction sliding groove; 15. positioning holes in the Z direction; 16. a Z-direction gear hole; 17. a Z-direction slippage limiting hole; 18. a Z-direction limiting column; 2. an X-direction telescopic assembly; 21. an X-direction telescopic female rod; 22. an X-direction telescopic sub-rod; 23. an X-direction positioning piece; 24. an X-direction sliding groove; 25. positioning holes in the X direction; 26. an X-direction gear hole; 27. an X-direction slippage limiting hole; 28. an X-direction limiting column; 3. a Y-direction telescopic component; 31. a Y-direction telescopic female rod; 32. a Y-direction telescopic sub-rod; 33. a Y-direction positioning piece; 34. a Y-direction sliding groove; 35. y-direction positioning holes; 36. a Y-direction gear hole; 37. a Y-direction slippage limiting hole; 38. a Y-direction limiting column; 4. a diagonal bracing assembly; 41. the diagonal brace extends the female rod; 42. the inclined strut telescopic sub-rod; 43. a bracing positioning member; 44. a diagonal bracing sliding groove; 45. a diagonal bracing positioning hole; 46. a diagonal bracing gear hole; 5. reinforcing ribs; 6. and an anti-slip layer.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses temporary support for building construction. Referring to fig. 1, the temporary support for building construction is integrally formed into a square frame shape, and comprises a Z-direction support telescopic assembly 1, an X-direction telescopic assembly 2, a Y-direction telescopic assembly 3 and an inclined support assembly 4. The inclined strut assembly 4 plays a supporting role, and is beneficial to enhancing the structural strength of the bracket. In order to further strengthen the structural strength of the support, the Z-direction supporting telescopic assembly 1, the X-direction telescopic assembly 2 and the Y-direction telescopic assembly 3 are provided with reinforcing ribs 5, and the reinforcing ribs 5 and the Z-direction supporting telescopic assembly 1, the X-direction telescopic assembly 2 and the Y-direction telescopic assembly 3 form a triangular structure, so that the support is not easy to deform.

The Z-direction supporting telescopic assembly 1 comprises a Z-direction supporting female rod 11, a Z-direction supporting sub-rod 12 and a Z-direction positioning piece 13 which are connected in a sliding mode. The Z-direction supporting telescopic assemblies 1 are provided with four groups which are arranged in parallel.

The Z-direction supporting female rod 11 and the Z-direction supporting male rod 12 are both in a cuboid shape. Z-direction sliding grooves 14 are formed in the Z-direction supporting female rod 11 along the length direction of the Z-direction supporting female rod, and the Z-direction supporting sub-rods 12 are connected in the Z-direction sliding grooves 14 in a sliding mode. And a plurality of triangular prism-shaped Z-direction gear holes 16 are formed in the Z-direction supporting sub-rod 12 along the self sliding direction, triangular prism-shaped Z-direction positioning holes 15 corresponding to the Z-direction gear holes 16 are formed in the side wall of the Z-direction supporting female rod 11, the Z-direction positioning piece 13 is also arranged to be a triangular prism body which is in splicing fit with the Z-direction gear holes 16 and the Z-direction positioning holes 15, and the end part of the Z-direction positioning piece 13 is cylindrical so as to facilitate splicing. In the using process, the Z-direction positioning piece 13 is sequentially arranged in the Z-direction positioning hole 15 and the Z-direction gear hole 16 in a penetrating mode, and the length of the Z-direction supporting female rod 11 is adjusted.

Z is all offered along self length direction's Z to the spacing hole 17 that slides to two adjacent lateral walls of female pole 11 of a Z to supporting, and Z is to supporting fixed mounting on the sub-pole 12 has Z to spacing post 18, and Z slides to spacing post 18 and connects in Z is to the spacing hole 17 that slides to the restriction Z to supporting sub-pole 12 to the flexible maximum value and the minimum on the female pole 11 of Z support, make flexible Z to supporting sub-pole 12 and be difficult to break away from Z to supporting female pole 11.

The X-direction telescopic assembly 2 is vertically and fixedly arranged on the Z-direction supporting telescopic assembly 1 and comprises an X-direction telescopic female rod 21, an X-direction telescopic sub-rod 22 and an X-direction positioning piece 23, wherein the X-direction telescopic female rod and the X-direction telescopic sub-rod are connected in a sliding mode. The X-direction telescopic assembly 2 is provided with two groups and is arranged in parallel in an arc shape.

The group of X-direction telescopic assemblies 2 comprises an X-direction telescopic female rod 21 and two X-direction telescopic sub-rods 22. X is to the perpendicular fixed mounting of one end of flexible sub-pole 22 keeping away from Z to the one end that supports sub-pole 12 at female pole 11 to Z, and X has all been seted up to the both ends of flexible female pole 21 to X to the groove 24 that slides, and two X are kept away from Z to the one end that supports female pole 11 to flexible sub-pole 22 and are slided and connect in X to the groove 24 that slides. And a plurality of X-direction gear holes 26 are arranged on the X-direction telescopic sub-rod 22 along the self-sliding direction, correspondingly, an X-direction positioning hole 25 is formed in the side wall of the X-direction telescopic female rod 21, and the X-direction positioning piece 23 sequentially penetrates through the X-direction positioning hole 25 and the X-direction gear holes 26. The X-direction shift position hole 26, and the X-direction positioning member 23 are each formed in a triangular prism shape.

Two X are seted up along self length direction to the lateral wall of flexible female pole 21 to the spacing hole 27 that slides, and two X are to equal vertical fixation mounting have X to spacing post 28 on the flexible sub-pole 22, and X slides to spacing post 28 and connects in X is to the spacing hole 27 that slides to the restriction X is to the flexible limit value of whole length of flexible subassembly 2.

The Y-direction telescopic assembly 3 is vertically and fixedly arranged on the Z-direction supporting telescopic assembly 1 and comprises a Y-direction telescopic female rod 31, a Y-direction telescopic sub-rod 32 and a Y-direction positioning piece 33 which are connected in a sliding manner. Y is still perpendicular to flexible subassembly 2 with X to flexible subassembly 3, and Y is provided with two sets ofly to flexible subassembly 3, and equal parallel arrangement.

A Y-direction telescopic assembly 3 comprises a Y-direction telescopic female rod 31 and two Y-direction telescopic sub-rods 32. Y is to the one end vertical fixation who stretches out and draws back sub-pole 32 install and keep away from the one end that Z supported sub-pole 12 to Z to supporting female pole 11, and Y has all been seted up Y along self length direction to the both ends of Y to flexible female pole 31 and has slided groove 34, and two Y are to the one end that flexible sub-pole 32 kept away from Z to supporting female pole 11 and slide and connect in Y to sliding groove 34. A plurality of Y-direction gear holes 36 are formed in the Y-direction telescopic sub-rod 32 along the self sliding direction, correspondingly, Y-direction positioning holes 35 are formed in the side wall of the Y-direction telescopic female rod 31, and Y-direction positioning pieces 33 sequentially penetrate through the Y-direction positioning holes 35 and the Y-direction gear holes 36. The Y-direction positioning piece 33, the Y-direction positioning hole 35 and the Y-direction gear hole 36 are all triangular prism-shaped, so that the length of the Y-direction telescopic assembly 3 is fixed.

Two Y spacing holes 37 that slide have been seted up to Y along self length direction to the lateral wall of flexible female pole 31, and Y is to the last vertical fixation of flexible son pole 32 to have Y to spacing post 38, and Y slides to spacing post 38 and connects in Y to the spacing hole 37 that slides to the restriction Y to the flexible length in limit of telescopic part 3, and make Y difficult to drop to flexible son pole 32.

The diagonal bracing assembly 4 comprises a plurality of diagonal bracing telescopic support rods which are rotatably connected between the Z-direction support sub-rod 12 and the X-direction telescopic sub-rod 22, and rotatably connected between the Z-direction support sub-rod 12 and the Y-direction telescopic sub-rod 32. The adoption in this embodiment is four groups, and two bracing telescopic support rods of every group, every Y all are equipped with a set of bracing subassembly 4 to telescopic component 3 and X to telescopic component 2's the outside. The diagonal bracing telescopic supporting rod comprises a diagonal bracing telescopic female rod 41, a diagonal bracing telescopic male rod 42 and a diagonal bracing positioning piece 43 which are connected in a sliding mode.

The one end of the flexible female pole 41 of bracing has seted up the bracing groove 44 that slides along self length direction, and the one end of the flexible sub-pole 42 of bracing slides and connects in the bracing groove 44 that slides. A plurality of diagonal bracing gear holes 46 are formed in the diagonal bracing telescopic sub-rod 42 along the self sliding direction, correspondingly, diagonal bracing positioning holes 45 are formed in the side wall of the diagonal bracing telescopic main rod 41, and diagonal bracing positioning pieces 43 sequentially penetrate through the diagonal bracing positioning holes 45 and the diagonal bracing gear holes 46. The diagonal bracing positioning piece 43, the diagonal bracing positioning hole 45 and the diagonal bracing gear hole 46 are all triangular prism-shaped.

Referring to fig. 1, one of the connection modes of the bracing assembly 4 is:

one end of one inclined strut telescopic supporting rod is rotatably connected to a Z-direction limiting column 18, the other end of the inclined strut telescopic supporting rod is rotatably connected to an X-direction telescopic sub-rod 22, and the X-direction telescopic sub-rod 22 is fixedly installed on a Z-direction supporting female rod 11 which slides on the Z-direction limiting column 18.

One end of the other one of the inclined strut telescopic support rods is rotatably connected to the other Z-direction limiting post 18 on the same Z-direction support sub-rod 12, the other end of the other one of the inclined strut telescopic support rods is rotatably connected to the Y-direction telescopic sub-rod 32, and the Y-direction telescopic sub-rod 32 is fixedly installed on the Z-direction support main rod 11 which slides on the Z-direction limiting post 18.

In this fixing mode, the two diagonal bracing telescopic support rods sliding on the X-direction telescopic sub-rods 22 at the two ends of the same X-direction telescopic main rod 21 do not intersect, and the diagonal bracing telescopic support rods sliding on the Y-direction telescopic sub-rods 32 at the two ends of the same Y-direction telescopic main rod 31 do not intersect, and the diagonal bracing telescopic support rods play a role in enhancing the overall structural strength. And in the process of the integral expansion of the support, due to the existence of the inclined strut assembly 4, the expansion of the support can be linked, and the size of the support can be adjusted conveniently and quickly.

Referring to fig. 2, another connection mode of the bracing assembly 4 is as follows:

one end of one inclined strut telescopic supporting rod is rotatably connected to a Z-direction limiting column 18, the other end of the inclined strut telescopic supporting rod is rotatably connected to an X-direction telescopic sub-rod 22, and the X-direction telescopic sub-rod 22 is an X-direction telescopic sub-rod 22 on the opposite side of the X-direction telescopic sub-rod 22 on the Z-direction supporting female rod 11, which slides on the Z-direction limiting column 18.

One end of the other one of the inclined strut telescopic support rods is rotatably connected to the other Z-direction limiting post 18 on the same Z-direction support sub-rod 12, the other end of the other one of the inclined strut telescopic support rods is rotatably connected to the Y-direction telescopic sub-rod 32, and the Y-direction telescopic sub-rod 32 is the Y-direction telescopic sub-rod 32 on the opposite side of the Y-direction telescopic sub-rod 32 on the Z-direction support main rod 11 on which the Z-direction limiting post 18 slides.

In this fixed mode, the two diagonal bracing telescopic support bars that slide on the X at the same X to the telescopic female rod 21 both ends to the telescopic male rod 22 are alternately arranged, and the diagonal bracing telescopic support bars that slide on the Y to the telescopic male rod 32 at the same Y to the telescopic female rod 31 both ends are alternately arranged, for not under the crisscross circumstances, make support overall structure intensity stronger, the support is difficult to warp more. Similarly, in the integral telescopic process of the support, due to the existence of the inclined strut assembly 4, the telescopic function of the support can be linked, and the size of the support can be adjusted conveniently and quickly.

In addition, in order to increase the frictional force of the contact surface between the support and the steel member to be supported, be provided with skid resistant course 6 at X to the telescopic female rod 21 and the upper surface of Y to telescopic female rod 31, skid resistant course 6 can be made by rubber materials, still plays the effect of buffering, is favorable to protecting X to telescopic female rod 21 and Y to telescopic female rod 31 for X is difficult to by wearing and tearing to telescopic female rod 21 and Y to telescopic female rod 31.

The implementation principle of the temporary support for building construction in the embodiment of the application is as follows: in the use process, the support can be in X to, Y to and Z to the adjustment of stretching out and drawing back, and the cooperation has the support of bracing subassembly 4, therefore the support can jointly adjust length, width and the height that supports at will in the within range of setting for to be suitable for different operating modes and use, and simple structure, easy dismounting facilitates the use, has certain structural strength.

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 (8)

1. The utility model provides a temporary support for construction which characterized in that: comprises a Z-direction supporting telescopic component (1), an X-direction telescopic component (2), a Y-direction telescopic component (3) and an inclined strut component (4); the Z-direction supporting telescopic component (1), the X-direction telescopic component (2) and the Y-direction telescopic component (3) form a square frame shape;

the Z-direction supporting telescopic assembly (1) comprises a Z-direction supporting female rod (11), a Z-direction supporting male rod (12) and a Z-direction positioning piece (13), wherein the Z-direction supporting female rod and the Z-direction supporting male rod are connected in a sliding mode;

the X-direction telescopic assembly (2) is fixedly connected to the Z-direction supporting telescopic assembly (1) and comprises an X-direction telescopic female rod (21), an X-direction telescopic sub-rod (22) and an X-direction positioning piece (23), wherein the X-direction telescopic female rod and the X-direction telescopic sub-rod are connected in a sliding manner;

the Y-direction telescopic assembly (3) is fixedly connected to the Z-direction supporting telescopic assembly (1) and comprises a Y-direction telescopic female rod (31), a Y-direction telescopic sub-rod (32) and a Y-direction positioning piece (33), wherein the Y-direction telescopic female rod and the Y-direction telescopic sub-rod are connected in a sliding manner;

the inclined strut assembly (4) comprises a plurality of inclined strut telescopic supporting rods which are rotatably connected between the Z-direction supporting sub-rod (12) and the X-direction telescopic sub-rod (22) and between the Z-direction supporting sub-rod (12) and the Y-direction telescopic sub-rod (32); the diagonal bracing telescopic supporting rod comprises a diagonal bracing telescopic female rod (41) and a diagonal bracing telescopic male rod (42) which are connected in a sliding mode, and a diagonal bracing positioning piece (43).

2. A temporary support for construction according to claim 1, wherein:

a Z-direction sliding groove (14) is formed in the Z-direction supporting female rod (11), the Z-direction supporting sub-rod (12) is connected in the Z-direction sliding groove (14) in a sliding mode, a plurality of Z-direction gear holes (16) are formed in the Z-direction supporting sub-rod (12) along the self-sliding direction, a Z-direction positioning hole (15) corresponding to the Z-direction gear hole (16) is formed in the side wall of the Z-direction supporting female rod (11), and the Z-direction positioning piece (13) penetrates through the Z-direction positioning hole (15) and the Z-direction gear hole (16) in sequence;

one end of the X-direction telescopic sub-rod (22) is fixedly connected to one end, far away from the Z-direction supporting sub-rod (12), of the Z-direction supporting main rod (11), X-direction sliding grooves (24) are formed in two ends of the X-direction telescopic main rod (21), one end, far away from the Z-direction supporting main rod (11), of the X-direction telescopic sub-rod (22) is connected into the X-direction sliding grooves (24) in a sliding mode, a plurality of X-direction gear holes (26) are formed in the X-direction telescopic sub-rod (22) along the self sliding direction, X-direction positioning holes (25) corresponding to the X-direction gear holes (26) are formed in the side wall of the X-direction telescopic main rod (21), and the X-direction positioning pieces (23) sequentially penetrate through the X-direction positioning holes (25) and the X-direction gear holes (26);

one end of the Y-direction telescopic sub-rod (32) is fixedly connected to one end, far away from the Z-direction supporting sub-rod (12), of the Z-direction supporting main rod (11), Y-direction sliding grooves (34) are formed in two ends of the Y-direction telescopic main rod (31), one end, far away from the Z-direction supporting main rod (11), of the Y-direction telescopic sub-rod (32) is connected into the Y-direction sliding grooves (34) in a sliding mode, a plurality of Y-direction gear holes (36) are formed in the Y-direction telescopic sub-rod (32) in the self-sliding direction, Y-direction positioning holes (35) corresponding to the Y-direction gear holes (36) are formed in the side wall of the Y-direction telescopic main rod (31), and Y-direction positioning pieces (33) sequentially penetrate through the Y-direction positioning holes (35) and the Y-direction gear holes (36);

be provided with bracing sliding groove (44) in the flexible female pole (41) of bracing, the flexible sub-pole (42) of bracing slides and connects in bracing sliding groove (44), just be provided with a plurality of bracing gear holes (46) along self sliding direction on the flexible sub-pole (42) of bracing, the lateral wall of the flexible female pole (41) of bracing be provided with bracing locating hole (45) that bracing gear hole (46) correspond to one side, bracing setting element (43) are worn to establish in proper order bracing locating hole (45) with in bracing gear hole (46).

3. A temporary support for construction according to claim 2, wherein:

a Z-direction sliding limiting hole (17) is formed in the side wall of the Z-direction supporting female rod (11), a Z-direction limiting column (18) is fixedly connected to the Z-direction supporting male rod (12), and the Z-direction limiting column (18) is connected in the Z-direction sliding limiting hole (17) in a sliding mode;

an X-direction sliding limiting hole (27) is formed in the side wall of the X-direction telescopic female rod (21), an X-direction limiting column (28) is fixedly connected to the X-direction telescopic male rod (22), and the X-direction limiting column (28) is connected in the X-direction sliding limiting hole (27) in a sliding mode;

y is provided with Y to spacing hole (37) that slides to the lateral wall of female pole (31) of Y to flexible, Y is to the last fixedly connected with Y of flexible sub-pole (32) to spacing post (38), Y is to spacing post (38) connection of sliding in Y is to spacing hole (37) that slides.

4. A temporary support for construction according to claim 3, wherein:

one end of one inclined strut telescopic supporting rod is rotatably connected to the Z-direction limiting column (18), the other end of the inclined strut telescopic supporting rod is rotatably connected to the X-direction telescopic sub-rod (22), and the X-direction telescopic sub-rod (22) is fixedly connected to the Z-direction supporting main rod (11) which slides on the Z-direction limiting column (18);

one end of the other one of the inclined strut telescopic supporting rods is rotatably connected to the Z-direction limiting column (18), the other end of the other one of the inclined strut telescopic supporting rods is rotatably connected to the Y-direction telescopic sub-rod (32), and the Y-direction telescopic sub-rod (32) is fixedly connected to the Z-direction supporting main rod (11) which slides on the Z-direction limiting column (18).

5. A temporary support for construction according to claim 4, wherein:

one end of one inclined strut telescopic supporting rod is rotatably connected to the Z-direction limiting column (18), the other end of the inclined strut telescopic supporting rod is rotatably connected to the X-direction telescopic sub-rod (22), and the X-direction telescopic sub-rod (22) is the X-direction telescopic sub-rod (22) on one side, opposite to the X-direction telescopic sub-rod (22) on the Z-direction supporting main rod (11) on which the Z-direction limiting column (18) slides;

one end of one inclined strut telescopic supporting rod is rotatably connected to the Z-direction limiting column (18), the other end of the inclined strut telescopic supporting rod is rotatably connected to the Y-direction telescopic sub-rod (32), and the Y-direction telescopic sub-rod (32) is arranged on one side, opposite to the Y-direction telescopic sub-rod (32), of the Z-direction supporting female rod (11) on which the Z-direction limiting column (18) slides.

6. A temporary support for construction according to claim 1, wherein: the cross section of the Z-direction positioning piece (13), the X-direction positioning piece (23), the Y-direction positioning piece (33) or the inclined strut positioning piece (43) along the self axial direction is set to be a triangular structure.

7. A temporary support for construction according to claim 1, wherein: and reinforcing ribs (5) are arranged among the Z-direction supporting telescopic assembly (1), the X-direction telescopic assembly (2) and the Y-direction telescopic assembly (3).

8. A temporary support for construction according to claim 1, wherein: the surfaces of the X-direction telescopic female rod (21) and the Y-direction telescopic female rod (31) are provided with anti-skid layers (6).

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