CN218911437U - Oblique support pile for building enclosure - Google Patents

Abstract

The utility model discloses an oblique support pile for building enclosure, which comprises a foundation pit, a foundation pit bottom plate, an enclosure and a support part arranged in the foundation pit, wherein the support part comprises a first support component and a second support component, the first support component is fixed with the enclosure, and the second support component is fixed with the first support component; further comprises: the two soil improvement structures are positioned in the soil, a connecting block is fixed at the top of the soil improvement structure, the top of the connecting block penetrates through the soil and is positioned in the foundation pit, and a connecting assembly is arranged between the connecting block and the corresponding first supporting assembly; and a connecting component is also arranged between the connecting block and the corresponding second supporting component. According to the improved support pile, the positions of the first support part and the second support part are adjusted according to actual conditions, the position of the soil improvement structure in soil is not required to be changed, the workload is reduced, and the working efficiency is improved.

Description

Oblique support pile for building enclosure

Technical Field

The utility model relates to the field of building auxiliary equipment, in particular to an inclined support pile for building enclosure.

Background

In building construction, in order to ensure the safety of a foundation pit, the periphery inside the foundation pit is reinforced by a support, and meanwhile, the support is supported by an inclined support pile.

The foundation pit inclined support pile structure comprises a foundation pit bottom plate, a fender post, a top beam arranged at the top end of the fender post, a first inclined support assembly and a second inclined support assembly, wherein the publication number of the foundation pit inclined support pile structure is CN 203768914U; the first inclined support assembly comprises a first embedded pile and a plurality of first inclined support piles which are detachably connected, the first embedded pile obliquely penetrates through the foundation pit bottom plate, and the bottom end of the first embedded pile is fixedly connected with a soil improvement structure; the first inclined support pile close to one end of the first embedded pile is detachably connected with the first embedded pile, and the first inclined support pile far away from one end of the first embedded pile is fixedly connected with the top beam; the second inclined support assembly comprises a second embedded pile and a second inclined support pile; the second inclined support pile supports the first inclined support pile, so that the bearing capacity of the first inclined support pile can be improved, and the first inclined support pile is effectively prevented from losing stability.

In the patent, the soil improvement component is directly connected with the supporting part, and in the actual construction process, an operator needs to change the contact position of the supporting part and the enclosure according to the actual situation. In this way, the operator needs to reposition the soil improvement assembly at intervals, increasing the working procedures, reducing the working efficiency, and consuming time and labor.

So we propose an oblique support pile for building envelope in order to solve the above mentioned problems.

Disclosure of Invention

The utility model aims to provide an oblique support pile for building enclosure, which is used for solving the problem that in the prior support device provided by the background art, a soil improvement component is directly connected with a support part, and in the actual construction process, an operator needs to change the contact position of the support part and the enclosure according to the actual situation. In this way, the operator needs to reposition the soil improvement component at intervals, which increases the working procedures, reduces the working efficiency and is time-consuming and labor-consuming.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a building is slope support stake for enclosure, includes foundation ditch, foundation ditch bottom plate, enclosure and sets up the supporting part in the foundation ditch, the supporting part includes first supporting component and second supporting component, first supporting component is fixed mutually with the enclosure, second supporting component is fixed mutually with first supporting component;

further comprises:

the two soil improvement structures are positioned in the soil, a connecting block is fixed at the top of the soil improvement structure, the top of the connecting block penetrates through the soil and is positioned in the foundation pit, and a connecting assembly is arranged between the connecting block and the corresponding first supporting assembly;

and a connecting component is also arranged between the connecting block and the corresponding second supporting component.

Through adopting above-mentioned technical scheme, through being provided with coupling assembling, be located the fixed back in soil position at soil improvement structure, operating personnel is according to actual conditions, adjusts the position of first supporting part and second supporting part, need not to change the position that soil improvement structure is located soil, has reduced work load, has improved work efficiency.

Preferably, the first support assembly comprises a first support sleeve and a first support rod, one end of the first support sleeve is fixed with one side corresponding to the enclosure, a first screw rod is fixed at the other end of the first support rod, the first screw rod extends into the first support sleeve, and the first screw rod is in threaded connection with the first support sleeve;

the second supporting component comprises a second supporting sleeve and a second supporting rod, one end of the second supporting sleeve is fixed to the outer side of the first supporting rod, the second supporting sleeve is perpendicular to the first supporting rod, a second screw rod is fixed to one end of the second supporting rod, the second screw rod is located inside the second supporting sleeve, and the second supporting sleeve is in threaded connection with the second screw rod.

Through adopting above-mentioned technical scheme, through setting up first screw rod and second screw rod, make operating personnel can be according to actual distance, adjust the actual length of first supporting part and second supporting part, enlarge device's application range.

Preferably, the connecting assembly comprises a fixed block, a first sliding groove is formed in the top of the fixed block, a first sliding block is arranged at the first sliding groove in a sliding mode, and the two first sliding blocks are respectively fixed with the bottoms of the first supporting rod and the second supporting rod;

and a first fixing component is arranged between the first sliding block and the corresponding fixing block.

Through adopting above-mentioned technical scheme, be provided with first sliding block, through changing the inside position of first sliding block in first spout, and then adjust the inside position of first supporting part and second supporting part in the foundation ditch.

Preferably, the first fixing assembly comprises two first fixing plates, and the two first fixing plates are fixed on two sides of the corresponding first sliding block;

two second sliding grooves are symmetrically formed in the top of the fixed block, the first sliding grooves are located in the corresponding two second sliding grooves, second sliding blocks are arranged on the two second sliding grooves in a sliding mode, and the second sliding blocks are connected with the corresponding first fixed plates through bolts;

and a second fixing component is arranged between the second sliding block and the corresponding fixing block.

Through adopting above-mentioned technical scheme, be provided with two first fixed plates, through the dismantlement relation of first fixed plate and second sliding block, operating personnel can in time change first supporting part and second supporting part, have improved the speed of changing spare part.

Preferably, the second fixing component comprises a first fixing rod, and a first through hole is formed in one side of the fixing block;

a first placing groove is formed in one side of the second sliding block, one end of a first fixing rod is fixed with one side corresponding to the inner wall of the first placing groove, a rotating wheel is rotatably arranged on the outer peripheral surface of the first fixing rod, the central shaft of the first fixing rod is not collinear with the central shaft of the rotating wheel, a rotating rod is fixed at the other end of the rotating wheel, one end of the rotating rod penetrates through the first through hole, a knob is arranged on the outer peripheral surface of the rotating rod, the knob is located on the outer side of the fixing block, and a straight line where the central shaft of the rotating rod is located is collinear with a straight line where the central shaft of the first fixing rod is located;

a second placing groove is formed in the bottom of the second sliding block, and the second placing groove is communicated with the interior of the corresponding first placing groove;

a pushing block is arranged at the second placing groove in a sliding manner, an anti-slip pad is arranged at the bottom of the pushing block, a third placing groove is formed in the bottom of the pushing block, a first sliding rod is arranged in the third placing groove in a sliding manner, a first spring is arranged between the first sliding rod and the corresponding third placing groove, and two ends of the first spring are respectively fixed with the corresponding first sliding rod and one side corresponding to the inner wall of the third placing groove;

the bottom of first slide bar has seted up the fourth standing groove, fourth standing groove department activity is provided with first ball, first ball with correspond second spout inner wall bottom contacts.

By adopting the technical scheme, the rotating wheel and the pushing block are arranged, and the pushing block is driven to move by the rotating wheel, so that the anti-skid pad at the bottom of the pushing block is contacted with the bottom inside the second sliding groove, and the position of the second sliding block on the fixed block is determined; through being provided with a plurality of second balls at the top of ejector pad, make the frictional force between rotor wheel and the ejector pad become rolling friction, when rotor wheel rotates, first rotor wheel rotates more easily, improves rotor wheel and ejector pad's life simultaneously.

Preferably, a third sliding groove is symmetrically formed in the inner wall of the third placing groove, a third sliding block is symmetrically arranged on the outer side of the first sliding rod, one end of the third sliding block extends to correspond to the inner portion of the third sliding groove, and the third sliding block is in sliding connection with the third sliding groove.

Through adopting above-mentioned technical scheme, be provided with third spout and third sliding block, restricted the distance of movement of ejector pad, avoided the ejector pad to break away from the contact with corresponding second sliding block.

Preferably, a sixth placing groove is formed in the top of the pushing block, second balls are movably placed in the sixth placing grooves, and the second balls are in point contact with the corresponding rotating wheels all the time.

Through adopting above-mentioned technical scheme, through being provided with the second ball, the second ball contacts with second spout inner wall bottom, makes operating personnel conveniently remove the position that the second sliding block is located the fixed block.

Preferably, the rotating rod is provided with a limiting component;

the limiting assembly comprises a second fixed rod, a fifth placing groove is formed in one end of the rotating rod, one end of the second fixed rod is fixed with one side of the inner wall of the fifth placing groove, a fourth sliding block is arranged on the outer peripheral surface of the second fixed rod in a sliding mode, a disc is arranged on one side of the fourth sliding block, a plurality of third through holes are uniformly formed in the outer peripheral surface of the rotating rod, the inside of the third through holes is communicated with the inside of the fifth placing groove, a plurality of pressing plates are uniformly arranged on the outer peripheral surface of the disc, the pressing plates penetrate through the corresponding third through holes, and each pressing plate part is located outside the fixed block;

a screw pipe is arranged in the fifth placing groove, a pushing screw rod is connected to the screw pipe in a threaded manner, and one end of the pushing screw rod is in contact with the disc;

a plurality of sleeves are uniformly arranged on one side of the inner wall of the fifth placing groove, a second sliding rod is arranged at each sleeve in a sliding mode, and one end of the second sliding rod is fixed with one side of the disc;

a second spring is arranged between the sleeve and the corresponding second sliding rod, and two ends of the second spring are respectively fixed with the corresponding second sliding rod and one side corresponding to the inner wall of the sleeve;

along with the movement of the pushing screw, a plurality of pressing plates are contacted with the surface of the fixed block.

By adopting the technical scheme, the disc is driven to move by pushing the screw rod, and the disc drives the corresponding pressing plates to move, so that the pressing plates are contacted with one side of the fixed block, and the aim of limiting the rotation of the rotating rod is fulfilled; and meanwhile, the second spring is arranged, when the pushing screw rod returns to the initial position, the disc quickly returns to the initial position due to the elastic restoring force of the second spring, and then the pressing plate is separated from the fixed block, and the rotating rod can rotate easily at the moment.

Compared with the prior art, the utility model has the beneficial effects that: according to the improved support pile, the positions of the first support part and the second support part are adjusted according to actual conditions, the position of the soil improvement structure in soil is not required to be changed, the workload is reduced, the working efficiency is improved, and the concrete contents are as follows;

1. after the soil improvement structure is positioned in the soil and fixed, an operator adjusts the positions of the first supporting part and the second supporting part according to actual conditions, so that the position of the soil improvement structure in the soil is not required to be changed, the workload is reduced, and the working efficiency is improved;

2. the first screw and the second screw are arranged, so that an operator can adjust the actual lengths of the first supporting part and the second supporting part according to the actual distance, and the application range of the device is enlarged;

3. the two first fixing plates are arranged, and operators can replace part of the parts of the first supporting part and the second supporting part in time through the disassembling relation of the first fixing plates and the second sliding blocks, so that the speed of replacing the parts is improved;

4. the sliding block is provided with a rotating wheel and a pushing block, and the pushing block is driven to move through the rotating wheel, so that an anti-skid pad at the bottom of the pushing block is contacted with the bottom inside the second sliding groove, and the position of the second sliding block on the fixed block is determined;

5. the second balls are arranged to change the friction force between the rotating wheel and the pushing block into rolling friction, when the rotating wheel rotates, the rotating wheel rotates easily, and the service lives of the rotating wheel and the pushing block are prolonged;

6. the third sliding groove and the third sliding block are arranged, so that the movement distance of the pushing block is limited, and the pushing block is prevented from being separated from the corresponding second sliding block;

7. the second spring is arranged, when the pushing screw returns to the initial position, the disc rapidly returns to the initial position due to the elastic restoring force of the second spring, and then the pressing plate is separated from the fixed block, and the rotating rod can rotate easily at the moment.

Drawings

FIG. 1 is a schematic view of the internal structure of the present utility model;

FIG. 2 is an enlarged schematic view of the structure of FIG. 1A according to the present utility model;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2B according to the present utility model;

FIG. 4 is an enlarged schematic view of the structure of FIG. 2 at C in accordance with the present utility model;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4D according to the present utility model;

FIG. 6 is a schematic view of the partially sectioned structure of the rotary tube of FIG. 5 according to the present utility model.

In the figure: 1. a foundation pit; 11. a foundation pit bottom plate; 12. enclosing; 2. a support part; 21. a first support assembly; 22. a second support assembly; 3. a soil improvement structure; 31. a connecting block; 4. a connection assembly; 211. a first support sleeve; 212. a first support bar; 213. a first screw; 221. a second support sleeve; 222. a second support bar; 223. a second screw; 41. a fixed block; 42. a first chute; 43. a first slider; 5. a first fixing assembly; 51. a first fixing plate; 52. a second chute; 53. a second slider; 6. a second fixing assembly; 61. a first fixing rod; 62. a first placement groove; 63. a rotating wheel; 64. a rotating lever; 411. a first through hole; 641. a knob; 531. a second placement groove; 533. a pushing block; 534. an anti-slip pad; 65. a third placement groove; 66. a first slide bar; 67. a first spring; 661. a fourth placement groove; 68. a first ball; 651. a third placement groove; 69. a third slider; 610. a sixth placement groove; 611. a second ball; 8. a motion limiting assembly; 81. a second fixing rod; 82. a fifth placement groove; 83. a fourth slider; 84. a disc; 85. a third through hole; 86. a pressing plate; 821. a solenoid; 87. pushing the screw; 88. a sleeve; 89. a second slide bar; 810. and a second spring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, the present utility model provides a technical solution: an oblique support pile for a building enclosure 12 comprises a foundation pit 1, a bottom plate of the foundation pit 1, an enclosure 12 and a support part 2 arranged in the foundation pit 1. The enclosure 12 is arranged on the wall of the foundation pit 1. The support 2 includes a first support member 21 and a second support member 22.

The device also comprises two soil improvement assemblies. In this embodiment, the soil improvement structure 3 is a high pressure injection cement slurry. Two soil improvement structures 3 are located in the soil. A connecting block 31 is fixed to the top of the soil improvement structure 3. The top of the connection block 31 passes through the soil and is located inside the foundation pit 1. A connecting component 4 is arranged between the connecting block 31 and the corresponding first supporting component 21; a connection assembly 4 is also provided between the connection block 31 and the corresponding second support assembly 22.

The connection assembly 4 includes a fixing block 41. The fixed blocks 41 are connected with the corresponding connection blocks 31, and the fixed blocks 41 are located inside the foundation pit 1 and outside the soil. The bottom of the fixed block 41 is in contact with the soil. The length of the fixed block 41 is 1.3-1.5 m. In the present embodiment, the length of the fixing block 41 is 1.3 meters. The top of the fixed block 41 is provided with a first chute 42, a first sliding block 43 is slidably arranged at the first chute 42, and the two first sliding blocks 43 are respectively fixed with the bottoms of the first support rod 212 and the second support rod 222. The operator adjusts the position of the first slider 43 on the fixed block 41 according to the actual situation. Further, the positions of the first support portion 2 and the second support portion 2 inside the foundation pit 1 can be changed.

A first fixing assembly 5 is provided between the first slider 43 and the corresponding fixing block 41. The first fixing assembly 5 includes two first fixing plates 51, and the two first fixing plates 51 are fixed at both sides of the corresponding first slider 43. Two second sliding grooves 52 are symmetrically formed in the top of the fixed block 41, the first sliding groove 42 is located in the corresponding two second sliding grooves 52, second sliding blocks 53 are arranged on the two second sliding grooves 52 in a sliding mode, and the second sliding blocks 53 are connected with the corresponding first fixed plates 51 through bolts.

A second fixing assembly 6 is provided between the second slider 53 and the corresponding fixing block 41. The second fixing assembly 6 includes a first fixing rod 61, and a first through hole 411 is formed at one side of the fixing block 41; a first placing groove 62 is formed in one side of the second sliding block 53, one end of a first fixed rod 61 is fixed with one side corresponding to the inner wall of the first placing groove 62, a rotating wheel 63 is rotatably arranged on the outer peripheral surface of the first fixed rod 61, the central axis of the first fixed rod 61 is not collinear with the central axis of the rotating wheel 63, a rotating rod 64 is fixed at the other end of the rotating wheel 63, one end of the rotating rod 64 penetrates through the first through hole 411, a knob 641 is arranged on the outer peripheral surface of the rotating rod 64, the knob 641 is positioned on the outer side of the fixed block 41, and the straight line of the central axis of the rotating rod 64 is collinear with the straight line of the central axis of the first fixed rod 61; the bottom of the second sliding block 53 is provided with a second placing groove 531, and the second placing groove 531 is communicated with the inside of the corresponding first placing groove 62; the second placing groove 531 is provided with a pushing block 533 in a sliding manner, the bottom of the pushing block 533 is provided with an anti-slip pad 534, the bottom of the pushing block 533 is provided with a third placing groove 65165, a first sliding rod 66 is arranged in the third placing groove 65165 in a sliding manner, a first spring 67 is arranged between the first sliding rod 66 and the corresponding third placing groove 65165, and two ends of the first spring 67 are respectively fixed with the corresponding first sliding rod 66 and one side corresponding to the inner wall of the third placing groove 65165; a fourth placing groove 661 is formed in the bottom of the first sliding rod 66, a first ball 68 is movably arranged at the fourth placing groove 661, and the first ball 68 is in contact with the bottom of the inner wall of the corresponding second sliding groove 52. The rotating wheel 63 and the pushing block 533 are arranged, and the pushing block 533 is driven to move by the rotating wheel 63, so that the anti-skid pad 534 at the bottom of the pushing block 533 is contacted with the bottom inside the second chute 52, and the position of the second sliding block 53 on the fixed block 41 is determined; by arranging a plurality of second balls 611 on the top of the push block 533, the friction force between the rotating wheel 63 and the push block 533 is changed into rolling friction, when the rotating wheel 63 rotates, the rotating wheel 63 rotates easily, and the service lives of the rotating wheel 63 and the push block 533 are prolonged.

Third sliding grooves are symmetrically formed in the inner wall of the third placing groove 65165, third sliding blocks 69 are symmetrically arranged on the outer side of the first sliding rod 66, one ends of the third sliding blocks 69 extend into the corresponding third sliding grooves, and the third sliding blocks 69 are in sliding connection with the third sliding grooves. The third sliding groove and the third sliding block 69 are provided to limit the movement distance of the push block 533, and prevent the push block 533 from being out of contact with the corresponding second sliding block 53.

The top of the pushing block 533 is provided with a sixth placing groove 610, the second balls 611 are movably placed in the sixth placing grooves 610, and the second balls 611 are always in point contact with the corresponding rotating wheels 63. The second ball 611 is always in contact with the bottom of the inner wall of the second chute 52 under the action of the first spring 67, and the rotating wheel 63 is always in contact with the top of the push block 533 under the action of the first spring 67. By providing the second balls 611, the second balls 611 contact with the bottom of the inner wall of the second sliding groove 52, so that an operator can conveniently move the position of the second sliding block 53 on the fixed block 41.

The rotation rod 64 is provided with a limiting component 8; the limiting component 8 comprises a second fixed rod 81, a fifth placing groove 82 is formed in one end of the rotating rod 64, one end of the second fixed rod 81 is fixed to one side of the inner wall of the fifth placing groove 82, a fourth sliding block 83 is arranged on the outer peripheral surface of the second fixed rod 81 in a sliding mode, a disc 84 is arranged on one side of the fourth sliding block 83, a plurality of third through holes 85 are uniformly formed in the outer peripheral surface of the rotating rod 64, the inside of the third through holes 85 is communicated with the inside of the fifth placing groove 82, a plurality of pressing plates 86 are uniformly arranged on the outer peripheral surface of the disc 84, the pressing plates 86 penetrate through the corresponding third through holes 85, and each pressing plate 86 is located outside the fixed block 41; a screw pipe 821 is arranged in the fifth placing groove 82, a pushing screw rod 87 is connected at the screw pipe 821 in a threaded manner, and one end of the pushing screw rod 87 is contacted with the disc 84; a plurality of sleeves 88 are uniformly arranged on one side of the inner wall of the fifth placing groove 82, a second sliding rod 89 is slidably arranged at each sleeve 88, and one end of the second sliding rod 89 is fixed with one side of the disc 84; a second spring 810 is arranged between the sleeve 88 and the corresponding second sliding rod 89, and two ends of the second spring 810 are respectively fixed with the corresponding second sliding rod 89 and one side of the inner wall of the corresponding sleeve 88; as the push screw 87 moves, the plurality of pressing plates 86 are brought into contact with the surface of the fixed block 41. The disc 84 is driven to move by pushing the screw rod 87, and the disc 84 drives the corresponding pressing plates 86 to move, so that the pressing plates 86 are contacted with one side of the fixed block 41, and the aim of limiting the rotation of the rotating rod 64 is fulfilled; meanwhile, a second spring 810 is provided, when the screw 87 is pushed back to the initial position, the disc 84 is quickly returned to the initial position due to the elastic restoring force of the second spring 810, and the pressing plate 86 is further separated from the fixed block 41, so that the rotating rod 64 can be easily rotated.

The first supporting component 21 comprises a first supporting sleeve 211 and a first supporting rod 212, one end of the first supporting sleeve 211 is fixed with one side of the corresponding enclosure 12, a first screw 213 is fixed at the other end of the first supporting rod 212, the first screw 213 extends into the first supporting sleeve 211, and the first screw 213 is in threaded connection with the first supporting sleeve 211; the second support assembly 22 includes a second support sleeve 221 and a second support rod 222, wherein one end of the second support sleeve 221 is fixed to the outer side of the first support rod 212, the second support sleeve 221 is perpendicular to the first support rod 212, a second screw 223 is fixed to one end of the second support rod 222, a portion of the second screw 223 is located inside the second support sleeve 221, and the second support sleeve 221 is in threaded connection with the second screw 223. By providing the first screw 213 and the second screw 223, an operator can adjust the actual lengths of the first support part 2 and the second support part 2 according to the actual distance, thereby expanding the application range of the device.

Working principle:

the operator first places soil improvement structure 3 in the soil. In this embodiment, the soil improvement structure 3 is a high pressure injection cement slurry. The operator first moves the second slider 53 according to the actual situation.

When the second slider 53 is moved, the operator rotates the knob 641, and the knob 641 drives the rotating lever 64 to rotate, and the rotating lever 64 drives the corresponding rotating wheel 63 to rotate. Since the line of the central axis of the first fixing lever 61 is not collinear with the line of the central axis of the corresponding rotating wheel 63, the rotating wheel 63 rotates. The rotating wheel 63 drives the corresponding push block 533 to move.

Since the rotating wheel 63 and the second ball 611 on the push block 533 are in rolling friction, the force required by the operator to rotate the rotating wheel 63 is small, so that the operator can conveniently and rapidly rotate the rotating wheel 63.

The rotating wheel 63 drives the push block 533 to move downward. The push block 533 moves the anti-slip pad 534 thereon downward while the first spring 67 is in an elastically compressed state. When the anti-skid pad 534 contacts the bottom inside the second chute 52, the anti-skid pad 534 deforms. The operator stops turning the knob 641. At this time, the position of the second slider 53 is fixed.

Then, the operator rotates the push screw 87 by using a tool, and when the push screw 87 rotates, the disc 84 is driven to move, and the disc 84 drives the five pressing plates 86 thereon to move simultaneously. The disc 84 drives the second sliding rod 89 to move, and the second sliding rod 89 drives the second spring 810 to compress and deform.

When all five pressing plates 86 are partially contacted with one side of the fixed block 41. The operator stops rotating the push screw 87. The position of the rotating lever 64 is fixed at this time due to the friction force between the pressing plate 86 and the fixed block 41, and the rotating lever 64 cannot rotate without being subjected to external force.

Next, the operator slides the first slider 43, and moves the first slider 43 to a proper position. The operator uses bolts to pass through the first fixing plate 51 and the corresponding second sliding blocks 53, fix the first sliding block 43 with the two second sliding blocks 53, and fix the position of the first sliding block 43 on the fixing block 41.

Finally, the operator installs the first support 2 and the second support 2.

One end of the first supporting portion 2 is fixed to the enclosure 12, and one end of the second supporting portion 2 is fixed to the first supporting portion 2. The first support part 2 and the second support part 2 form a triangular support shape, so that the support force received by the enclosure 12 is increased, and the service life of the enclosure 12 is prolonged.

What is not described in detail in this specification is prior art known to those skilled in the art.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (8)

1. The utility model provides a building is slant support stake for enclosure, includes foundation ditch (1), foundation ditch bottom plate (11), enclosure (12) and sets up supporting part (2) in foundation ditch (1), supporting part (2) are including first supporting component (21) and second supporting component (22), first supporting component (21) with enclosure (12) are fixed mutually, second supporting component (22) with first supporting component (21) are fixed mutually;

characterized by further comprising:

the two soil improvement structures (3), the two soil improvement structures (3) are positioned in the soil, a connecting block (31) is fixed at the top of the soil improvement structures (3), the top of the connecting block (31) penetrates through the soil and is positioned in the foundation pit (1), and a connecting component (4) is arranged between the connecting block (31) and the corresponding first supporting component (21);

a connecting component (4) is also arranged between the connecting block (31) and the corresponding second supporting component (22).

2. The diagonal support stake for building envelope of claim 1, wherein: the first support assembly (21) comprises a first support sleeve (211) and a first support rod (212), one end of the first support sleeve (211) is fixed with one side corresponding to the enclosure (12), a first screw rod (213) is fixed at the other end of the first support rod (212), the first screw rod (213) extends into the first support sleeve (211), and the first screw rod (213) is in threaded connection with the first support sleeve (211);

the second support assembly (22) comprises a second support sleeve (221) and a second support rod (222), one end of the second support sleeve (221) is fixed with the outer side of the first support rod (212), the second support sleeve (221) is perpendicular to the first support rod (212), a second screw (223) is fixed at one end of the second support rod (222), a part of the second screw (223) is located inside the second support sleeve (221), and the second support sleeve (221) is in threaded connection with the second screw (223).

3. The diagonal support stake for building envelope of claim 2, wherein: the connecting assembly (4) comprises fixed blocks (41), a first sliding groove (42) is formed in the top of each fixed block (41), a first sliding block (43) is arranged at each first sliding groove (42) in a sliding mode, and the two first sliding blocks (43) are respectively fixed with the bottoms of the first supporting rod (212) and the second supporting rod (222);

a first fixing component (5) is arranged between the first sliding block (43) and the corresponding fixing block (41).

4. A diagonal support stake for building enclosures according to claim 3 wherein: the first fixing assembly (5) comprises two first fixing plates (51), and the two first fixing plates (51) are fixed on two sides corresponding to the first sliding blocks (43);

two second sliding grooves (52) are symmetrically formed in the top of the fixed block (41), the first sliding grooves (42) are located in the corresponding two second sliding grooves (52), second sliding blocks (53) are arranged on the two second sliding grooves (52) in a sliding mode, and the second sliding blocks (53) are connected with the corresponding first fixed plates (51) through bolts;

a second fixing component (6) is arranged between the second sliding block (53) and the corresponding fixing block (41).

5. The diagonal support stake for building envelope of claim 4 wherein: the second fixing assembly (6) comprises a first fixing rod (61), and a first through hole (411) is formed in one side of the fixing block (41);

a first placing groove (62) is formed in one side of the second sliding block (53), one end of a first fixing rod (61) is fixed with one side corresponding to the inner wall of the first placing groove (62), a rotating wheel (63) is rotatably arranged on the outer peripheral surface of the first fixing rod (61), the central axis of the first fixing rod (61) is not collinear with the central axis of the rotating wheel (63), a rotating rod (64) is fixed at the other end of the rotating wheel (63), one end of the rotating rod (64) penetrates through the first through hole (411), a knob (641) is arranged on the outer peripheral surface of the rotating rod (64), the knob (641) is located on the outer side of the fixing block (41), and a straight line where the central axis of the rotating rod (64) is located is collinear with a straight line where the central axis of the first fixing rod (61) is located;

a second placing groove (531) is formed in the bottom of the second sliding block (53), and the second placing groove (531) is communicated with the interior of the corresponding first placing groove (62);

the second placing groove (531) is provided with a pushing block (533) in a sliding manner, the bottom of the pushing block (533) is provided with an anti-slip pad (534), the bottom of the pushing block (533) is provided with a third placing groove (65), a first sliding rod (66) is arranged in the third placing groove (65) in a sliding manner, a first spring (67) is arranged between the first sliding rod (66) and the corresponding third placing groove (65), and two ends of the first spring (67) are respectively fixed with the corresponding first sliding rod (66) and one side corresponding to the inner wall of the third placing groove (65);

a fourth placing groove (661) is formed in the bottom of the first sliding rod (66), a first ball (68) is movably arranged at the fourth placing groove (661), and the first ball (68) is in contact with the bottom of the inner wall of the corresponding second sliding groove (52).

6. The diagonal bracing pile for building envelope according to claim 5, wherein: third spout (651) have been seted up to third standing groove (65) inner wall symmetry, first slide bar (66) outside symmetry is provided with third sliding block (69), the one end of third sliding block (69) extends to correspondingly inside third spout (651), third sliding block (69) with third spout (651) sliding connection.

7. The diagonal bracing pile for building envelope according to claim 5, wherein: a sixth placing groove (610) is formed in the top of the pushing block (533), second balls (611) are movably placed at the positions of the sixth placing grooves (610), and the second balls (611) are always in point contact with the corresponding rotating wheels (63).

8. The diagonal bracing pile for building envelope according to claim 5, wherein: a limiting component (8) is arranged on the rotating rod (64);

the limiting assembly (8) comprises a second fixing rod (81), a fifth placing groove (82) is formed in one end of the rotating rod (64), one end of the second fixing rod (81) is fixed to one side of the inner wall of the fifth placing groove (82), a fourth sliding block (83) is slidably arranged on the outer peripheral surface of the second fixing rod (81), a disc (84) is arranged on one side of the fourth sliding block (83), a plurality of third through holes (85) are uniformly formed in the outer peripheral surface of the rotating rod (64), the inside of the third through holes (85) is communicated with the inside of the fifth placing groove (82), a plurality of pressing plates (86) are uniformly arranged on the outer peripheral surface of the disc (84), the pressing plates (86) penetrate through the corresponding third through holes (85), and each pressing plate (86) is located outside of the fixing block (41);

a screw pipe (821) is arranged in the fifth placing groove (82), a pushing screw rod (87) is connected at the screw pipe (821) in a threaded mode, and one end of the pushing screw rod (87) is in contact with the disc (84);

a plurality of sleeves (88) are uniformly arranged on one side of the inner wall of the fifth placing groove (82), a second sliding rod (89) is slidably arranged at each sleeve (88), and one end of the second sliding rod (89) is fixed with one side of the disc (84);

a second spring (810) is arranged between the sleeve (88) and the corresponding second sliding rod (89), and two ends of the second spring (810) are respectively fixed with the corresponding second sliding rod (89) and one side corresponding to the inner wall of the sleeve (88);

with the movement of the pushing screw rod (87), a plurality of pressing plates (86) are contacted with the surface of the fixed block (41).

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