阅读说明：本技术 一种用于建筑施工的高强度可调节式支护结构 (A high strength adjustable supporting construction for construction ) 是由 王义山 刘庆 于 2021-09-11 设计创作，主要内容包括：本发明适用于支护结构技术领域,提供了一种用于建筑施工的高强度可调节式支护结构,包括墙体,还包括：连接组件、锁紧组件、支撑调节组件、抓地组件、观察组件、第一支撑杆、第二支撑杆和支撑筒,所述第一支撑杆和第二支撑杆通过观察组件弹性连接,所述第二支撑杆与支撑筒滑动连接,所述支撑筒与抓地组件转动连接。利用抓地组件将支撑筒固定在地面上,支撑调节组件通过转动的方式对支撑力进行调节,并且通过观察组件对支撑力进行检查,锁紧组件用于限制第二支撑杆向支撑筒一端滑动,从而保证支撑的稳定性,定时通过观察组件对支撑力进行检查,当发现由于土壤下陷导致支撑力变小时,通过支撑调节组件对支撑力进行调节。(The invention is suitable for the technical field of supporting structures, and provides a high-strength adjustable supporting structure for building construction, which comprises a wall body and also comprises: coupling assembling, locking Assembly, support adjusting part, ground subassembly, observation subassembly, first bracing piece, second bracing piece and a support section of thick bamboo grab, first bracing piece and second bracing piece are through observing subassembly elastic connection, second bracing piece and a support section of thick bamboo sliding connection, a support section of thick bamboo rotates with ground subassembly and is connected. Utilize and grab ground subassembly and fix a supporting cylinder subaerial, support adjusting part and adjust the holding power through the pivoted mode to checking the holding power through observing the subassembly, locking Assembly is used for restricting the second bracing piece and slides to a supporting cylinder one end, thereby guarantees the stability of supporting, regularly checks the holding power through observing the subassembly, when finding because the soil sinks to lead to the holding power to diminish, adjusts the holding power through supporting adjusting part.)

1. The utility model provides a high strength adjustable supporting construction for construction, includes the wall body, its characterized in that still includes:

the ground-grabbing device comprises a connecting assembly, a locking assembly, a supporting and adjusting assembly, a ground-grabbing assembly, an observation assembly, a first supporting rod, a second supporting rod and a supporting cylinder, wherein the first supporting rod and the second supporting rod are elastically connected through the observation assembly, the second supporting rod is in sliding connection with the supporting cylinder, and the supporting cylinder is in rotating connection with the ground-grabbing assembly;

first bracing piece passes through coupling assembling and wall connection, it is used for showing the holding power of second bracing piece to the wall body to observe the subassembly, support adjusting part and install on a support section of thick bamboo, support adjusting part and adjust the holding power through the pivoted mode, locking Assembly installs on a support section of thick bamboo, locking Assembly is used for restricting the second bracing piece and slides to a support section of thick bamboo one end, grab ground subassembly and be used for fixing a support section of thick bamboo on ground.

2. The high-strength adjustable supporting structure for building construction according to claim 1, wherein the connecting assembly includes a friction plate, a connecting plate and an anchor rod, the anchor rod is embedded on the wall body, the friction plate is fixedly installed on the connecting plate, the connecting plate is slidably connected with the anchor rod, the anchor rod is obliquely arranged, and the connecting plate is rotatably connected with the first supporting rod.

3. The adjustable supporting structure for high strength used in building construction according to claim 1, wherein the observation assembly includes a scale mark, a third sliding block and a second elastic member, the scale mark is disposed on the first supporting rod, the third sliding block is fixedly mounted at the end of the first supporting rod, a third sliding groove is disposed in the second supporting rod, the third sliding block is slidably connected with the third sliding groove, and the second elastic member is sleeved on the first supporting rod.

4. The adjustable high-strength supporting structure for building construction according to claim 1, wherein the ground grabbing assembly comprises a supporting seat, a ground grabbing nail and a hinged seat, the ground grabbing nail is screwed on the supporting seat, the hinged seat is fixedly installed on the supporting seat, and the hinged seat is rotatably connected with the supporting cylinder.

5. The high-strength adjustable supporting structure for building construction according to claim 4, wherein four ground grabbing nails are provided, and four ground grabbing nails are uniformly installed on the supporting base.

6. The adjustable supporting construction with high strength for building construction according to claim 1, wherein the supporting adjusting assembly includes an adjusting ring and a second sliding block, the adjusting ring is rotatably connected with the supporting cylinder, the second supporting rod is provided with an adjusting chute, the second sliding block is slidably connected with the adjusting chute, and the second sliding block is fixedly mounted on the adjusting ring.

7. The high-strength adjustable supporting structure for building construction according to claim 6, wherein the locking assembly includes a rotation ring, a ratchet, a first slider, a self-locking rod, a first elastic member, a pulling plate and a self-locking block, a rotation groove is provided on the supporting cylinder, the rotation ring is sleeved on the second supporting rod, the rotation ring is located in the rotation groove, the first slider is fixedly mounted on the inner side wall of the rotation ring, the first slider is slidably connected with the adjusting groove, the ratchet is fixedly mounted on the outer side wall of the rotation ring, the self-locking rod is slidably connected with the supporting cylinder, the self-locking block is fixedly mounted at one end of the supporting cylinder, the self-locking block is engaged with the ratchet, the pulling plate is fixedly mounted at the other end of the supporting cylinder, and two ends of the first elastic member are respectively and fixedly mounted on the pulling plate and the supporting cylinder.

Technical Field

The invention belongs to the technical field of supporting structures, and particularly relates to a high-strength adjustable supporting structure for building construction.

Background

The supporting structure is very important in building construction, and in order to ensure the normal operation of construction and the safety of personnel, the wall body needs to be supported in the construction. The high-strength adjustable supporting structure for building construction supports a wall body in a pouring mode, so that the strength of the supporting structure is improved.

During construction, soil sinks due to the fact that the soil is soft or the construction site vibrates, the support is in a suspended state at the moment, the wall cannot be supported, and when the sinking degree of the soil is small, whether the support plays a supporting role or not cannot be observed, and the support cannot be adjusted in time.

Disclosure of Invention

The embodiment of the invention aims to provide a high-strength adjustable supporting structure for building construction, and aims to solve the problem that when soil sinks due to softness or vibration of a construction site, the supporting structure cannot support a wall body when the supporting structure is in a suspended state.

The embodiment of the invention is realized in such a way that the high-strength adjustable supporting structure for building construction comprises a wall body and also comprises:

the ground-grabbing device comprises a connecting assembly, a locking assembly, a supporting and adjusting assembly, a ground-grabbing assembly, an observation assembly, a first supporting rod, a second supporting rod and a supporting cylinder, wherein the first supporting rod and the second supporting rod are elastically connected through the observation assembly, the second supporting rod is in sliding connection with the supporting cylinder, and the supporting cylinder is in rotating connection with the ground-grabbing assembly;

first bracing piece passes through coupling assembling and wall connection, it is used for showing the holding power of second bracing piece to the wall body to observe the subassembly, support adjusting part and install on a support section of thick bamboo, support adjusting part and adjust the holding power through the pivoted mode, locking Assembly installs on a support section of thick bamboo, locking Assembly is used for restricting the second bracing piece and slides to a support section of thick bamboo one end, grab ground subassembly and be used for fixing a support section of thick bamboo on ground.

Further technical scheme, coupling assembling includes friction plate, connecting plate and stock, the stock is inlayed on the wall body, friction plate fixed mounting is on the connecting plate, connecting plate and stock sliding connection, the stock slope sets up, the connecting plate rotates with first bracing piece to be connected.

According to a further technical scheme, the observation assembly comprises scale marks, a third sliding block and a second elastic piece, the scale marks are arranged on the first supporting rod, the third sliding block is fixedly installed at the tail end of the first supporting rod, a third sliding groove is formed in the second supporting rod, the third sliding block is connected with the third sliding groove in a sliding mode, and the second elastic piece is sleeved on the first supporting rod.

Further technical scheme, grab ground subassembly and include the supporting seat, grab ground nail and articulated seat, grab ground nail threaded connection on the supporting seat, articulated seat fixed mounting is on the supporting seat, articulated seat rotates with a support section of thick bamboo to be connected.

According to the further technical scheme, the four ground grabbing nails are uniformly arranged on the supporting seat.

According to the technical scheme, the supporting and adjusting assembly comprises an adjusting ring and a second sliding block, the adjusting ring is rotatably connected with the supporting cylinder, an adjusting sliding groove is formed in the second supporting rod, the second sliding block is connected with the adjusting sliding groove in a sliding mode, and the second sliding block is fixedly installed on the adjusting ring.

A further technical scheme, locking Assembly includes rotating ring, ratchet, first slider, from locking lever, first elastic component, arm-tie and from the locking piece, be provided with the rotation groove on the support cylinder, the rotating ring cover is established on the second bracing piece, just the rotating ring is located the rotation inslot, first slider fixed mounting is at the inside wall of rotating ring, first slider and regulation spout sliding connection, ratchet fixed mounting is at the lateral wall of rotating ring, from locking lever and support cylinder sliding connection, from locking piece fixed mounting is in the one end of support cylinder, from locking piece and ratchet meshing cooperation, arm-tie fixed mounting is at the other end of support cylinder, the both ends of first elastic component are fixed mounting respectively on arm-tie and support cylinder.

When the high-strength adjustable supporting structure for building construction is used, the first supporting rod is connected with a wall body through the connecting assembly, the supporting cylinder is fixed on the ground through the ground grabbing assembly, the supporting force is adjusted through the supporting adjusting assembly in a rotating mode and is checked through the observing assembly, the locking assembly is used for limiting the second supporting rod to slide towards one end of the supporting cylinder, so that the supporting stability is guaranteed, the supporting force is checked through the observing assembly at regular time, and when the supporting force is reduced due to soil subsidence, the supporting force is adjusted through the supporting adjusting assembly, so that supporting is more stable and reliable.

Drawings

Fig. 1 is a schematic structural diagram of a high-strength adjustable supporting structure for building construction according to an embodiment of the present invention;

FIG. 2 is a schematic top view of the structure of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a front view structure of FIG. 1 according to an embodiment of the present invention;

FIG. 4 is an enlarged structural diagram of A in FIG. 3 according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a second slider in fig. 1 according to an embodiment of the present invention.

In the drawings: the wall body 1, a connecting assembly 2, a friction plate 201, a connecting plate 202, an anchor rod 203, a locking assembly 3, a rotating groove 301, a rotating ring 302, a ratchet wheel 303, a first sliding block 304, a self-locking rod 305, a first elastic piece 306, a pulling plate 307, a self-locking block 308, a supporting and adjusting assembly 4, an adjusting sliding groove 401, an adjusting ring 402, a second sliding block 403, a ground grabbing assembly 5, a supporting seat 501, a ground grabbing nail 502, a hinged seat 503, an observation assembly 6, a scale mark 601, a third sliding groove 602, a third sliding block 603, a second elastic piece 604, a first supporting rod 7, a second supporting rod 8 and a supporting barrel 9.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1, a high-strength adjustable supporting structure for building construction according to an embodiment of the present invention includes a wall 1, and further includes:

the ground-grasping device comprises a connecting assembly 2, a locking assembly 3, a supporting and adjusting assembly 4, a ground-grasping assembly 5, an observation assembly 6, a first supporting rod 7, a second supporting rod 8 and a supporting cylinder 9, wherein the first supporting rod 7 and the second supporting rod 8 are elastically connected through the observation assembly 6, the second supporting rod 8 is in sliding connection with the supporting cylinder 9, and the supporting cylinder 9 is in rotating connection with the ground-grasping assembly 5;

first bracing piece 7 is connected with wall body 1 through coupling assembling 2, it is used for showing the holding power of second bracing piece 8 to wall body 1 to observe subassembly 6, support adjusting part 4 and install on a support section of thick bamboo 9, support adjusting part 4 and adjust the holding power through the pivoted mode, locking Assembly 3 is installed on a support section of thick bamboo 9, locking Assembly 3 is used for restricting second bracing piece 8 and slides to a support section of thick bamboo 9 one end, grab ground subassembly 5 and be used for fixing a support section of thick bamboo 9 on ground.

In the embodiment of the invention, when the supporting device is used, the first supporting rod 7 is connected with the wall body 1 through the connecting component 2, the supporting cylinder 9 is fixed on the ground through the ground grabbing component 5, the supporting force is adjusted through the supporting adjusting component 4 in a rotating mode and is checked through the observing component 6, the locking component 3 is used for limiting the second supporting rod 8 to slide towards one end of the supporting cylinder 9, so that the supporting stability is ensured, the supporting force is checked through the observing component 6 at regular time, and when the supporting force is reduced due to soil subsidence, the supporting force is adjusted through the supporting adjusting component 4, so that the supporting is more stable and reliable.

As shown in fig. 1 to 3, as a preferred embodiment of the present invention, the connection assembly 2 includes a friction plate 201, a connection plate 202 and an anchor rod 203, the anchor rod 203 is embedded in the wall 1, the friction plate 201 is fixedly installed on the connection plate 202, the connection plate 202 is slidably connected to the anchor rod 203, the anchor rod 203 is disposed in an inclined manner, and the connection plate 202 is rotatably connected to the first support rod 7.

In the embodiment of the present invention, the friction plate 201 is made of a rubber pad to increase the stability of the connection and protect the wall 1, and the anchor rod 203 is engaged with the hole of the connection plate 202 to fixedly connect the connection plate 202 with the wall 1 by an upward thrust.

As shown in fig. 1 to 4, as a preferred embodiment of the present invention, the observation assembly 6 includes a scale mark 601, a third slider 603 and a second elastic member 604, the scale mark 601 is disposed on the first support rod 7, the third slider 603 is fixedly mounted at a distal end of the first support rod 7, a third sliding groove 602 is disposed in the second support rod 8, the third slider 603 is slidably connected to the third sliding groove 602, and the second elastic member 604 is sleeved on the first support rod 7.

In the embodiment of the present invention, it is preferable that the second elastic member 604 is a compression spring; the second elastic member 604 pushes the third slide block 603 to move upward and leftward, the third slide block 603 pushes the first support rod 7 to support the wall 1, and the degree of compression of the second elastic member 604 is observed through the scale marks 601, so that the magnitude of the support force is determined.

As shown in fig. 1, as a preferred embodiment of the present invention, the ground grabbing assembly 5 comprises a supporting seat 501, a ground grabbing nail 502 and a hinge seat 503, wherein the ground grabbing nail 502 is screwed on the supporting seat 501, the hinge seat 503 is fixedly installed on the supporting seat 501, and the hinge seat 503 is rotatably connected with the supporting cylinder 9.

In the embodiment of the invention, the supporting cylinder 9 is fixed on the ground through the supporting seat 501, and the ground gripping force is increased by the ground gripping nail 502.

As shown in fig. 1, as a preferred embodiment of the present invention, four ground grabbing nails 502 are provided, and the four ground grabbing nails 502 are uniformly installed on a supporting seat 501.

In the embodiment of the invention, four ground grabbing nails 502 are arranged, and the four ground grabbing nails 502 are uniformly arranged on the supporting seat 501.

As shown in fig. 1 to 4, as a preferred embodiment of the present invention, the supporting and adjusting assembly 4 includes an adjusting ring 402 and a second sliding block 403, the adjusting ring 402 is rotatably connected to the supporting cylinder 9, the second supporting rod 8 is provided with an adjusting slide slot 401, the second sliding block 403 is slidably connected to the adjusting slide slot 401, and the second sliding block 403 is fixedly mounted on the adjusting ring 402.

In the embodiment of the present invention, the adjusting ring 402 is rotated to drive the second slider 403 to rotate, and the second slider 403 drives the second supporting rod 8 to move up and down through the adjusting sliding slot 401, so as to adjust the magnitude of the supporting force.

As shown in fig. 1 to 4, as a preferred embodiment of the present invention, the locking assembly 3 includes a rotating ring 302, a ratchet wheel 303, a first slider 304, a self-locking lever 305, a first elastic member 306, a pulling plate 307 and a self-locking block 308, the supporting cylinder 9 is provided with a rotating groove 301, the rotating ring 302 is sleeved on the second supporting rod 8, and the rotating ring 302 is positioned in the rotating groove 301, the first sliding block 304 is fixedly arranged on the inner side wall of the rotating ring 302, the first sliding block 304 is slidably connected with the adjusting sliding groove 401, the ratchet wheel 303 is fixedly arranged on the outer side wall of the rotating ring 302, the self-locking rod 305 is connected with the supporting cylinder 9 in a sliding way, the self-locking block 308 is fixedly arranged at one end of the supporting cylinder 9, the self-locking block 308 is engaged with the ratchet wheel 303, the pulling plate 307 is fixedly arranged at the other end of the supporting cylinder 9, the two ends of the first elastic element 306 are respectively fixedly arranged on the pulling plate 307 and the supporting cylinder 9.

In the embodiment of the present invention, it is preferable that the first elastic member 306 is a tension spring; when the second support bar 8 moves upwards, the adjusting chute 401 and the first slide block 304 drive the rotating ring 302 to rotate counterclockwise at the top view angle of fig. two, the rotating ring 302 drives the ratchet wheel 303 to rotate counterclockwise, and the ratchet wheel 303 overcomes the pulling force of the first elastic piece 306 to push the self-locking block 308; after the supporting force is adjusted, the first elastic piece 306 pulls the self-locking block 308 to be meshed with the ratchet wheel 303, the self-locking block 308 limits the clockwise rotation of the ratchet wheel 303, the ratchet wheel 303 limits the clockwise rotation of the rotating ring 302, and the adjusting sliding groove 401 and the first sliding block 304 limit the second supporting rod 8 to be retracted into the supporting cylinder 9, so that the supporting force is guaranteed to be unchanged.

The embodiment of the invention provides a high-strength adjustable supporting structure for building construction, when in use, an anchor rod 203 is matched with a hole on a connecting plate 202, the connecting plate 202 is fixedly connected with a wall body 1 through upward thrust, a supporting cylinder 9 is fixed on the ground through a supporting seat 501, ground grabbing force is increased by a ground grabbing nail 502, a second sliding block 403 is driven to rotate through rotating an adjusting ring 402, the second sliding block 403 drives a second supporting rod 8 to move up and down through an adjusting chute 401, so that the magnitude of supporting force is adjusted, the rotating ring 302 is driven to rotate anticlockwise at a top view angle of figure two through the adjusting chute 401 and a first sliding block 304 when the second supporting rod 8 moves up, the rotating ring 302 drives a ratchet wheel 303 to rotate anticlockwise, the ratchet wheel 303 overcomes the tension of a first elastic piece 306 to push a self-locking piece 308, and after the supporting force is adjusted, the first elastic piece 306 pulls the self-locking piece 308 to be meshed with the ratchet wheel 303, the self-locking block 308 limits the clockwise rotation of the ratchet wheel 303, the ratchet wheel 303 limits the clockwise rotation of the rotating ring 302, the adjusting sliding groove 401 and the first sliding block 304 are utilized to limit the second supporting rod 8 from contracting into the supporting cylinder 9, so that the supporting force is ensured to be unchanged, the second elastic piece 604 pushes the third sliding block 603 to move towards the upper left, the third sliding block 603 pushes the first supporting rod 7 to support the wall 1, the compression degree of the second elastic piece 604 is observed through the scale mark 601, so that the size of the supporting force is determined, after the ground sinks, the second sliding block 403 is driven to rotate anticlockwise by rotating the adjusting ring 402, and the second sliding block 403 drives the second supporting rod 8 to move upwards through the adjusting sliding groove 401, so that the supporting force is adjusted.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.