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CN-224228694-U - Quick supporting construction in geological architecture area

CN224228694UCN 224228694 UCN224228694 UCN 224228694UCN-224228694-U

Abstract

The utility model relates to the technical field of supporting equipment, in particular to a rapid supporting structure of a geological structural belt. The technical scheme includes that the device comprises a bottom plate, a pair of vertical support sliding sleeves fixedly mounted on the upper surface of the bottom plate, a telescopic support arch frame arranged at the top of each vertical support sliding sleeve, and a pushing mechanism arranged on each vertical support sliding sleeve and driving the support arch frame to move up and down. The utility model utilizes the cooperation of the structures such as the supporting sliding sleeve, the supporting arch frame, the pushing mechanism, the locking mechanism and the like, and the geological structure belt rapid supporting structure adopts the supporting arch frame with adjustable height and the rapid locking structure. The supporting arch frame can move up and down to flexibly adapt to different space requirements, the supporting arch frame is driven to lift through the mechanical transmission structure, the installation process is simplified, the efficiency is improved, and finally the locking mechanism is multiple fixed, so that the mechanical property and the safety of the supporting structure are ensured.

Inventors

  • CHU WEI
  • Deng Jiurong
  • WAN FALIN
  • LIU YONGXIANG
  • ZHANG JIAQIN

Assignees

  • 贵州化工建设有限责任公司

Dates

Publication Date
20260512
Application Date
20250526

Claims (6)

  1. 1. The utility model provides a geological structure area quick support structure, includes bottom plate (1), its characterized in that still includes: The vertical support sliding sleeves (2) are fixedly arranged on the upper surface of the bottom plate (1), and telescopic support arches (3) are arranged at the tops of the vertical support sliding sleeves (2); The pushing mechanism is arranged on the vertical support sliding sleeve (2) to drive the support arch (3) to move up and down; The pushing mechanism comprises threads (23) arranged on the vertical support sliding sleeve (2), the vertical support sliding sleeve (2) is provided with a spiral supporting sleeve (5) in a spiral sleeve manner through the threads (23), two ends of the support arch (3) are fixedly connected with lifting clamping supporting plates (31), and a rotary supporting groove (53) for clamping the lifting clamping supporting plates (31) is formed in the top of the spiral supporting sleeve (5); The locking mechanism is arranged in the vertical support sliding sleeve (2) and used for fixing the position of the support arch (3) after moving; The locking mechanism comprises a clamping plate (22) fixedly connected to the top end of the vertical support sliding sleeve (2), a first limiting chute (21) for supporting the arch (3) to slide is formed in the vertical support sliding sleeve (2), and a locking support block (4) for clamping the spiral supporting sleeve (5) with the clamping plate (22) is arranged in the first limiting chute (21).
  2. 2. The quick supporting structure for the geologic structure belt according to claim 1, wherein a plurality of convex sleeves (51) distributed in a circumferential array are fixedly connected to the outer wall of the spiral supporting sleeve (5), and slots (52) are formed in one ends, far away from the spiral supporting sleeve (5), of the convex sleeves (51).
  3. 3. A rapid supporting structure for geologic structural belt according to claim 1, wherein the locking chock (4) is provided with a pair of fixing bolts (41).
  4. 4. A rapid supporting structure for geologic structural belt according to claim 1, wherein the bottom of the base plate (1) is provided with a plurality of pairs of mounting pins (11) arranged in a line.
  5. 5. The rapid supporting structure for geologic structural belt according to claim 1, wherein a pair of vertical supporting sliding sleeves (2) are symmetrically arranged with the middle part of the bottom plate (1) as the center.
  6. 6. The rapid supporting structure for a geologic structure belt according to claim 1, wherein the clamping plate (22) is provided with a second limiting chute (24) vertically corresponding to the first limiting chute (21).

Description

Quick supporting construction in geological architecture area Technical Field The utility model relates to the technical field of supporting equipment, in particular to a rapid supporting structure of a geological structural belt. Background Geologic zones are the products of earth's crust movement, and formations or rock masses deform, fracture or displace under stress, forming special geologic zones of scale and continuity, such as fault zones, fold zones, fracture zones, and the like. At present, when engineering construction is carried out on the geological structure bands, an integrated or spliced arch support steel frame is usually adopted for mechanical performance and safety consideration. However, both of these steel frames have certain limitations in practical applications. The integrated steel frame structure is fixed and has a large size, and is difficult to adjust or reduce after the design and installation are completed. When the construction method is installed in a narrow space, the construction speed is slow due to insufficient flexibility. The assembly type steel frame is required to gradually splice a plurality of parts, so that the construction period is relatively longer. Disclosure of utility model The utility model aims to solve the problems that the prior integrated or spliced arch support steel frame is commonly used in geological structure belt engineering, but the installation of the integrated or spliced arch support steel frame in a narrow space is flexible and insufficient, the construction is slow, and the period of splicing parts of the spliced arch support steel frame is long. The technical scheme includes that the quick supporting structure of the geological structural belt comprises a bottom plate, a pair of vertical supporting sliding sleeves fixedly arranged on the upper surface of the bottom plate, a telescopic supporting arch frame arranged at the top of each vertical supporting sliding sleeve, a pushing mechanism arranged on each vertical supporting sliding sleeve and used for driving the supporting arch frame to move up and down, and a locking mechanism arranged in each vertical supporting sliding sleeve and used for fixing the position of the movable supporting arch frame. Optionally, pushing mechanism is including setting up the screw thread on vertical support sliding sleeve, vertical support sliding sleeve is equipped with the spiral through the screw thread spiral cover and supports the cover, the equal fixedly connected with lift card layer board in the both ends of supporting the bow member, the rotatory bracket that blocks lift card layer board has been seted up at the top that the spiral supported the cover. Optionally, the outer wall fixedly connected with of spiral support cover is a plurality of convex sleeves that are circumference array distribution, the slot has all been seted up to the convex sleeve one end that keeps away from the spiral and supports the cover. Optionally, locking mechanical system includes the cardboard of fixed connection on vertical support sliding sleeve top, set up the gliding first spacing spout of support bow member on the vertical support sliding sleeve, the inside of first spacing spout is equipped with the locking support piece that blocks spiral support the cover with the cardboard. Optionally, a pair of fixing bolts are arranged on the locking support block. Optionally, a plurality of pairs of mounting bolts which are arranged in a linear shape are arranged at the bottom of the bottom plate. Optionally, the vertical support sliding sleeves are symmetrically arranged by taking the middle part of the bottom plate as the center. Optionally, a second limiting chute corresponding to the first limiting chute up and down is arranged on the clamping plate. In summary, the present application includes at least one of the following beneficial technical effects: The utility model utilizes the cooperation of the structures such as the supporting sliding sleeve, the supporting arch frame, the pushing mechanism, the locking mechanism and the like, and the geological structure belt rapid supporting structure adopts the supporting arch frame with adjustable height and the rapid locking structure. The supporting arch frame can move up and down to flexibly adapt to different space requirements, the supporting arch frame is driven to lift through the mechanical transmission structure, the installation process is simplified, the efficiency is improved, and finally the locking mechanism is multiple fixed, so that the mechanical property and the safety of the supporting structure are ensured. Drawings FIG. 1 is a schematic view of a rapid support structure for a geologic formation belt according to the present utility model; FIG. 2 is an enlarged schematic view of FIG. 1 at A; FIG. 3 is a schematic view of the split structure of FIG. 1; fig. 4 is a schematic view of a portion of the structure of fig. 3. The device comprises the following compo