CN214401838U

CN214401838U - Hydraulic engineering slope bearing structure

Info

Publication number: CN214401838U
Application number: CN202120193646.1U
Authority: CN
Inventors: 范英伦
Original assignee: Guangxi Xindaqiang Construction Development Co ltd
Current assignee: Guangxi Xindaqiang Construction Development Co ltd
Priority date: 2021-01-25
Filing date: 2021-01-25
Publication date: 2021-10-15
Anticipated expiration: 2031-01-25

Abstract

The utility model discloses a hydraulic engineering slope protection supporting structure, which comprises a supporting plate, a right-angle plate and a slope protection brick clamping unit; a support plate: the lower surface of the supporting plate is fixedly connected with clamping plates, the four clamping plates are uniformly distributed, mounting holes are formed in the right-angle plates, the two right-angle plates are fixedly connected to the left end and the right end of the supporting plate respectively, a threaded pipe is fixedly connected to the middle of the upper surface of the supporting plate, a threaded shaft is connected to the threaded pipe in a threaded manner, a screwing block is fixedly connected to the upper end of the threaded shaft, fixing rings are fixedly sleeved on the upper portion of the side surface of the threaded shaft, the number of the fixing rings is two, a supporting ring is movably sleeved on the upper portion of the side surface of the threaded shaft and located between the two fixing rings, transverse plates are fixedly connected to the outer side surface of the supporting ring, and the two transverse plates are uniformly distributed; this hydraulic engineering slope protection bearing structure, firm in connection, it is very convenient when installation and dismantlement, labour saving and time saving.

Description

Hydraulic engineering slope bearing structure

Technical Field

The utility model relates to a hydraulic engineering apparatus technical field specifically is hydraulic engineering slope bearing structure.

Background

Hydraulic engineering is an engineering built for controlling and allocating surface water and underground water in nature to achieve the purposes of removing harmful substances and benefiting. Also known as water engineering. Water is a valuable resource essential for human production and life, but its naturally occurring state does not completely meet the needs of human beings. Only when hydraulic engineering is built, water flow can be controlled, flood disasters are prevented, and water quantity is adjusted and distributed to meet the requirements of people on water resources in life and production. Hydraulic engineering needs to build various types of hydraulic buildings such as dams, dikes, spillways, water gates, water inlets, channels, transition troughs, rafts, fishways and the like so as to achieve the aims. In hydraulic engineering, the slope protection brick needs to be laid to prevent water and soil loss, but the connected mode between the current slope protection brick is firm inadequately to it is inconvenient in the time of installation and dismantlement, waste time and energy.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide hydraulic engineering bank protection bearing structure, firm in connection, it is very convenient when installing and dismantling, labour saving and time saving can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: the hydraulic engineering slope protection supporting structure comprises a supporting plate, a right-angle plate and a slope protection brick clamping unit;

a support plate: the lower surface of the supporting plate is fixedly connected with clamping plates, the clamping plates are four and uniformly distributed, mounting holes are formed in the right-angle plates, the two right-angle plates are fixedly connected to the left end and the right end of the supporting plate respectively, a threaded pipe is fixedly connected to the middle of the upper surface of the supporting plate, a threaded shaft is in threaded connection with the threaded pipe, a tightening block is fixedly connected to the upper end of the threaded shaft, a fixing ring is fixedly sleeved on the upper portion of the side surface of the threaded shaft, the two fixing rings are provided, a supporting ring is movably sleeved on the upper portion of the side surface of the threaded shaft and located between the two fixing rings, transverse plates are fixedly connected to the outer side surfaces of the supporting rings and are uniformly distributed, the outer ends of the two transverse plates are fixedly connected with vertical plates, and the outer side surfaces of the two vertical plates are respectively in sliding connection with the outer side surfaces of the right-angle plates;

slope protection brick clamping unit: is arranged on the right-angle plate;

wherein: still include the fillet, the fillet sets up front side and the rear side at the junction of backup pad and rectangular plate.

Further, slope protection brick presss from both sides tight unit and contains apical axis, extension spring and fender ring, the apical axis has two and activity respectively to cup joint in the mounting hole of two right angle boards, it has two and inside the side of fixed cup joint at two apical axes respectively to keep off the ring, extension spring has two and activity respectively to cup joint on the side of apical axis, extension spring's one end and fender ring fixed connection, extension spring's the other end and right angle board fixed connection, the outer end of apical axis is the wedge. When the riser moves down, can withstand the right-hand member of apical axis, make two apical axes remove to the inboard, and extension spring extension simultaneously, two apical axes remove to the inboard can be tight with the bank protection brick top, and when loosening the apical axis, extension spring shrink can drive and keep off the ring and remove to the outside, keeps off the ring and removes to the outside and can drive the apical axis and remove to the outside, just can loosen the bank protection brick.

Further, still include the reinforcing plate, the reinforcing plate has two, the one end of reinforcing plate and the downside fixed connection of diaphragm, the other end of reinforcing plate and the medial surface upper portion fixed connection of riser. When the transverse plate and the vertical plate move or play a supporting role, the connecting strength between the transverse plate and the vertical plate can be increased through the reinforcing plate.

Further, still include the rubber circle, rubber circle fixed connection is in the upper end of screwed pipe. When the threaded shaft moves downwards, the fixing ring can collide with the upper end of the threaded pipe to cause abrasion, and the abrasion can be reduced through the rubber ring.

Furthermore, the device also comprises two groups of friction particles, wherein the two groups of friction particles are respectively arranged at the inner ends of the two jacking shafts. When the slope protection brick is cliied to the apical axis, through the friction grain, can increase the friction, make more tight that the apical axis pressed from both sides.

Compared with the prior art, the beneficial effects of the utility model are that: this hydraulic engineering bank protection bearing structure has following benefit:

1. the hydraulic engineering slope protection supporting structure is provided with a slope protection brick clamping unit, when a vertical plate moves downwards, the right end of a jacking shaft can be jacked, so that two jacking shafts move inwards, simultaneously, an extension spring extends, the two jacking shafts move inwards to jack the slope protection brick tightly, when the jacking shaft is loosened, the extension spring contracts to drive a baffle ring to move outwards, the baffle ring moves outwards to drive the jacking shaft to move outwards, and the slope protection brick can be loosened;

2. the hydraulic engineering slope protection supporting structure is provided with the reinforcing plate and the rubber ring, when the transverse plate and the vertical plate move or have a supporting effect, the connecting strength between the transverse plate and the vertical plate can be increased through the reinforcing plate, when the threaded shaft moves downwards, the fixing ring can be collided with the upper end of the threaded pipe to cause abrasion, and the abrasion can be slowed down through the rubber ring;

3. this hydraulic engineering slope protection bearing structure, firm in connection, it is very convenient when installation and dismantlement, labour saving and time saving.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of the lower side structure of the present invention.

In the figure: 1 backup pad, 2 screwed pipe, 3 threaded shaft, 4 tight piece, 5 fixed rings, 6 splint, 7 right-angle boards, 8 support rings, 9 bank protection brick clamping unit, 91 apical axis, 92 extension spring, 93 keep off the ring, 10 diaphragm, 11 risers, 12 fillets, 13 reinforcing plates, 14 rubber rings, 15 friction grain.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: the hydraulic engineering slope protection supporting structure comprises a supporting plate 1, a right-angle plate 7 and a slope protection brick clamping unit 9;

supporting plate 1: the lower surface of the supporting plate is fixedly connected with clamping plates 6, the clamping plates 6 are four and uniformly distributed, mounting holes are formed in the right-angle plates 7, the number of the right-angle plates 7 is two, the two right-angle plates 7 are fixedly connected to the left end and the right end of the supporting plate 1 respectively, the middle of the upper surface of the supporting plate 1 is fixedly connected with a threaded pipe 2, the threaded pipe 2 is in threaded connection with a threaded shaft 3, the upper end of the threaded shaft 3 is fixedly connected with a screwing block 4, the upper portion of the side surface of the threaded shaft 3 is fixedly sleeved with a fixing ring 5, the number of the fixing rings 5 is two, the upper portion of the side surface of the threaded shaft 3 is movably sleeved with a supporting ring 8, the supporting ring 8 is located between the two fixing rings 5, transverse plates 10 are fixedly connected to the outer side surfaces of the supporting ring 8, the transverse plates 10 are two and uniformly distributed, the outer ends of the two transverse plates 10 are fixedly connected with vertical plates 11, and the outer side surfaces of the two vertical plates 11 are respectively in sliding connection with the outer side surfaces of the right-angle plates 7; the reinforced concrete wall is characterized by further comprising two reinforcing plates 13, one ends of the reinforcing plates 13 are fixedly connected with the lower side face of the transverse plate 10, and the other ends of the reinforcing plates 13 are fixedly connected with the upper portion of the inner side face of the vertical plate 11. The rubber ring 14 is further included, and the rubber ring 14 is fixedly connected to the upper end of the threaded pipe 2. When the horizontal plate 10 and the vertical plate 11 move or are used for supporting, the connection strength between the horizontal plate 10 and the vertical plate 11 can be increased through the reinforcing plate 13. When the threaded shaft 3 moves downwards, the fixing ring 5 can collide with the upper end of the threaded pipe 2 to cause abrasion, and the abrasion can be reduced through the rubber ring 14;

slope protection brick clamping unit 9: is arranged on the right-angle plate 7; slope protection brick clamping unit 9 contains apical axis 91, extension spring 92 and fender ring 93, apical axis 91 has two and activity respectively to cup joint in the mounting hole of two right angle boards 7, it has two and fixed cup joints respectively inside two apical axis 91's side to keep off ring 93, extension spring 92 has two and activity respectively to cup joint on apical axis 91's side, extension spring 92's one end and fender ring 93 fixed connection, extension spring 92's the other end and right angle board 7 fixed connection, apical axis 91's outer end is the wedge. The friction device further comprises two groups of friction particles 15, and the two groups of friction particles 15 are respectively arranged at the inner ends of the two top shafts 91. When riser 11 moves down, can withstand the right-hand member of apical axis 91, make two apical axes 91 move to the inboard, extension spring 92 extension simultaneously, two apical axes 91 move to the inboard can be tight with the bank protection brick top, when loosening apical axis 91, extension spring 92 shrink can drive and keep off ring 93 and move to the outside, keeps off ring 93 and moves to the outside and can drive apical axis 91 and move to the outside, just can loosen the bank protection brick. When the jack shaft 91 clamps the slope protection brick, friction can be increased through the friction particles 15, so that the jack shaft 91 is clamped more tightly;

wherein: and the corner support further comprises a round corner 12, and the round corner 12 is arranged on the front side and the rear side of the joint of the support plate 1 and the rectangular plate 7.

When in use:

firstly, a supporting plate 1 is placed on two slope protection bricks, clamping plates 6 are clamped on two sides of the two slope protection bricks, then a tightening block 4 is rotated, the tightening block 4 is rotated to drive a threaded shaft 3 to rotate, the threaded shaft 3 moves downwards while rotating, the threaded shaft 3 moves downwards to drive a fixing ring 5 to move downwards, the fixing ring 5 moves downwards to drive a supporting ring 8 to move downwards, the supporting ring 8 moves downwards to drive a transverse plate 10 to move downwards, the transverse plate 10 moves downwards to drive a vertical plate 11 to move downwards, when the vertical plate 11 moves downwards, the right end of a top shaft 91 can be propped against, the two top shafts 91 move inwards, simultaneously, a stretching spring 92 extends, the two top shafts 91 move inwards to prop up the slope protection bricks, when the top shafts 91 are loosened, the stretching spring 92 contracts to drive a retaining ring 93 to move outwards, the retaining ring 93 moves outwards to drive the top shafts 91 to move outwards, the slope protection bricks can be loosened. When the jack shaft 91 clamps the slope protection brick, the friction can be increased through the friction particles 15, so that the jack shaft 91 is clamped more tightly.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Hydraulic engineering bank protection bearing structure, its characterized in that: comprises a support plate (1), a right-angle plate (7) and a slope protection brick clamping unit (9);

support plate (1): the lower surface is fixedly connected with clamping plates (6), the clamping plates (6) are four and evenly distributed, mounting holes are formed in the right-angle plates (7), the number of the right-angle plates (7) is two, the two right-angle plates (7) are respectively and fixedly connected to the left end and the right end of the supporting plate (1), the middle part of the upper surface of the supporting plate (1) is fixedly connected with threaded pipes (2), the threaded pipes (2) are internally connected with threaded shafts (3), the upper ends of the threaded shafts (3) are fixedly connected with screwing blocks (4), the upper parts of the side surfaces of the threaded shafts (3) are fixedly sleeved with fixing rings (5), the fixing rings (5) are two, the upper parts of the side surfaces of the threaded shafts (3) are movably sleeved with supporting rings (8), the supporting rings (8) are located between the two fixing rings (5), and transverse plates (10) are fixedly connected to the outer side surfaces of the supporting rings (8), the two transverse plates (10) are uniformly distributed, the outer ends of the two transverse plates (10) are fixedly connected with vertical plates (11), and the outer side surfaces of the two vertical plates (11) are respectively connected with the outer side surfaces of the right-angle plates (7) in a sliding manner;

slope protection brick clamping unit (9): is arranged on the right-angle plate (7);

wherein: still include fillet (12), fillet (12) set up the front side and the rear side in the junction of backup pad (1) and rectangular plate (7).

2. The hydraulic engineering slope protection bearing structure of claim 1, characterized in that: slope protection brick clamping unit (9) contain apical axis (91), extension spring (92) and keep off ring (93), apical axis (91) have two and respectively the activity cup joint in the mounting hole of two right angle boards (7), keep off ring (93) have two and respectively fixed cup joint inside the side of two apical axis (91), extension spring (92) have two and respectively the activity cup joint on the side of apical axis (91), the one end and the fender ring (93) fixed connection of extension spring (92), the other end and right angle board (7) fixed connection of extension spring (92), the outer end of apical axis (91) is the wedge.

3. The hydraulic engineering slope protection bearing structure of claim 1, characterized in that: still include reinforcing plate (13), reinforcing plate (13) have two, the one end of reinforcing plate (13) and the downside fixed connection of diaphragm (10), the other end of reinforcing plate (13) and the medial surface upper portion fixed connection of riser (11).

4. The hydraulic engineering slope protection bearing structure of claim 1, characterized in that: the rubber ring (14) is fixedly connected to the upper end of the threaded pipe (2).

5. The hydraulic engineering slope protection bearing structure of claim 2, characterized in that: the friction device is characterized by further comprising two groups of friction particles (15), wherein the two groups of friction particles (15) are respectively arranged at the inner ends of the two jacking shafts (91).