CN213978831U

CN213978831U - Hydraulic engineering side slope supporting construction

Info

Publication number: CN213978831U
Application number: CN202022462578.2U
Authority: CN
Inventors: 郭林
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-29
Filing date: 2020-10-29
Publication date: 2021-08-17
Anticipated expiration: 2030-10-29

Abstract

The utility model provides a hydraulic engineering side slope supporting construction. Hydraulic engineering side slope supporting construction includes frame, a protecting wire net, builds structure and buffer structure, a protecting wire net passes through buffer structure and connects in the frame, buffer structure includes second spring, the slip lug, the swinging arms, round pin axle and splint, the inside four lateral walls of frame are equipped with rectangular chamber respectively, the four lateral walls of a protecting wire net set up respectively in rectangular intracavity portion, rectangular intracavity portion top and bottom lateral wall are equipped with a plurality of groups spout respectively, every group spout quantity is two, the spout sliding connection slip lug that two symmetries set up, a slip lug lateral wall passes through the second spring and is connected with the adjacent lateral wall of spout. The utility model provides a hydraulic engineering side slope supporting construction has the improvement and is able to bear or endure to touch intensity, improves life, bumps with the supporting screen when external rockfall, still can cushion the impact in the twinkling of an eye, reduces fracture or deformation possibility, improves the anti advantage that touches intensity.

Description

Hydraulic engineering side slope supporting construction

Technical Field

The utility model relates to a supporting construction field especially relates to a hydraulic engineering side slope supporting construction.

Background

The side slope refers to a slope surface with a certain slope which is formed on two sides of the roadbed to ensure the stability of the roadbed.

The guardrail net is added for preventing broken stones or soil from running off on the side slope, the broken stones in the side slope can be prevented from sliding, large-scale stones in the side slope are protruded due to the effects of earthquake or rain wash and the like, the guardrail net is easy to touch the regional position of the guardrail net, the deformation or damage possibility is easily caused by the instant touch force of the guardrail net, and the normal service life is influenced.

Therefore, it is necessary to provide a new slope supporting structure for hydraulic engineering to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides an improve resistant intensity of touching improves life, bumps with the supporting network when external falling stone, still can cushion impact in the twinkling of an eye, reduces fracture or deformation possibility, improves the anti hydraulic engineering side slope supporting construction who touches intensity.

The utility model provides a hydraulic engineering side slope supporting construction includes: a frame; the supporting net is connected to the frame through a buffer structure, the buffer structure comprises a second spring, sliding lugs, swinging rods, pin shafts and clamping plates, strip cavities are formed in four side walls inside the frame respectively, the four side walls of the supporting net are arranged inside the strip cavities respectively, a plurality of groups of sliding grooves are formed in the top and bottom side walls inside the strip cavities respectively, the number of the sliding grooves in each group is two, the two symmetrically arranged sliding grooves are connected with the sliding lugs in a sliding mode, one side wall of each sliding lug is connected with the adjacent side wall of each sliding groove through the second spring, the outer side face of each sliding lug is fixedly connected with the clamping plate, the outer side wall of the supporting net is close to the sliding grooves and is connected with the clamping plates respectively, and two ends of the obliquely arranged swinging rods are rotatably connected with the adjacent clamping plates through the pin shafts; and the building structure is connected to the outer side wall of the frame.

Preferably, the bottom side wall of the frame is fixedly connected with a plurality of conical spines which are uniformly arranged in quantity, and the top side wall of the frame is provided with clamping holes matched with the conical spines.

Preferably, it includes first spring, the couple, the pivot, torsional spring and slider to build the structure, the adjacent both sides wall of frame is equipped with a plurality of standing groove respectively, two inside lateral walls of standing groove are equipped with rectangular groove respectively, the inside lateral wall in rectangular groove is through first spring coupling slider, rotate the pivot that the connection level set up between two sliders, the couple is established to the fixed cover of pivot lateral wall, the couple both sides wall is connected with the pivot lateral wall through the torsional spring respectively, the torsional spring encircles and sets up on the lateral wall of pivot, the frame other both sides wall top is equipped with respectively and gets in touch assorted recess, the inside lateral wall of recess is equipped with the jack.

Preferably, the length of the hook is smaller than that of the placing groove, and the height of the hook is smaller than the depth of the placing groove.

Preferably, the supporting net is made of steel materials.

Preferably, the frame is provided with mounting holes arranged in a rectangular shape.

Compared with the prior art, the utility model provides a hydraulic engineering side slope supporting construction has following beneficial effect:

the utility model provides a hydraulic engineering side slope supporting construction, there is the stone to produce not hard up protruding in-process when side slope inside, bump the process with the supporting net, extrude all swinging arms, the swinging arms other end extrusion sliding block horizontal migration, thereby make the second spring receive the compression, the effect of second spring rebound force, buffering impact in the twinkling of an eye, reduce the regional face of supporting net and damage possibility or the deformation possibility, improve resistant intensity of touching, and the service life is prolonged, bump with the supporting net when external falling stone, still can cushion impact in the twinkling of an eye, reduce fracture or deformation possibility, improve anti intensity of touching.

Drawings

Fig. 1 is a schematic structural view of a preferred embodiment of a slope supporting structure for hydraulic engineering according to the present invention;

FIG. 2 is an enlarged partial schematic view of FIG. 1 at A;

FIG. 3 is a cross-sectional view of the side view of FIG. 1;

fig. 4 is a partially enlarged structural view of a portion B shown in fig. 1.

Reference numbers in the figures: 1. a frame; 2. a support net; 3. building a structure; 4. a buffer structure; 5. mounting holes; 6. a clamping hole; 7. conical thorn; 31. a groove; 32. a jack; 33. a first spring; 34. a placement groove; 35. hooking; 36. a long groove; 37. a rotating shaft; 38. a torsion spring; 39. a slider; 41. a long cavity; 42. A second spring; 43. a sliding projection; 44. a swing lever; 45. a chute; 46. a pin shaft; 47. and (4) clamping the plate.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Please refer to fig. 1, fig. 2, fig. 3 and fig. 4 in combination, wherein fig. 1 is a schematic structural view of a preferred embodiment of a slope supporting structure for hydraulic engineering according to the present invention; FIG. 2 is an enlarged partial schematic view of FIG. 1 at A; FIG. 3 is a cross-sectional view of the side view of FIG. 1; fig. 4 is a partially enlarged structural view of a portion B shown in fig. 1. The method comprises the following steps: frame 1, supporting net 2, build structure 3 and buffer structure 4.

In the specific implementation, as shown in fig. 1 and 2, the supporting net 2 is connected to the frame 1 through the buffering structure 4, the buffering structure 4 includes a second spring 42 and a sliding protrusion 43, swinging arms 44, round pin axle 46 and splint 47, the inside four lateral walls of frame 1 are equipped with rectangular chamber 41 respectively, the four lateral walls of supporting net 2 set up respectively inside rectangular chamber 41, the inside top in rectangular chamber 41 and bottom lateral wall are equipped with a plurality of groups spout 45 respectively, 45 quantity in every group spout are two, spout 45 sliding connection sliding lug 43 that two symmetries set up, sliding lug 43 lateral wall passes through second spring 42 and is connected with the adjacent lateral wall of spout 45, sliding lug 43's lateral surface fixed connection splint 47, it connects splint 47 respectively to support net 2 lateral wall to be close to spout 45 positions, the both ends of the swinging arms 44 that the slope set up are passed through round pin axle 46 and are connected with adjacent splint 47 rotation.

It should be noted that, set up installation engineering side slope region side by side with a plurality of frames 1, make a plurality of frames 1 fill whole engineering side slope, accomplish shutoff engineering side slope, there is the stone to produce not hard up protruding in-process inside the side slope, with supporting net 2 process of touching, extrude all swinging arms 44, swinging arms 44 other end extrusion sliding lug 43 horizontal migration, thereby make second spring 42 receive the compression, second spring 42 rebound force, buffer instant impact, reduce supporting net 2 regional face damage possibility or deformation possibility, improve resistant intensity of touching, and service life is prolonged, hit with supporting net 2 when external falling stone, still can buffer instant impact, reduce fracture or deformation possibility, improve anti-collision strength.

Referring to fig. 1, the even toper thorn 7 that sets up of a plurality of quantity of bottom lateral wall fixed connection of frame 1, frame 1 top lateral wall is equipped with and pricks 7 assorted card hole 6 with the toper, install frame 1 process, pierce the inside of the earth face of side slope with toper thorn 7 on the frame 1, thereby make and form the power of grabbing with the side slope, provide the pretightning force, the landing possibility takes place before reducing the installation, can let frame 1 fastening installation more convenient, frame 1 stacks the process, reduce and deposit the interval, can let toper thorn 7 insert the inside setting in card hole 6, place the frame 1 that stacks and produce the landing possibility, make to stack and set up more stably.

Referring to fig. 1, the building structure 3 is connected to the lateral wall of the frame 1, the building structure 3 includes a first spring 33, a hook 35, a rotating shaft 37, a torsion spring 38 and a slider 39, two adjacent side walls of the frame 1 are respectively provided with a plurality of placing grooves 34, two inner side walls of the placing grooves 34 are respectively provided with a strip groove 36, one side wall of the inner part of the strip groove 36 is connected with the slider 39 through the first spring 33, the rotating shaft 37 which is arranged between the two sliders 39 in a rotating mode is connected with the connecting level, the hook 35 is fixedly sleeved on the lateral wall of the rotating shaft 37, two lateral walls of the hook 35 are respectively connected with the lateral wall of the rotating shaft 37 through the torsion spring 38, the torsion spring 38 is arranged on the lateral wall of the rotating shaft 37 in a surrounding mode, the tops of the other two lateral walls of the frame 1 are respectively provided with a groove 31 matched with the hook 35, and one side wall of the inner part of the groove 31 is provided with a jack 32.

It needs to explain, two adjacent frames 1 splice to it, through pulling couple 35, make to pull to collude 35 and shift out from the inside of standing groove 34, rotatory couple 35 once more, make couple 35 detain the inside of locating in recess 31, receive first spring 33 rebound effect, can let couple 35 go up the inside that the couple end removed jack 32, thereby accomplish the fastening piece together, can let all frame 1 pieces together and be whole, overall strength is higher, be difficult for causing singly to drop, adopt the piece together mode to install.

Referring to fig. 1, the length of the hook 35 is smaller than the length of the placement groove 34, and the height of the hook 35 is smaller than the depth of the placement groove 34, it should be noted that the hook 35 is disposed inside the placement groove 34 without generating a protrusion, so that the stacking process of the frames 1 is more flat and aligned.

Referring to fig. 1, the supporting net 2 is made of steel materials, so that the supporting net is not easy to rust and has long service life.

Referring to fig. 1, the frame 1 is provided with a rectangular mounting hole 5, and a fastening bolt or a fastening nail is inserted through the mounting hole 5 and pressed into the flat inner portion for fixation.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims

1. The utility model provides a hydraulic engineering side slope supporting construction which characterized in that includes:

a frame (1);

the supporting net (2), the supporting net (2) is connected to the frame (1) through a buffer structure (4), the buffer structure (4) comprises a second spring (42), a sliding lug (43), a swinging rod (44), a pin shaft (46) and clamping plates (47), four side walls inside the frame (1) are respectively provided with a long cavity (41), four side walls of the supporting net (2) are respectively arranged inside the long cavity (41), the top and bottom side walls inside the long cavity (41) are respectively provided with a plurality of groups of sliding grooves (45), the number of each group of sliding grooves (45) is two, the two symmetrically arranged sliding grooves (45) are in sliding connection with the sliding lug (43), one side wall of the sliding lug (43) is connected with the adjacent side wall of the sliding groove (45) through the second spring (42), the outer side surface of the sliding lug (43) is fixedly connected with the clamping plates (47), the outer side wall of the supporting net (2) close to the sliding grooves (45) is respectively connected with the clamping plates (47), two ends of the obliquely arranged swinging rod (44) are rotatably connected with the adjacent clamping plates (47) through pin shafts (46);

and the building structure (3) is connected to the outer side wall of the frame (1).

2. The hydraulic engineering slope supporting structure according to claim 1, wherein the bottom side wall of the frame (1) is fixedly connected with a plurality of conical spines (7) which are uniformly arranged in quantity, and the top side wall of the frame (1) is provided with clamping holes (6) matched with the conical spines (7).

3. The hydraulic engineering slope supporting structure according to claim 1, wherein the building structure (3) comprises a first spring (33), a hook (35), a rotating shaft (37), a torsion spring (38) and a sliding block (39), two adjacent side walls of the frame (1) are respectively provided with a plurality of placing grooves (34), two inner side walls of each placing groove (34) are respectively provided with a long groove (36), one inner side wall of each long groove (36) is connected with the corresponding sliding block (39) through the first spring (33), the two sliding blocks (39) are rotatably connected with the rotating shaft (37) which is horizontally arranged, the outer side wall of each rotating shaft (37) is fixedly sleeved with the corresponding hook (35), two side walls of each hook (35) are respectively connected with the outer side wall of the corresponding rotating shaft (37) through the torsion spring (38), the torsion spring (38) is arranged on the outer side wall of the corresponding rotating shaft (37) in a surrounding manner, the tops of the other two side walls of the frame (1) are respectively provided with a groove (31) which is matched with the corresponding hook (35), a side wall of the inner part of the groove (31) is provided with a jack (32).

4. The hydraulic engineering slope support structure according to claim 3, wherein the length of the hook (35) is smaller than the length of the placing groove (34), and the height of the hook (35) is smaller than the depth of the placing groove (34).

5. The hydraulic engineering slope support structure according to claim 1, wherein the support net (2) is made of steel material.

6. The hydraulic engineering slope supporting structure according to claim 1, wherein the frame (1) is provided with mounting holes (5) in a rectangular arrangement.