CN219496088U - High-precision clamp for detecting building engineering waterproof material - Google Patents

Abstract

The utility model discloses a high-precision clamp for detecting a waterproof material of a building engineering, which comprises a seventh chain wheel and an eighth chain wheel, wherein the middle parts of the front end surfaces of the seventh chain wheel and the eighth chain wheel are respectively and fixedly connected with a third screw rod and a fourth screw rod, the outer curved surfaces of the middle parts of the third screw rod and the fourth screw rod are in threaded connection with a second sliding block, the lower end surface of the second sliding block is fixedly connected with a second moving table, two sides of the middle part of the lower end surface of the second moving table are fixedly connected with electric telescopic rods, the lower top end of each electric telescopic rod is fixedly connected with a connecting plate, the front side and the rear side of the upper end surface of each connecting plate are fixedly connected with limiting telescopic rods, the lower end surface of each connecting plate is fixedly connected with a spring telescopic rod, and the lower end surface of each spring telescopic rod is fixedly connected with a clamping plate. The utility model generally realizes that the clamping plate can move in a left-right straight line position and can move in a front-back straight line position at the same time, thereby avoiding the situation that the clamping plate can not move and adjust the position of the high-precision clamp at will.

Description

High-precision clamp for detecting building engineering waterproof material

Technical Field

The utility model relates to the technical field of building waterproof material detection, in particular to a high-precision clamp for building engineering waterproof material detection.

Background

The building waterproof material is a material foundation of a waterproof project, is a main barrier for guaranteeing the building and the construction to prevent rainwater from entering, groundwater from penetrating and the like, has great influence on the waterproof project, and can be clamped and fixed by using a high-precision clamp when the building waterproof material is detected.

However, in the prior art, when the high-precision clamp is actually used, the high-precision clamp is usually used for clamping and fixing building waterproof materials, the high-precision clamp is of a fixed structure, when the high-precision clamp is of a fixed structure, the position of the high-precision clamp cannot be moved and adjusted at will when the waterproof materials with different sizes are clamped and fastened, so that the visual field of the high-precision clamp has a certain limitation.

Disclosure of Invention

The utility model aims to provide a high-precision clamp for detecting building engineering waterproof materials, which aims to solve the problems that in the process of clamping and fixing building waterproof materials by a common high-precision clamp provided in the background technology, the high-precision clamp is of a fixed structure, when the high-precision clamp is of a fixed structure, the high-precision clamp cannot be moved at will to adjust the positions of the high-precision clamp when clamping and fastening waterproof materials with different sizes, so that the use of the high-precision clamp has certain limitation.

In order to achieve the above purpose, the present utility model provides the following technical solutions: comprises a workbench, wherein two sides of the upper end surface of the workbench are fixedly connected with a supporting frame, the upper top end of the supporting frame is fixedly connected with a mounting table, the front side and the rear side of the lower end surface of the mounting table are provided with a first straight sliding groove, the outer side of the upper end of the supporting frame is fixedly connected with a first motor, the outer curved surface of the inner rotating shaft part of the first motor is sequentially and fixedly connected with a first sprocket and a second sprocket from front to back, the outer ends of the first sprocket and the second sprocket are respectively and rotatably connected with a third sprocket and a fourth sprocket through chains, the middle parts of the inner side surfaces of the third sprocket and the fourth sprocket are respectively and fixedly connected with a first screw and a second screw, the outer curved surface of the middle parts of the first screw and the second screw are in threaded connection with a first sliding block, the lower end surface of the first sliding block is fixedly connected with a first mobile table, the rear side of the lower end surface of the first mobile table is fixedly connected with a second motor, the outer curved surface of the transmission shaft part at the front end of the second motor is sequentially and fixedly connected with a fifth sprocket and a sixth sprocket from front to back, the outer ends of the fifth sprocket and the sixth sprocket are respectively and rotatably connected with a seventh sprocket and an eighth sprocket through chains, two sides of the lower end surface of the first moving table are provided with second straight sliding grooves, the middle parts of the front end surfaces of the seventh sprocket and the eighth sprocket are respectively and fixedly connected with a third screw rod and a fourth screw rod, the outer curved surface of the middle parts of the third screw rod and the fourth screw rod are in threaded connection with a second sliding block, the lower end surface of the second sliding block is fixedly connected with a second moving table, two sides of the middle part of the lower end surface of the second moving table are fixedly connected with electric telescopic rods, the lower top end of each electric telescopic rod is fixedly connected with a connecting plate, the front side and the rear side of the upper end surface of each connecting plate is fixedly connected with a limiting telescopic rod, the lower end surface of each connecting plate is fixedly connected with a spring telescopic rod, and the lower end surface of the spring telescopic rod is fixedly connected with a clamping plate.

Preferably, the middle part of the lower end surface of the workbench is fixedly connected with a control cabinet, the number of the supporting frames is two, the two sides of the upper end surface of the workbench are symmetrically distributed, the number of the first straight sliding grooves is two, and the front side and the rear side of the lower end surface of the workbench are symmetrically distributed.

Preferably, the first motor inner side rotating shaft part is rotationally connected to the middle part of the outer side surface of the mounting table, and the first screw rod and the second screw rod are respectively rotationally connected to two sides of the inner wall of the first straight chute.

Preferably, the front end face and the rear end face of the first sliding block are attached to the inner wall of the first straight sliding groove in a movable mode, and the transmission shaft part at the front end of the second motor is connected to the middle part of the rear end face of the first moving table in a rotary mode.

Preferably, the number of the second straight sliding grooves is two, the second straight sliding grooves are symmetrically distributed on two sides of the lower end face of the first moving table, and the third screw rod and the fourth screw rod are respectively connected to the front side and the rear side of the inner wall of the second straight sliding groove in a rotating mode.

Preferably, the two side ends of the second sliding block are attached to the inner wall of the second straight sliding groove in a movable mode, and the number of the electric telescopic rods is two, so that two sides of the middle of the lower end face of the second moving table are symmetrically distributed.

Preferably, the limit telescopic rods are symmetrically distributed on the front side and the rear side of the upper end face of the connecting plate, the upper top ends of the limit telescopic rods are fixedly connected to two sides of the lower end face of the second mobile station, and the spring telescopic rods are symmetrically distributed on the lower end face of the connecting plate.

Compared with the prior art, the utility model has the beneficial effects that:

1. when the clamping plate is required to be moved, the first motor welded on the outer side of the upper end of the supporting frame is controlled to rotate, when the first motor rotates, the first sprocket and the second sprocket which are welded on the outer curved surface of the rotating shaft part on the inner side of the first motor in sequence from front to back are driven to rotate, when the first sprocket and the second sprocket rotate, the third sprocket and the fourth sprocket which are respectively connected with the outer ends of the first sprocket and the second sprocket through the rotation of the chains are driven to rotate, when the third sprocket and the fourth sprocket rotate, the first screw and the second screw which are respectively welded on the middle parts of the inner side surfaces of the third sprocket and the fourth sprocket are driven to rotate, when the first screw rod and the second screw rod rotate, the first sliding block which is in threaded connection with the outer curved surface of the middle parts of the first screw rod and the second screw rod is driven to move left and right by the threaded connection, when the first sliding block moves left and right, the first sliding block can linearly move left and right along the inner wall of a first straight sliding groove formed on the front side and the rear side of the lower end surface of the mounting table, when the first sliding block linearly moves left and right, the first moving table which is welded on the lower end surface of the first sliding block is driven to linearly move left and right, and when the first moving table linearly moves left and right, the clamping plate is sequentially driven to linearly move left and right, so that the function of linearly moving left and right of the clamping plate is realized;

2. when the clamping plate is required to be controlled to move linearly forwards and backwards, the second motor is controlled to be started to rotate, when the second motor rotates, the outer curved surface of the transmission shaft part at the front end of the second motor is driven to rotate from the front to the back, the fifth sprocket and the sixth sprocket are driven to rotate, when the fifth sprocket and the sixth sprocket rotate, the outer end of the fifth sprocket and the sixth sprocket are respectively and rotationally connected with the seventh sprocket and the eighth sprocket through a chain, when the seventh sprocket and the eighth sprocket rotate, the third screw rod and the fourth screw rod which are respectively welded at the middle parts of the front end surfaces of the seventh sprocket and the eighth sprocket rotate, when the third screw rod and the fourth screw rod rotate, the second slider which is in threaded connection with the outer curved surface at the middle parts of the third screw rod and the fourth screw rod is driven to move forwards and backwards, when the second slider moves forwards and backwards, the inner walls of the second straight sliding grooves which are formed at two sides of the lower end surfaces of the first moving table are driven to move forwards and backwards, when the second slider moves forwards and backwards, the second slider is driven to move forwards and backwards, the clamping plate can move forwards and backwards, and the clamping plate can not move forwards and backwards, and the clamping position can be adjusted, and the clamping device can move forwards and backwards, and the clamping device can move forwards and forwards, and backwards, and forwards, and can move linearly, and the clamping, and can be at high, and rotate, and can be well, and rotate.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a high-precision clamp for detecting a waterproof material for construction engineering;

FIG. 2 is a schematic diagram II of the overall structure of a high-precision clamp for detecting a waterproof material for construction engineering;

FIG. 3 is a schematic cross-sectional view of the whole structure of the high-precision clamp for detecting the waterproof material of the building engineering;

fig. 4 is a schematic cross-sectional view of the whole structure of the high-precision clamp for detecting the waterproof material of the building engineering.

In the figure: 1. a work table; 2. a support frame; 3. a mounting table; 4. a first straight chute; 5. a first motor; 6. a first sprocket; 7. a second sprocket; 8. a third sprocket; 9. a fourth sprocket; 10. a first screw; 11. a second screw; 12. a first slider; 13. a first mobile station; 14. a second motor; 15. a fifth sprocket; 16. a sixth sprocket; 17. a seventh sprocket; 18. an eighth sprocket; 19. a second straight chute; 20. a third screw; 21. a fourth screw; 22. a second slider; 23. a second mobile station; 24. an electric telescopic rod; 25. a connecting plate; 26. a limiting telescopic rod; 27. a spring telescoping rod; 28. and clamping the plate.

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. 1-4, the present utility model provides a technical solution: comprises a workbench 1, a control cabinet is welded in the middle of the lower end surface of the workbench 1, two supporting frames 2 are welded on two sides of the upper end surface of the workbench 1, the supporting frames 2 are symmetrically distributed on two sides of the upper end surface of the workbench 1, an installing table 3 is welded on the upper top end of the supporting frames 2, first straight sliding grooves 4 are formed in the front and back sides of the lower end surface of the installing table 3, the first straight sliding grooves 4 are symmetrically distributed on the front and back sides of the lower end surface of the installing table 3, a first motor 5 is welded on the outer side of the upper end of the supporting frames 2, an inner rotating shaft part of the first motor 5 is rotationally connected in the middle of the outer side surface of the installing table 3 through a rotating shaft, a first chain wheel 6 and a second chain wheel 7 are sequentially welded on the outer curved surface of the inner side of the first motor 5 from front to back, the outer ends of the first chain wheel 6 and the second chain wheel 7 are rotationally connected with a third chain wheel 8 and a fourth chain wheel 9 through chains respectively, the middle parts of the inner side surfaces of the third chain wheel 8 and the fourth chain wheel 9 are respectively welded with a first screw rod 10 and a second screw rod 11, the first screw rod 10 and the second screw rod 11 are respectively connected with two sides of the inner wall of the first straight chute 4 through rotating shafts, the outer curved surfaces of the middle parts of the first screw rod 10 and the second screw rod 11 are in threaded connection with a first sliding block 12, the front end surface and the rear end surface of the first sliding block 12 are attached and movably connected with the inner wall of the first straight chute 4, the lower end surface of the first sliding block 12 is welded with a first movable table 13, the rear side of the lower end surface of the first movable table 13 is welded with a second motor 14, the transmission shaft part of the front end of the second motor 14 is connected with the middle part of the rear end surface of the first movable table 13 through rotating shafts, the outer curved surfaces of the front end transmission shaft part of the second motor 14 are sequentially welded with a fifth chain wheel 15 and a sixth chain wheel 16 from front to rear, the outer ends of the fifth chain wheel 15 and the sixth chain wheel 16 are respectively connected with a seventh chain wheel 17 and an eighth chain 18 through chains in a rotating manner, the two sides of the lower end surface of the first moving table 13 are provided with second straight sliding grooves 19, the two second straight sliding grooves 19 are symmetrically distributed on the two sides of the lower end surface of the first moving table 13, a third screw rod 20 and a fourth screw rod 21 are respectively welded at the middle parts of the front end surfaces of a seventh chain wheel 17 and an eighth chain wheel 18, the third screw rod 20 and the fourth screw rod 21 are respectively connected at the front side and the rear side of the inner wall of the second straight sliding groove 19 in a rotating way through rotating shafts, the outer curved surfaces of the middle parts of the third screw rod 20 and the fourth screw rod 21 are in threaded connection with a second sliding block 22, the two side ends of the second sliding block 22 are in fit and movable connection with the inner wall of the second straight sliding groove 19, the lower end surface of the second sliding block 22 is welded with a second moving table 23, electric telescopic rods 24 are welded on two sides of the middle of the lower end face of the second moving table 23, the number of the electric telescopic rods 24 is two, the electric telescopic rods 24 are symmetrically distributed on two sides of the middle of the lower end face of the second moving table 23, a connecting plate 25 is welded on the lower top end of the electric telescopic rods 24, limiting telescopic rods 26 are welded on the front and rear sides of the upper end face of the connecting plate 25, the limiting telescopic rods 26 are symmetrically distributed on the front and rear sides of the upper end face of the connecting plate 25, the upper top ends of the limiting telescopic rods 26 are welded on two sides of the lower end face of the second moving table 23, spring telescopic rods 27 are welded on the lower end face of the connecting plate 25, the spring telescopic rods 27 are symmetrically distributed on the lower end face of the connecting plate 25, and clamping plates 28 are welded on the lower end face of the spring telescopic rods 27.

Working principle: when the waterproof material is used, the waterproof material for construction engineering to be detected is placed on the upper end face of the workbench 1, when the waterproof material is placed on the upper end face of the workbench 1, the electric telescopic rods 24 welded on the two sides of the middle of the lower end face of the second movable table 23 are controlled to extend downwards, when the electric telescopic rods 24 extend downwards, the connecting plates 25 welded on the lower top ends of the electric telescopic rods 24 are pushed to move downwards, when the connecting plates 25 move downwards, the limiting telescopic rods 26 welded on the front side and the rear side of the upper end face of the connecting plates 25 can play a limiting role, the possibility of dislocation of the downward movement of the connecting plates 25 is avoided, when the connecting plates 25 move downwards, the spring telescopic rods 27 welded on the lower end face of the connecting plates 25 are pushed to move downwards, when the spring telescopic rods 27 move downwards, the clamping plates 28 welded on the lower end face of the workbench 27 are pushed to move downwards, when the clamping plates 28 move downwards, the waterproof material placed on the upper end face of the workbench 1 is clamped and simultaneously, the spring telescopic rods 27 can play a buffering role in buffering role, so that the waterproof material is prevented from being damaged when the clamping plates 28 move downwards and the waterproof material is clamped downwards;

when the clamping plate 28 is required to be moved in position, the first motor 5 welded on the outer side of the upper end of the supporting frame 2 is controlled to be started, when the first motor 5 rotates, the outer curved surface of the rotating shaft part on the inner side of the first motor 5 is driven to rotate from front to back, the first chain wheel 6 and the second chain wheel 7 are sequentially welded, when the first chain wheel 6 and the second chain wheel 7 rotate, the outer ends of the first chain wheel 6 and the second chain wheel 7 are driven to rotate through the third chain wheel 8 and the fourth chain wheel 9 which are respectively connected in rotation through chains, when the third chain wheel 8 and the fourth chain wheel 9 rotate, the first screw rod 10 and the second screw rod 11 which are respectively welded on the inner side surfaces of the third chain wheel 8 and the fourth chain wheel 9 are driven to rotate, when the first screw rod 10 and the second screw rod 11 rotate, the first slide block 12 which is in threaded connection with the outer curved surface on the middle of the first screw rod 10 is driven to move left and right, when the first slide block 12 moves left and right, the first slide block 12 is driven to move left and right along the inner wall of the first straight chute 4 which is arranged on the rear side of the lower end of the mounting table 3 respectively, when the first slide block 12 moves left and right, and the first straight line table 13 is driven to move left and right linearly and move in turn, and the straight line table is driven to move right, and the first straight table is driven to move linearly, and the side and the straight table is moved, and moves side is 13 is moved, and moves right, and is;

meanwhile, when the clamping plate 28 needs to be controlled to move linearly forwards and backwards, the second motor 14 welded on the rear side of the lower end face of the first moving table 13 is controlled to be started to rotate, when the second motor 14 rotates, the outer curved face of the front end transmission shaft part of the second motor 14 can be driven to rotate from the front to the rear by the fifth chain wheel 15 and the sixth chain wheel 16 which are sequentially welded, when the fifth chain wheel 15 and the sixth chain wheel 16 rotate, the outer ends of the fifth chain wheel 15 and the sixth chain wheel 16 are driven to rotate by the seventh chain wheel 17 and the eighth chain wheel 18 which are respectively connected through chains, when the seventh chain wheel 17 and the eighth chain wheel 18 rotate, the third screw rod 20 and the fourth screw rod 21 which are respectively welded on the front end face of the seventh chain wheel 17 and the front end face of the eighth chain wheel 18 are driven to rotate, when the third screw rod 20 and the fourth screw rod 21 rotate, the second sliding block 22 which is in threaded connection with the outer curved face of the middle of the third screw rod 20 is driven to move forwards and backwards, when the second sliding block 22 moves forwards and backwards, the second sliding block 19 which is arranged on the two sides of the lower end face of the first moving table 13 is driven to move forwards and backwards by threads, the second sliding block 19 can move forwards and backwards by the second sliding block 22, and the position of the clamping plate 23 can not move forwards and backwards by the second sliding block 23 can move forwards and forwards, and backwards, and forwards, and the clamping plate can move linearly, and the position can move linearly, and the clamping plate can be prevented, and the position can move linearly, and the clamping plate can move forwards and linearly, and move and linearly, and the position can move and move linearly, and move and the position and move.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims (7)

1. The utility model provides a high accuracy anchor clamps for building engineering waterproof material detects which characterized in that: including workstation (1), the fixedly connected with support frame (2) in workstation (1) up end both sides, top fixedly connected with mount pad (3) on support frame (2), first straight spout (4) have been seted up to mount pad (3) lower extreme front and back side, first motor (5) are fixedly connected with in the outside of support frame (2) upper end, first sprocket (6) and second sprocket (7) are fixedly connected with in proper order to first motor (5) inboard rotation axis part outer curved surface from front to back, the outer end of first sprocket (6) and second sprocket (7) is rotated respectively through the chain and is connected with third sprocket (8) and fourth sprocket (9), first screw (10) and second screw (11) are fixedly connected with in the middle part of third sprocket (8) and fourth sprocket (9) medial surface respectively, first slider (12) are connected with in middle part outer curved surface threaded connection in first screw (10) and second screw (11), first slider (12) lower terminal surface fixedly connected with first moving table (13), first sprocket (13) are connected with in proper order to second sprocket (14) are fixedly connected with in the outside of first sprocket (14) from front to fifth sprocket (14), the novel chain wheel comprises a fifth chain wheel (15) and a sixth chain wheel (16), wherein a seventh chain wheel (17) and an eighth chain wheel (18) are respectively connected to the outer ends of the fifth chain wheel and the sixth chain wheel through chains in a rotating mode, a second straight sliding groove (19) is formed in two sides of the lower end face of a first movable table (13), a third screw rod (20) and a fourth screw rod (21) are respectively fixedly connected to the middle portions of the front end faces of the seventh chain wheel (17) and the eighth chain wheel (18), a second sliding block (22) is connected to the middle portions of the third screw rod (20) and the fourth screw rod (21) through outer curved surface threads, a second movable table (23) is fixedly connected to the lower end face of the second sliding block (22), an electric telescopic rod (24) is fixedly connected to two sides of the middle portions of the lower end face of the second movable table (23), a connecting plate (25) is fixedly connected to the lower top end face of the electric telescopic rod (24), a limit telescopic rod (26) is fixedly connected to the front end face and the rear end face of the connecting plate (25), a spring telescopic rod (27) is fixedly connected to the lower end face of the connecting plate (27), and a clamping plate (28) is fixedly connected to the lower end face of the telescopic rod (27).

2. The high-precision fixture for detecting building engineering waterproof materials according to claim 1, wherein: the control cabinet is fixedly connected to the middle of the lower end face of the workbench (1), two supporting frames (2) are arranged, the two sides of the upper end face of the workbench (1) are symmetrically distributed, two first straight sliding grooves (4) are arranged, and the front side and the rear side of the lower end face of the mounting table (3) are symmetrically distributed.

3. The high-precision fixture for detecting building engineering waterproof materials according to claim 1, wherein: the inner side rotating shaft part of the first motor (5) is rotationally connected to the middle part of the outer side surface of the mounting table (3), and the first screw (10) and the second screw (11) are respectively rotationally connected to two sides of the inner wall of the first straight sliding groove (4).

4. The high-precision fixture for detecting building engineering waterproof materials according to claim 1, wherein: the front end face and the rear end face of the first sliding block (12) are attached to the inner wall of the first straight sliding groove (4) in a movable mode, and the front end transmission shaft of the second motor (14) is connected to the middle of the rear end face of the first moving table (13) in a rotating mode.

5. The high-precision fixture for detecting building engineering waterproof materials according to claim 1, wherein: the number of the second straight sliding grooves (19) is two, the second straight sliding grooves are symmetrically distributed on two sides of the lower end face of the first moving table (13), and the third screw rod (20) and the fourth screw rod (21) are respectively connected to the front side and the rear side of the inner wall of the second straight sliding groove (19) in a rotating mode.

6. The high-precision fixture for detecting building engineering waterproof materials according to claim 1, wherein: the two side ends of the second sliding block (22) are attached to the inner wall of the second straight sliding groove (19) in a movable mode, and the number of the electric telescopic rods (24) is two, so that two sides of the middle of the lower end face of the second moving table (23) are symmetrically distributed.

7. The high-precision fixture for detecting building engineering waterproof materials according to claim 1, wherein: the limiting telescopic rods (26) are symmetrically distributed on the front side and the rear side of the upper end face of the connecting plate (25), the upper top ends of the limiting telescopic rods (26) are fixedly connected to two sides of the lower end face of the second mobile station (23), and the spring telescopic rods (27) are symmetrically distributed on the lower end face of the connecting plate (25).