CN219608627U - PE pipe compressive strength detection device - Google Patents

Abstract

The utility model belongs to the field of compressive strength detection, in particular to a PE catheter compressive strength detection device, which comprises a movable base, wherein the movable base is provided with a base; the top end of the movable base is provided with a groove; the inside of recess is provided with moving mechanism, moving mechanism includes the screw rod, the left end of screw rod rotates to be connected on the inner wall of recess, the right-hand member of screw rod runs through the recess, threaded connection has the movable block on the screw rod, the top fixedly connected with solid fixed ring of movable block, the round hole has been seted up to the inside of movable block, the movable base is provided with two sets of, the bottom fixedly connected with slider of movable base, slider sliding connection is on the spout, the inside of round hole runs through there is the guide bar, two sets of round hole has been seted up, the both ends are all fixedly connected with on the inner wall of recess about two sets of guide bars; through the structural design of the moving mechanism, the function of moving the fixed ring is realized.

Description

PE pipe compressive strength detection device

Technical Field

The utility model relates to the field of compressive strength detection, in particular to a PE catheter compressive strength detection device.

Background

After the PE pipe is produced, the PE pipe is required to be detected by the compression-resistant detection device, and whether the compression strength of the PE pipe reaches the standard is judged by detection.

The traditional PE pipe compressive strength detection device is generally composed of a hydraulic mechanism and a fixing mechanism, the PE pipe is fixed through the fixing mechanism, then the PE pipe is placed under the hydraulic mechanism, and pressure is applied to the PE pipe through the hydraulic mechanism, so that detection is completed, the traditional fixing mechanism is generally composed of two groups of clamping blocks, and the fixing mechanism and the PE pipe need to be manually pushed to be placed under the hydraulic mechanism during detection.

The traditional PE pipe compressive strength detection device needs to manually push the fixing mechanism and the PE pipe to the position right below the hydraulic mechanism when detecting the PE pipe, and safety accidents are easily caused when workers lose operation; therefore, a PE catheter compressive strength detection device is provided for solving the problems.

Disclosure of Invention

In order to make up for the defects of the prior art, the traditional PE pipe compressive strength detection device needs to manually push the fixing mechanism and the PE pipe to the position right below the hydraulic mechanism when detecting the PE pipe, and the problem that safety accidents are easy to cause when workers lose operation is solved.

The technical scheme adopted for solving the technical problems is as follows: the utility model relates to a PE catheter compressive strength detection device, which comprises a movable base, wherein the movable base is provided with a movable base; the top end of the movable base is provided with a groove; the inside of recess is provided with moving mechanism, moving mechanism includes the screw rod, the left end of screw rod rotates to be connected on the inner wall of recess, the right-hand member of screw rod runs through the recess, threaded connection has the movable block on the screw rod, the top fixedly connected with solid fixed ring of movable block, the round hole has been seted up to the inside of movable block, the movable base is provided with two sets of, the bottom fixedly connected with slider of movable base, slider sliding connection is on the spout.

Preferably, the inside of round hole is run through and is had the guide bar, two sets of round hole have been seted up, both ends are all fixed connection on the inner wall of recess about two sets of guide bars.

Preferably, the bottom fixedly connected with of recess two sets of slide rails, the bottom sliding connection of movable block is on the slide rail.

Preferably, three groups of threaded holes are formed in the fixing ring, and the three groups of threaded holes are in threaded connection with the bolts.

Preferably, the sliding block and the sliding groove are both provided with two groups, the sliding groove is arranged at the top end of the device base, and the sliding block and the sliding groove are both in a trapezoid structure design.

Preferably, the top end of the device base is provided with six groups of long grooves, the long grooves are connected with a base plate in a sliding manner, the bottom end of the base plate is contacted with the top end of the device base, and the top end of the base plate is flush with the bottom end of the fixing ring.

Preferably, the top end of the movable base is fixedly connected with two groups of brackets, the upper bracket is provided with a hydraulic top plate, and the hydraulic top plate is driven by a hydraulic pump.

Preferably, the bottom of device base fixedly connected with four sets of cushion, the cushion is rubber material.

The utility model has the advantages that:

1. according to the utility model, through the structural design of the moving mechanism, the function of moving the fixed ring is realized, and the problem that the traditional PE pipe compressive strength detection device needs to manually push the fixed mechanism and the PE pipe to the position right below the hydraulic mechanism when detecting the PE pipe, and safety accidents are easy to cause when workers operate the PE pipe;

2. according to the utility model, through the structural design of the guide rod, the function of guiding the moving block when moving on the screw rod is realized, and the problem that the moving block rotates along with the rotation of the screw rod and cannot move stably is solved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic diagram of a moving mechanism according to the present utility model;

FIG. 3 is a schematic diagram of a connection structure of a moving mechanism according to the present utility model;

FIG. 4 is a schematic view of a slot structure of the present utility model;

fig. 5 is a schematic cross-sectional view of the moving mechanism of the present utility model.

In the figure: 1. a movable base; 20. a groove; 21. a screw; 22. a moving block; 23. a fixing ring; 24. a guide rod; 25. a round hole; 26. a slide rail; 30. a bolt; 31. a threaded hole; 32. a slide block; 33. a chute; 34. a device base; 35. a cushion block; 36. a long groove; 37. a backing plate; 38. a bracket; 39. a hydraulic top 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. 1-5, a device for detecting compressive strength of a PE catheter includes a movable base 1; a groove 20 is formed in the top end of the movable base 1; the inside of the groove 20 is provided with a moving mechanism, the moving mechanism comprises a screw 21, the left end of the screw 21 is rotatably connected to the inner wall of the groove 20, the right end of the screw 21 penetrates through the groove 20, a moving block 22 is connected to the screw 21 in a threaded manner, the top end of the moving block 22 is fixedly connected with a fixed ring 23, a round hole 25 is formed in the moving block 22, the moving base 1 is provided with two groups, the bottom end of the moving base 1 is fixedly connected with a sliding block 32, and the sliding block 32 is connected to a sliding groove 33 in a sliding manner;

during operation, traditional PE pipe compressive strength detection device needs manual pushing of fixed establishment together with the PE pipe to hydraulic mechanism under when detecting the PE pipe, cause the incident easily when staff's operation is lost, through moving mechanism's structural design, realized the function to solid fixed ring 23 removal, when want to detect the PE pipe, at first with the PE pipe through gu fixed ring 23 after accomplishing, rotate screw rod 21 this moment, movable block 22 takes place to remove on screw rod 21, thereby drive solid fixed ring 23 of fixed connection on movable block 22 top and remove, the PE pipe of fixed connection on gu fixed ring 23 is sent hydraulic mechanism's bottom through the removal of solid fixed ring 23 on movable base 1, avoided needing the manual operation of operating personnel, wherein movable base 1 is provided with two sets of slider 32, and at movable base 1's bottom fixedly connected with two sets of slider 32 sliding connection at spout 33.

Further, guide rods 24 penetrate through the inside of the round holes 25, two groups of guide rods 24 are arranged in the round holes 25, and the left end and the right end of each guide rod 24 are fixedly connected to the inner wall of the corresponding groove 20;

during operation, through the structural design of guide bar 24, realized carrying out the function of direction when moving movable block 22 on screw rod 21, seted up two sets of round holes 25 in movable block 22's inside, the inside of round hole 25 runs through has guide bar 24, both ends are all fixed connection on the inner wall of recess 20 about two sets of guide bar 24.

Further, the bottom end of the groove 20 is fixedly connected with two sets of sliding rails 26, and the bottom end of the moving block 22 is slidably connected to the sliding rails 26;

during operation, two groups of slide rails 26 are fixedly connected to the bottom end of the groove 20, the bottom end of the moving block 22 is slidably connected to the slide rails 26, the supporting effect on the moving block 22 is achieved through the slide rails 26, and meanwhile the moving block 22 can conveniently move in the groove 20.

Further, three sets of threaded holes 31 are formed on the fixing ring 23, and the three sets of threaded holes 31 are in threaded connection with the bolts 30;

during operation, three groups of threaded holes 31 are formed in the fixed ring 23, the three groups of threaded holes 31 are in threaded connection with the hydraulic top plate 39, when the PE pipe is inserted into the fixed ring 23, the PE pipe in the fixed ring 23 is fixed through the rotating bolts 30, the PE pipe moves during detection, and meanwhile, the PE pipe with different sizes can be matched.

Further, the sliding block 32 and the sliding groove 33 are provided with two groups, the sliding groove 33 is arranged at the top end of the device base 34, and the sliding block 32 and the sliding groove 33 are designed in a trapezoid structure;

during operation, two groups of sliding blocks 32 and sliding grooves 33 are formed, the sliding grooves 33 are formed in the top end of the device base 34, the sliding blocks 32 and the sliding grooves 33 are of a trapezoid design, and when the sliding blocks 32 move in the sliding grooves 33, the sliding blocks 32 can only move left and right on the sliding grooves 33 and cannot move up and down through the abutting connection between the sliding blocks 32 and the inner walls of the sliding grooves 33.

Further, the top end of the device base 34 is provided with six groups of long grooves 36, the long grooves 36 are connected with a base plate 37 in a sliding manner, the bottom end of the base plate 37 is contacted with the top end of the device base 34, and the top end of the base plate 37 is flush with the bottom end of the fixed ring 23;

when the PE pipe measuring device works, six groups of long grooves 36 are formed in the top end of the device base 34, the long grooves 36 are connected with the base plates 37 in a sliding mode, the bottom ends of the base plates 37 are in contact with the top end of the device base 34, the top ends of the base plates 37 are the same as the bottom ends of the fixed rings 23, after the positions of the two groups of movable bases 1 are determined, the base plates 37 between the two groups of movable bases 1 are pushed forwards, the top ends of the base plates 37 are the same as the bottom ends of the fixed rings 23, and therefore the fact that the bottom ends of PE pipes are suspended in the air during measurement is avoided, and the purpose of measurement cannot be achieved.

Further, the top end of the movable base 1 is fixedly connected with two groups of brackets 38, a hydraulic top plate 39 is arranged on the brackets 38, and the hydraulic top plate 39 is driven by a hydraulic pump;

during operation, two groups of brackets 38 are fixedly connected to the top end of the movable base 1, a hydraulic top plate 39 is arranged on the brackets 38, the hydraulic top plate 39 is located above the movable base 1, and the hydraulic pump drives the hydraulic top plate 39 to move downwards, so that the PE pipe is extruded.

Further, four groups of cushion blocks 35 are fixedly connected to the bottom end of the device base 34, and the cushion blocks 35 are made of rubber;

during operation, four groups of cushion blocks 35 are fixedly connected to the bottom end of the device base 34, the four groups of cushion blocks 35 are made of rubber, and friction force between the device base 34 and the ground is increased through the cushion blocks 35, so that the device is not easy to move during operation.

Working principle: the traditional PE pipe compressive strength detection device needs to manually push the fixing mechanism together with the PE pipe to the position right below the hydraulic mechanism when detecting the PE pipe, safety accidents are easy to cause when the operation of staff is lost, the function of moving the fixing ring 23 is achieved through the structural design of the moving mechanism, when the PE pipe is detected, firstly, after the PE pipe is fixed through the fixing ring 23, the screw 21 is rotated, the moving block 22 moves on the screw 21, thereby driving the fixing ring 23 fixedly connected to the top end of the moving block 22 to move, the PE pipe fixedly connected to the fixing ring 23 is conveyed to the bottom end of the hydraulic mechanism through the movement of the fixing ring 23 on the moving base 1, manual operation of operators is avoided, two groups of sliding blocks 32 are arranged on the moving base 1, two groups of sliding blocks 32 are fixedly connected to the bottom end of the moving base 1, and the two groups of sliding blocks 32 are slidably connected to the sliding grooves 33.

Through the structural design of guide bar 24, realized carrying out the function of direction when moving movable block 22 on screw rod 21, seted up two sets of round holes 25 in movable block 22's inside, the inside of round hole 25 runs through has guide bar 24, both ends are all fixed connection on the inner wall of recess 20 about two sets of guide bars 24.

Two groups of slide rails 26 are fixedly connected to the bottom end of the groove 20, the bottom end of the moving block 22 is slidably connected to the slide rails 26, the supporting effect on the moving block 22 is achieved through the slide rails 26, and meanwhile the moving block 22 can move in the groove 20 conveniently.

Three groups of threaded holes 31 are formed in the fixed ring 23, the three groups of threaded holes 31 are in threaded connection with the hydraulic top plate 39, when PE pipes are inserted into the fixed ring 23, the PE pipes in the fixed ring 23 are fixed through rotating bolts 30, the PE pipes move in detection, and meanwhile, the PE pipes with different sizes can be matched.

The sliding block 32 and the sliding groove 33 are both provided with two groups, the sliding groove 33 is arranged at the top end of the device base 34, the sliding block 32 and the sliding groove 33 are both in a trapezoid design, and when the sliding block 32 moves in the sliding groove 33, the sliding block 32 can only move left and right on the sliding groove 33 and cannot move up and down through the abutting joint between the sliding block 32 and the inner wall of the sliding groove 33.

Six groups of long grooves 36 are formed in the top end of the device base 34, a base plate 37 is connected to the long grooves 36 in a sliding mode, the bottom ends of the base plate 37 are in contact with the top end of the device base 34, the top end of the base plate 37 is the same as the bottom end of the fixed ring 23, after the positions of the two groups of movable bases 1 are determined, the base plate 37 between the two groups of movable bases 1 is pushed forwards, the top end of the base plate 37 is the same as the bottom end of the fixed ring 23, and therefore the bottom end of a PE pipe is prevented from being suspended during measurement, and the purpose of measurement cannot be achieved.

Two groups of brackets 38 are fixedly connected to the top end of the movable base 1, a hydraulic top plate 39 is arranged on the brackets 38, the hydraulic top plate 39 is located above the movable base 1, and the hydraulic pump drives the hydraulic top plate 39 to move downwards, so that the PE pipe is extruded.

Four groups of cushion blocks 35 are fixedly connected to the bottom end of the device base 34, the four groups of cushion blocks 35 are made of rubber, and friction force between the device base 34 and the ground is increased through the cushion blocks 35, so that the device is not easy to move during working.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.

Claims (8)

1. PE pipe compressive strength detection device, its characterized in that: comprises a movable base (1); a groove (20) is formed in the top end of the movable base (1); the inside of recess (20) is provided with moving mechanism, moving mechanism includes screw rod (21), the left end of screw rod (21) rotates to be connected on the inner wall of recess (20), the right-hand member of screw rod (21) runs through recess (20), threaded connection has movable block (22) on screw rod (21), the top fixedly connected with solid fixed ring (23) of movable block (22), round hole (25) have been seted up to the inside of movable block (22), movable base (1) is provided with two sets of, the bottom fixedly connected with slider (32) of movable base (1), slider (32) sliding connection is on spout (33).

2. The device for detecting compressive strength of a PE conduit according to claim 1, wherein: the inside of round hole (25) is run through has guide bar (24), two sets of round hole (25) have been seted up, both ends all are fixed connection on the inner wall of recess (20) about two sets of guide bar (24).

3. The device for detecting compressive strength of a PE conduit according to claim 2, wherein: the bottom end of the groove (20) is fixedly connected with two groups of sliding rails (26), and the bottom end of the moving block (22) is slidably connected to the sliding rails (26).

4. A PE catheter compressive strength testing apparatus according to claim 3, wherein: three groups of threaded holes (31) are formed in the fixing ring (23), and the three groups of threaded holes (31) are in threaded connection with the bolts (30).

5. The device for detecting compressive strength of a PE conduit according to claim 4, wherein: the sliding block (32) and the sliding groove (33) are both provided with two groups, the sliding groove (33) is arranged at the top end of the device base (34), and the sliding block (32) and the sliding groove (33) are of a trapezoid structural design.

6. The device for detecting compressive strength of a PE conduit according to claim 5, wherein: six groups of long grooves (36) are formed in the top end of the device base (34), base plates (37) are connected to the long grooves (36) in a sliding mode, the bottom ends of the base plates (37) are in contact with the top end of the device base (34), and the top ends of the base plates (37) are flush with the bottom ends of the fixing rings (23).

7. The device for detecting compressive strength of a PE conduit according to claim 6, wherein: the hydraulic lifting device is characterized in that the top end of the movable base (1) is fixedly connected with two groups of supports (38), a hydraulic top plate (39) is arranged on each support (38), and the hydraulic top plate (39) is driven by a hydraulic pump.

8. The device for detecting compressive strength of a PE conduit according to claim 7, wherein: the bottom end of the device base (34) is fixedly connected with four groups of cushion blocks (35), and the cushion blocks (35) are made of rubber materials.