CN218776840U - Manual detection device for deformation point position of inner wall of tubular pile die - Google Patents

Abstract

The utility model relates to an among the manual detection device structure of tubular pile mould inner wall deformation point location, through the connecting seat of design specific structure and position relation, setting element and measuring part, 2 locating part symmetric distribution make measuring part erect when the semi-cylindrical inner wall of tubular pile mould in the structure of measuring part both sides, both sides obtain the stable stay, can not take place the skew and influence measurement accuracy, utilize the measuring part to wear to locate the structure of the cuboid through-hole of adapter sleeve, realize sliding fit and connect, can accurately measure the deflection of semi-cylindrical inner wall through simple operation through the scale on the measuring part. The device has simple structure, and the advantage that the cost of manufacture is low, and whether the artifical handheld deformation that is used for surveying buret pile mould inner wall of being convenient for to can accurate measurement deformation point position deflection, subsequent accurate restoration of being convenient for.

Description

Manual detection device for deformation point position of inner wall of tubular pile die

Technical Field

The utility model relates to a tubular pile mould warp and detects technical field, especially relates to a tubular pile mould inner wall warp manual detection device of position.

Background

The production method of the cylindrical prestressed pipe pile comprises the steps of rotating a centrifugal pipe pile mould filled with concrete on a centrifuge at a high speed to enable the concrete in the pipe pile mould to do high-speed centrifugal motion, and finally manufacturing the concrete pipe pile with a circular hole in the center.

After the tubular pile die is rotated on the centrifuge at a high speed to process the prestressed tubular pile, whether the tubular pile die deforms or not needs to be detected, if the tubular pile die cannot be detected and repaired in time, the tubular pile die is easy to jump or even fly out of the centrifuge during subsequent high-speed rotation operation on the centrifuge.

Among the prior art, mostly look at the head through artifical naked eye and observe whether tubular pile mould has some positions to take place to warp, then the manual work is drawn at the position that needs the restoration and is marked, the follow-up restoration of being convenient for again.

At present, an effective tool for manually and quickly detecting whether each point position of a pipe pile die is deformed or not is lacked in the field, and the detection precision is low in a manual visual inspection mode, so that the problem of missing detection is easily caused.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a manual detection device of tubular pile mould inner wall deformation point position is convenient for artifical handheld deformation point position with the short-term test tubular pile mould.

In order to solve the technical problem, the utility model discloses a technical scheme be:

a quick detection device for deformation point positions of the inner wall of a prestressed pipe pile mold is characterized in that the pipe pile mold comprises two semi-cylinders, flanges are connected to the side edges of the semi-cylinders, the two semi-cylinders are connected through the flanges in a sealing mode to form a cylinder shape, and the quick detection device comprises a detection device body; the detection device body comprises a connecting seat, a positioning piece and a measuring piece;

the connecting seat is a metal plate-shaped member, a connecting sleeve is arranged in the middle of the metal plate-shaped member, and a through hole with a cuboid cross section is arranged in the connecting sleeve;

the measuring part is a metal plate-shaped member and comprises a connecting part and a measuring part, the cross section of the connecting part is in a rectangular shape in transition fit with the rectangular through hole of the connecting sleeve, and the connecting part penetrates through the rectangular through hole of the connecting sleeve; the connecting seat is perpendicular to the connecting part of the measuring piece;

the 2 measuring parts are respectively and symmetrically arranged at two ends of the connecting part, each measuring part comprises a first extending part extending in the X direction, the lower surface of each first extending part is used for abutting against a flange surface of the semi-cylinder, each measuring part further comprises a first X-direction limiting part, each first X-direction limiting part is used for limiting the inner wall of the semi-cylinder in the X direction, and a first internal corner is formed between the lower surface of each first extending part and each first X-direction limiting part;

the connecting sleeve is connected with a locking piece, and the locking piece is used for locking and fixing the connecting part penetrating through the cuboid through hole;

the positioning piece is a metal plate-shaped component, the number of the positioning pieces is two, the positioning pieces are vertically connected to the connecting seat, the two positioning pieces are respectively and symmetrically distributed on two sides of the measuring piece, the positioning pieces are parallel to the measuring piece, the positioning pieces comprise second extending parts extending in the X direction, the lower surfaces of the second extending parts are used for abutting against flange surfaces of the semi-cylinders, the positioning pieces further comprise second X-direction limiting parts, the second X-direction limiting parts are used for X-direction limiting of the inner walls of the semi-cylinders, and second internal corners are formed between the lower surfaces of the second extending parts and the second X-direction limiting parts;

and scales distributed along the X direction are arranged on the surface of the measuring part.

Further, in the above quick detection device structure for the deformation point location of the inner wall of the prestressed pipe pile mold, the first X-direction limiting portion is an arc shape matched with the inner wall of the semi-cylinder.

Further, in the structure of the rapid detection device for the deformation point location of the inner wall of the prestressed pipe pile mold, the second X-direction limiting part is in an arc shape matched with the inner wall of the semi-cylinder.

Further, in the quick detection device structure of the deformation point position of the inner wall of the prestressed pipe pile mold, a Z-direction surface of the connecting sleeve is provided with a threaded through hole, the locking member is a locking screw, and the locking screw penetrates through the threaded through hole to be in contact with the Z-direction surface of the connecting part of the measuring member.

Further, in the above quick detection device structure for the deformation point of the inner wall of the prestressed pipe pile mold, the measuring member is provided with a plurality of circular through holes which are axially arranged in a line in the Y direction along the X direction.

Furthermore, in the structure of the device for rapidly detecting the deformation point position of the inner wall of the prestressed pipe pile mould, the positioning piece and the connecting seat are connected through more than two adjusting screws.

Further, in the structure of the rapid detection device for the deformation point position of the inner wall of the prestressed pipe pile mold, the ruler is arranged on the Y side of the measuring part close to the edge in the Z direction.

The beneficial effects of the utility model reside in that: the utility model relates to an among the manual detection device structure of tubular pile mould inner wall deformation point location, through the connecting seat of design specific structure and position relation, setting element and measuring part, 2 locating part symmetric distribution make measuring part erect when the semi-cylindrical inner wall of tubular pile mould in the structure of measuring part both sides, both sides obtain the stable stay, can not take place the skew and influence measurement accuracy, utilize the measuring part to wear to locate the structure of the cuboid through-hole of adapter sleeve, realize sliding fit and connect, can accurately measure the deflection of semi-cylindrical inner wall through simple operation through the scale on the measuring part. The device has simple structure, and the advantage that the cost of manufacture is low, and whether the artifical handheld deformation that is used for surveying buret pile mould inner wall of being convenient for to can accurate measurement deformation point position deflection, subsequent accurate restoration of being convenient for.

Drawings

Fig. 1 is a schematic structural diagram of a manual detection device for detecting a deformation point of an inner wall of a pipe pile mold according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a state in which a manual detection device for detecting deformation points of an inner wall of a tubular pile mold according to an embodiment of the present invention is used for detecting deformation points of a semi-cylinder;

description of reference numerals:

11. a semi-cylinder; 12. a flange;

2. a connecting seat; 21. connecting sleeves; 22. a locking member;

3. a positioning member; 31. a second extension portion; 32. a second internal corner;

4. a measuring member; 41. a connecting portion; 42. a measuring section; 43. a first extension portion; 44. a first internal corner; 45. a circular through hole;

5. and adjusting the screw.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 2, an embodiment of the present invention relates to a device for rapidly detecting deformation points of an inner wall of a prestressed pipe pile mold, where the pipe pile mold includes two semi-cylinders 11, a flange 12 is connected to a side of each semi-cylinder 11, and the two semi-cylinders 11 are connected in a sealing manner through the flange 12 to form a cylinder shape, and include a detection device body; the detection device body comprises a connecting seat 2, a positioning piece 3 and a measuring piece 4;

the connecting seat 2 is a metal plate-shaped member, a connecting sleeve 21 is arranged in the middle of the metal plate-shaped member, and a through hole with a cuboid cross section is arranged in the connecting sleeve 21;

the measuring part 4 is a metal plate-shaped member, the measuring part 4 comprises a connecting part 41 and a measuring part 42, the cross section of the connecting part 41 is in a rectangular shape in transition fit with the rectangular through hole of the connecting sleeve 21, and the connecting part 41 is arranged in the rectangular through hole of the connecting sleeve 21 in a penetrating manner; the connecting seat 2 is perpendicular to the connecting part 41 of the measuring part 4;

the 2 measuring parts 42 are respectively symmetrically arranged at two ends of the connecting part 41, the measuring part 42 comprises a first extending part 43 extending in the X direction, the lower surface of the first extending part 43 is used for abutting against the flange 12 surface of the semi-cylinder 11, the measuring part 42 further comprises a first X-direction limiting part, the first X-direction limiting part is used for limiting the inner wall of the semi-cylinder 11 in the X direction, and a first internal corner 44 is formed between the lower surface of the first extending part 43 and the first X-direction limiting part;

the connecting sleeve 21 is connected with a locking piece 22, and the locking piece 22 is used for locking and fixing the connecting part 41 penetrating through the rectangular through hole;

the positioning piece 3 is a metal plate-shaped member, the number of the positioning pieces 3 is two, the positioning pieces 3 are vertically connected to the connecting seat 2, the two positioning pieces 3 are respectively and symmetrically distributed on two sides of the measuring piece 4, the positioning pieces 3 are parallel to the measuring piece 4, the positioning piece 3 comprises a second extending portion 31 extending in the X direction, the lower surface of the second extending portion 31 is used for abutting against the flange 12 surface of the semi-cylinder 11, the positioning piece 3 further comprises a second X-direction limiting portion, the second X-direction limiting portion is used for limiting the inner wall of the semi-cylinder 11 in the X direction, and a second internal corner 32 is formed between the lower surface of the second extending portion 31 and the second X-direction limiting portion;

the surface of the measuring part 4 is provided with scales distributed along the X direction.

In this embodiment, the first X-direction limiting portion is an arc shape matched with the inner wall of the semi-cylinder 11.

In this embodiment, the second X-direction limiting portion is an arc shape matched with the inner wall of the semi-cylinder 11.

In the structure, the measuring part 4 and the positioning part 3 can be disassembled and replaced, and the corresponding measuring part 4 and the corresponding positioning part 3 can be selectively installed according to pipe pile moulds with different pipe diameters.

In this embodiment, a through hole is formed in the Z-direction surface of the connecting sleeve 21, and the locking member 22 is a locking screw passing through the through hole and contacting the Z-direction surface of the connecting portion 41 of the measuring member 4.

Because connecting portion 41 wears to locate with transition fit the cuboid through-hole of adapter sleeve 21, consequently accessible connecting portion 41 slides in the cuboid through-hole and realizes measuring part 4's X to displacement regulation, makes the scale return to zero, and the back of adjusting is finished, only needs to screw adjusting screw, makes adjusting screw closely near the Z to the plane in measuring part 4, reaches the purpose of locking.

In this embodiment, the measuring member 4 is provided with a plurality of circular through holes 45 which are axially Y-shaped and arranged in a line along the X-direction.

In the above structure, the circular through hole 45 facilitates the fingers to pass through and hold, and reduces the overall weight of the detection device.

In this embodiment, the positioning element 3 is connected to the connecting base 2 by more than two adjusting screws 5.

In the above structure, referring to fig. 1, the adjusting screw 5 can be used for realizing the detachable replacement of the positioning part 3, and can be used for calibrating and adjusting through fine adjustment of the adjusting bolt.

In this embodiment, the scale is disposed on the Y side of the measuring member 4 near the edge in the Z direction.

In the structure, the specific position design of the scale is convenient for an operator to check the scale, and the scale cannot be abraded due to the fact that the scale is in contact with the locking screw.

The use method of the rapid detection device for the deformation point position of the inner wall of the prestressed pipe pile mould comprises the following steps:

placing the opening of a semi-cylinder 11 of a pipe pile mould to be detected upwards, erecting a detection device body on the upper part of the opening of the semi-cylinder 11, rotating an adjusting screw 5 to adjust the position of a second internal corner 32, adjusting the relative position of a measuring part 4 on a connecting sleeve 21 to enable the edge of one end of the connecting sleeve 21 to be just aligned with the zero scale of a scale, and enabling a first internal corner 44 and the second internal corner 32 to be respectively abutted against the edge of the inner wall of the semi-cylinder 11 through the adjustment; so as to complete the calibration of the detection device body;

referring to fig. 2, the detection device body that will calibrate places the inner wall upper end that waits to detect the position at semicircle tube 11 in proper order, if this position takes place to warp, this position diameter increase promptly, the upper end edge of semicircle tube 11 can't be hugged closely simultaneously to first reentrant corner 44 and second reentrant corner 32 promptly, can turn the locking screw loose this moment, will measure 4 to X to a small segment distance that slides, hug closely the upper end edge of semicircle tube 11 simultaneously until the second reentrant corner 32 of first reentrant corner 44 and different side, the reading on the scale is the deformation offset of this position promptly this moment.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (7)

1. The manual detection device for the deformation point position of the inner wall of the prestressed pipe pile mold is characterized by comprising a detection device body, wherein the pipe pile mold comprises two semi-cylinders, the side edges of the semi-cylinders are connected with flanges, and the two semi-cylinders are connected in a sealing manner through the flanges to form a cylindrical shape; the detection device body comprises a connecting seat, a positioning piece and a measuring piece;

the connecting seat is a metal plate-shaped component, a connecting sleeve is arranged in the middle of the metal plate-shaped component, and a through hole with a cuboid cross section is arranged in the connecting sleeve;

the measuring part is a metal plate-shaped member and comprises a connecting part and a measuring part, the cross section of the connecting part is in a rectangular shape in transition fit with the rectangular through hole of the connecting sleeve, and the connecting part penetrates through the rectangular through hole of the connecting sleeve; the connecting seat is perpendicular to the connecting part of the measuring piece;

the 2 measuring parts are respectively and symmetrically arranged at two ends of the connecting part, each measuring part comprises a first extending part extending in the X direction, the lower surface of each first extending part is used for being abutted against the flange surface of the semi-cylinder, each measuring part further comprises a first X-direction limiting part, each first X-direction limiting part is used for limiting the inner wall of the semi-cylinder in the X direction, and a first internal corner is formed between the lower surface of each first extending part and each first X-direction limiting part;

the connecting sleeve is connected with a locking piece, and the locking piece is used for locking and fixing the connecting part penetrating through the cuboid through hole;

the positioning piece is a metal plate-shaped component, the number of the positioning pieces is two, the positioning pieces are vertically connected to the connecting seat, the two positioning pieces are symmetrically distributed on two sides of the measuring piece respectively, the positioning pieces are parallel to the measuring piece, the positioning piece comprises a second extending part extending in the X direction, the lower surface of the second extending part is used for being abutted against the flange surface of the semi-cylinder, the positioning piece further comprises a second X-direction limiting part, the second X-direction limiting part is used for limiting the inner wall of the semi-cylinder in the X direction, and a second internal corner is formed between the lower surface of the second extending part and the second X-direction limiting part;

and scales distributed along the X direction are arranged on the surface of the measuring part.

2. The manual detection device for the deformation point of the inner wall of the prestressed pipe pile mold according to claim 1, wherein the first X-direction limiting portion is an arc shape matched with the inner wall of the semi-cylinder.

3. The manual detection device for the deformation point of the inner wall of the prestressed pipe pile mold according to claim 1, wherein the second X-direction limiting portion is an arc shape matched with the inner wall of the semi-cylinder.

4. The manual detection device for the deformation point of the inner wall of the prestressed pipe pile mold according to claim 1, wherein a threaded through hole is formed in a Z-direction surface of the connecting sleeve, the locking member is a locking screw, and the locking screw penetrates through the threaded through hole and contacts with the Z-direction surface of the connecting portion of the measuring member.

5. The manual detection device for the deformation point of the inner wall of the prestressed pipe pile mold according to claim 1, wherein the measuring member is provided with a plurality of circular through holes which are axially arranged in a Y direction and are distributed in a line along the X direction.

6. The manual detection device for the deformation point of the inner wall of the prestressed pipe pile mold according to claim 1, wherein the positioning member is connected with the connecting seat through more than two adjusting screws.

7. The manual detection device for the deformation point of the inner wall of the prestressed pipe pile mold according to claim 1, wherein the scale is arranged on the Y side of the measuring part close to the edge in the Z direction.

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