CN216955873U

CN216955873U - Scanning device for ultrasonic detection of small-diameter pipe

Info

Publication number: CN216955873U
Application number: CN202121389288.8U
Authority: CN
Inventors: 张建国; 曹剑峰; 李太江; 王焱祥; 蒋桂平; 李毅龙; 陈稳定; 李轶名
Original assignee: Xian Thermal Power Research Institute Co Ltd
Current assignee: Xian Thermal Power Research Institute Co Ltd
Priority date: 2021-06-22
Filing date: 2021-06-22
Publication date: 2022-07-12
Anticipated expiration: 2031-06-22
Also published as: DE202021105033U1

Abstract

The utility model provides a scanning device for ultrasonic detection of a small-diameter pipe, which relates to the field of welding equipment and aims to solve the problems that the existing welding seam ultrasonic automatic scanning device is large in whole, a workpiece to be detected is usually placed into the device for detection, and the detection and maintenance of the installed workpiece in the later period are inconvenient; the front end of the mounting mechanism is provided with a supporting mechanism; and the rear end of the supporting mechanism is provided with a contact mechanism. The drive of rolling member A driving piece motor makes the whole work piece that awaits measuring of device slide, and then can be when the work piece that awaits measuring is fixed, and this device can be convenient detect the welding seam of the higher position of work piece that awaits measuring, and simultaneously, this device is whole less, and portable not only can detect the welding seam of the work piece that awaits measuring that does not use, also can be convenient overhauls and maintains the welding seam of installation back work piece.

Description

Scanning device for ultrasonic detection of small-diameter pipe

Technical Field

The utility model belongs to the technical field of welding equipment, and particularly relates to a scanning device for ultrasonic detection of a small-diameter pipe.

Background

When the weld joint detection is carried out, the weld joint of a workpiece to be detected is detected by using a weld joint ultrasonic detector, so that the defect in the weld joint is found, and the occurrence of defective products is prevented.

For example, application No.: the CN201611024281.X relates to an automatic scanner for ultrasonic detection of a butt-jointed weld of a special-shaped pipe fitting and a detection method, and comprises a scanner main body assembly, a probe arm assembly, a probe clamping assembly, a universal adsorption wheel assembly and a flexible track assembly; the probe arm assembly is installed on the scanner main body assembly, and the probe clamping assembly and the universal adsorption wheel assembly are installed on the probe arm assembly in parallel; when the automatic scanning device is used, the flexible track assembly is fixed on a detected pipeline, the scanning device main body assembly provides power, the automatic scanning device moves on the track, the probe clamping assembly clamps the ultrasonic probe to move to a detected welding seam along the axis direction of the detected pipeline under the action of the probe arm assembly, and meanwhile, the universal adsorption wheel assembly and the pipeline surface around the detected welding seam support a gap, so that the distance between the ultrasonic probe and the detected pipeline is constant.

Based on the prior art, when the existing automatic ultrasonic welding seam scanner is used, the whole device is large, a workpiece to be detected is usually placed into the device for detection, and the installed workpiece is inconvenient to detect and maintain in the later period; meanwhile, when the existing automatic ultrasonic scanning device for the welding line is used, the ultrasonic scanner is usually always started, so that the waste of electric quantity is large, and the automatic ultrasonic scanning device is inconvenient to use for a long time.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a scanning device for ultrasonic detection of a small-diameter pipe, which aims to solve the problems that when the existing welding seam ultrasonic automatic scanning device is used, the whole device is large, a workpiece to be detected is usually placed into the device for detection, and the mounted workpiece is inconvenient to detect and maintain in the later period; meanwhile, when the existing automatic welding line ultrasonic scanning device is used, an ultrasonic scanner is always started, so that the waste of electric quantity is large, and the long-time use is inconvenient.

The utility model relates to a scanning device for ultrasonic detection of a small-diameter pipe, which has the purpose and the effect realized by the following specific technical scheme:

a scanning device for ultrasonic detection of a small-diameter pipe comprises an installation mechanism, wherein two climbing mechanisms are installed on the upper side and the lower side of the rear end of the installation mechanism, the front ends of sliding pieces of the climbing mechanisms are connected with an installation piece of the installation mechanism through sliding rods, and the front ends of fixing pieces of the climbing mechanisms are connected with the installation piece through the sliding rods; the front end of the mounting mechanism is provided with a supporting mechanism, a supporting piece of the supporting mechanism is fixedly connected with the mounting piece through a screw, and a scanning piece is arranged on the supporting piece; the rear end of the supporting mechanism is provided with a contact mechanism, and an elastic part of the contact mechanism is fixedly connected with the supporting part through a screw.

Further, the installation mechanism includes:

the mounting piece is a rectangular box body, and a rectangular groove is formed in the mounting piece; the upper side and the lower side of the inside of the mounting piece are respectively provided with two sliding rods, a rectangular through hole is formed above the mounting piece, and the front end of the mounting piece is provided with four screw holes;

the battery, the battery adopts lithium electricity material, and the battery is installed inside the rectangular channel of installed part.

Further, the climbing mechanism comprises:

the sliding part is of a semicircular plate-shaped structure, and a rectangular bulge is arranged on the outer side of the sliding part; a plurality of inclined cylindrical grooves are formed in the inner surface of the sliding part, and circular through holes are formed in the upper side and the lower side of each cylindrical groove of the sliding part; the front end of the sliding piece is provided with a rectangular plate-shaped bulge, and the left side of the sliding piece is provided with a columnar bulge; two circular through holes are formed in the rectangular plate-shaped bulges of the sliding piece, and a sliding rod of the mounting piece is inserted into the circular through holes of the sliding piece;

the rolling piece A is an inclined columnar structure, the number of the inclined columnar structures is the same as that of inclined columnar grooves in the inner surface of the sliding piece, and the rolling piece A is inserted into the inclined columnar grooves of the sliding piece; the upper side and the lower side of the rolling part A are provided with rotating shafts, and the rotating shafts of the rolling part A are inserted into the through holes of the cylindrical grooves of the sliding part;

the fixing piece is of an arc-shaped plate structure, and the inner surface of the fixing piece is provided with a rectangular groove; the front end of the fixing piece is provided with a rectangular plate-shaped bulge, and three circular through holes are formed in the rectangular plate-shaped bulge of the fixing piece; the cylindrical bulge of the sliding part is inserted into the circular through hole of the fixed part, and the fixed part is connected with the sliding part through a spring; a handle is arranged above the fixing piece and penetrates through the rectangular through hole above the mounting piece;

the rolling part B is of a columnar structure, rotating shafts are arranged on the left side and the right side of the rolling part B, and the rolling part B is inserted into the rectangular groove of the fixing part;

the driving part adopts a motor, and a rotating shaft of the driving part is connected with a rotating shaft above the rolling part A through a gear box.

Six cylindrical grooves with inclination angles of thirty degrees are formed in the inner surface of the sliding piece (201).

Further, the supporting mechanism comprises:

the support piece is of an L-shaped sheet metal structure, four screw holes are formed in the front end of the support piece, and T-shaped bulges are formed in the upper surface and the lower surface of the interior of the support piece; the rear end of the supporting piece is provided with a plate-shaped bulge, a rectangular through hole is formed in the plate-shaped bulge of the supporting piece, and two screw holes are formed in the plate-shaped bulge of the supporting piece;

the scanning piece adopts an ultrasonic detector, the front end of the scanning piece is provided with a lead, and the lead of the scanning piece is inserted into the rectangular through hole of the supporting piece;

the rear end of the display is provided with a rectangular bulge, and the upper side and the lower side of the rectangular bulge of the display are provided with T-shaped grooves; the T-shaped bulge of the supporting piece is inserted into the T-shaped groove of the display, and the rear end of the display is connected with the lead of the scanning piece.

Further, the contact mechanism includes:

the elastic piece is of an arc-shaped plate-shaped structure, and a rectangular plate-shaped bulge is arranged at the rear end of the elastic piece; rectangular bulges are arranged on the upper side and the lower side of the rectangular plate-shaped bulge of the elastic piece, and a circular through hole is formed in the rectangular bulge of the elastic piece; a rectangular through hole is formed in the rectangular plate-shaped bulge of the elastic piece, and the left and right scanning pieces are inserted into the rectangular through hole of the elastic piece;

the contact piece is of a columnar structure and is connected with the elastic piece through the rotating shaft.

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

1. the device is provided with the climbing mechanism, a sliding part and a fixing part of the climbing mechanism are connected through an extension spring, so that the device can be integrally clamped on a workpiece to be detected, a rolling part A is arranged in the sliding part of the climbing mechanism, the rolling part A is at an angle of thirty degrees relative to the sliding part, and the rolling part A can roll under the driving of a driving part motor, so that the device integrally slides on the workpiece to be detected, and further, when the workpiece to be detected is fixed, the device can conveniently detect a welding seam at a higher position of the workpiece to be detected, meanwhile, the device is smaller and convenient to carry, not only can detect the welding seam of the unused workpiece to be detected, but also can conveniently overhaul and maintain the welding seam of the workpiece after being installed;

2. in this device, contact mechanism has been set up, contact mechanism's elastic component can make the contact can hug closely the surface of the work piece that awaits measuring all the time, when meetting the welding seam, can make the elastic component bounce, convey the signal of telecommunication to the scanning piece, make the scanning piece begin work from standby state, scan the welding seam and detect, then handle the data that the scanning reachs, and show through the display, through above mechanism, just begin work when this device contacts the welding seam, it is long when the use of scanning piece has been improved fully, and the work efficiency is improved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of the internal part structure of the present invention.

Fig. 3 is a rear view of the internal components of the present invention.

Fig. 4 is a partially enlarged structural view of the present invention at a shown in fig. 2.

Fig. 5 is a partial enlarged structural view at B of fig. 2 according to the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. an installation mechanism;

101. a mounting member; 102. a battery;

2. a climbing mechanism;

201. a slider; 202. a rolling member A; 203. a fixing member; 204. a rolling member B; 205. a drive member;

3. a support mechanism;

301. a support member; 302. a scanning member; 303. a display;

4. a contact mechanism;

401. an elastic member; 402. a contact member.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the utility model. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 5:

the utility model provides a scanning device for ultrasonic detection of a small-diameter pipe, which comprises: the climbing device comprises an installation mechanism 1, wherein two climbing mechanisms 2 are installed on the upper side and the lower side of the rear end of the installation mechanism 1, the front ends of sliding pieces 201 of the climbing mechanisms 2 are connected with an installation piece 101 of the installation mechanism 1 through sliding rods, and the front ends of fixing pieces 203 of the climbing mechanisms 2 are connected with the installation piece 101 through the sliding rods; the front end of the mounting mechanism 1 is provided with a supporting mechanism 3, and a supporting piece 301 of the supporting mechanism 3 is fixedly connected with the mounting piece 101 through a screw; the rear end of the supporting mechanism 3 is provided with a contact mechanism 4, and an elastic member 401 of the contact mechanism 4 is fixedly connected with the supporting member 301 through a screw.

As shown in fig. 3, the mounting mechanism 1 includes: the mounting piece 101 is a rectangular box body, and a rectangular groove is formed in the mounting piece 101; two sliding rods are respectively arranged on the upper side and the lower side inside the mounting piece 101, a rectangular through hole is formed above the mounting piece 101, and four screw holes are formed in the front end of the mounting piece 101; a battery 102, the battery 102 is made of a lithium battery material, and the battery 102 is mounted inside the rectangular groove of the mounting member 101.

As shown in fig. 2, the climbing mechanism 2 includes: the sliding piece 201 is of a semicircular plate-shaped structure, and a rectangular bulge is arranged on the outer side of the sliding piece 201; six cylindrical grooves with thirty-degree inclination angles are formed in the inner surface of the sliding part 201, and circular through holes are formed in the upper side and the lower side of each cylindrical groove of the sliding part 201; the front end of the sliding piece 201 is provided with a rectangular plate-shaped bulge, and the left side of the sliding piece 201 is provided with a columnar bulge; two circular through holes are formed in the rectangular plate-shaped protrusion of the sliding piece 201, and a sliding rod of the mounting piece 101 is inserted into the circular through hole of the sliding piece 201; the sliding part 201 comprises a sliding part A202, wherein the sliding part A202 is of a columnar structure with an inclination angle of thirty degrees, and six sliding parts A202 are inserted into six columnar grooves of the sliding part 201; the upper side and the lower side of the rolling element A202 are provided with rotating shafts, and the rotating shafts of the rolling element A202 are inserted into the through holes of the cylindrical grooves of the sliding element 201; the fixing piece 203 is of an arc-shaped plate structure, and a rectangular groove is formed in the inner surface of the fixing piece 203; a rectangular plate-shaped bulge is arranged at the front end of the fixing piece 203, and three circular through holes are formed in the rectangular plate-shaped bulge of the fixing piece 203; the cylindrical protrusion of the sliding part 201 is inserted into the circular through hole of the fixing part 203, and the fixing part 203 is connected with the sliding part 201 through a spring; a handle is arranged above the fixing piece 203, and the handle of the fixing piece 203 penetrates through the rectangular through hole above the mounting piece 101; the rolling member B204 is of a columnar structure, rotating shafts are arranged on the left side and the right side of the rolling member B204, and the rolling member B204 is inserted into the rectangular groove of the fixing member 203; the driving part 205 adopts a motor, and the rotating shaft of the driving part 205 is connected with the rotating shaft above the rolling part A202 through a gear box; the sliding part 201 and the fixing part 203 of the climbing mechanism 2 are connected through an extension spring, so that the device can be integrally clamped on a workpiece to be tested, a rolling part A202 is arranged inside the sliding part 201 of the climbing mechanism 2, the rolling part A202 forms a thirty-degree angle relative to the sliding part 201, and the rolling part A202 can roll under the driving of a motor of the driving part 205, so that the device can integrally slide on the workpiece to be tested.

As shown in fig. 2, the supporting mechanism 3 includes: the supporting piece 301 is of an L-shaped sheet metal structure, four screw holes are formed in the front end of the supporting piece 301, and T-shaped protrusions are arranged on the upper surface and the lower surface inside the supporting piece 301; a plate-shaped bulge is arranged at the rear end of the supporting piece 301, a rectangular through hole is formed in the plate-shaped bulge of the supporting piece 301, and two screw holes are formed in the plate-shaped bulge of the supporting piece 301; the scanning piece 302 is an ultrasonic detector, a lead is arranged at the front end of the scanning piece 302, and the lead of the scanning piece 302 is inserted into the rectangular through hole of the supporting piece 301; the display 303, the back end of the display 303 is provided with a rectangular bulge, and the upper and lower sides of the rectangular bulge of the display 303 are provided with T-shaped grooves; a T-shaped bulge of the supporting piece 301 is inserted into the T-shaped groove of the display 303, and the rear end of the display 303 is connected with a lead of the scanning piece 302; the scanning unit 302 starts to work from a standby state, scans and detects a welding seam, processes data obtained by scanning, and displays the data through the display 303.

As shown in fig. 2, the contact mechanism 4 includes: the elastic piece 401, the elastic piece 401 is an arc plate-shaped structure, and the rear end of the elastic piece 401 is provided with a rectangular plate-shaped bulge; rectangular bulges are arranged on the upper side and the lower side of the rectangular plate-shaped bulge of the elastic part 401, and a circular through hole is formed in the rectangular bulge of the elastic part 401; a rectangular through hole is formed in the rectangular plate-shaped bulge of the elastic piece 401, and the left and right scanning pieces 302 are inserted into the rectangular through hole of the elastic piece 401; the contact piece 402 is of a columnar structure, and the contact piece 402 is connected with the elastic piece 401 through a rotating shaft; the elastic member 401 of the contact mechanism 4 can make the contact element 402 always cling to the surface of the workpiece to be measured, and can make the elastic member 401 bounce when meeting the welding seam.

When in use: the sliding part 201 and the fixing part 203 of the climbing mechanism 2 are connected through an extension spring, so that the device can be integrally clamped on a workpiece to be detected, the rolling part A202 is arranged in the sliding part 201 of the climbing mechanism 2, the rolling part A202 forms a thirty-degree angle relative to the sliding part 201, and the rolling part A202 can roll under the driving of the motor of the driving part 205, so that the device integrally slides on the workpiece to be detected, and further, when the workpiece to be detected is fixed, the device can conveniently detect a welding seam at a higher position of the workpiece to be detected, meanwhile, the device is smaller and convenient to carry, not only can detect the welding seam of the unused workpiece to be detected, but also can conveniently overhaul and maintain the welding seam of the workpiece after being installed; this device removes on the work piece that awaits measuring, elastic component 401 of contact mechanism 4 can make contact member 402 hug closely the surface of the work piece that awaits measuring all the time, when meetting the welding seam, can make elastic component 401 bounce, convey the signal of telecommunication to scanning piece 302, make scanning piece 302 work from standby state, scan the welding seam and detect, then handle the data that the scanning reachs, and show through display 303, through above mechanism, can just begin to work when this device contacts the welding seam, the length of time of use of scanning piece 302 has been improved fully, and the work efficiency is improved.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to practitioners skilled in this art. The embodiment was chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a small diameter tube ultrasonic testing is with scanning device which characterized in that includes: the climbing device comprises an installation mechanism (1), wherein two climbing mechanisms (2) are installed on the upper side and the lower side of the rear end of the installation mechanism (1), the front ends of sliding pieces (201) of the climbing mechanisms (2) are connected with an installation piece (101) of the installation mechanism (1) through sliding rods, and the front ends of fixing pieces (203) of the climbing mechanisms (2) are connected with the installation piece (101) through the sliding rods; the front end of the mounting mechanism (1) is provided with a supporting mechanism (3), a supporting piece (301) of the supporting mechanism (3) is fixedly connected with the mounting piece (101) through a screw, and a scanning piece (302) is arranged on the supporting piece (301); the rear end of the supporting mechanism (3) is provided with a contact mechanism (4), and an elastic part (401) of the contact mechanism (4) is fixedly connected with the supporting part (301) through a screw; when the workpiece to be detected moves and meets a weld joint, the elastic part 401 is bounced to transmit an electric signal to the scanning part 302, so that the scanning part 302 starts to work from a standby state to scan and detect the weld joint.

2. The scanning device for ultrasonic testing of the small-diameter pipe according to claim 1, wherein the mounting mechanism (1) comprises:

the mounting piece (101), the mounting piece (101) is a rectangular box body, and a rectangular groove is formed in the mounting piece (101); the upper side and the lower side of the inside of the mounting piece (101) are respectively provided with two sliding rods, a rectangular through hole is formed above the mounting piece (101), and the front end of the mounting piece (101) is provided with four screw holes;

the battery (102), the battery (102) adopts the lithium electricity material, and the battery (102) is installed in the rectangular groove inside of installation spare (101).

3. The scanning device for ultrasonic testing of the small-diameter pipe according to claim 1, wherein the climbing mechanism (2) comprises:

the sliding piece (201), the sliding piece (201) is a semicircular plate-shaped structure, and the outer side of the sliding piece (201) is provided with a rectangular bulge; a plurality of inclined cylindrical grooves are formed in the inner surface of the sliding part (201), and circular through holes are formed in the upper side and the lower side of each cylindrical groove of the sliding part (201); the front end of the sliding piece (201) is provided with a rectangular plate-shaped bulge, and the left side of the sliding piece (201) is provided with a columnar bulge; two circular through holes are formed in the rectangular plate-shaped protrusion of the sliding piece (201), and a sliding rod of the mounting piece (101) is inserted into the circular through hole of the sliding piece (201);

the rolling part A (202), the rolling part A (202) is an inclined columnar structure, the number of the inclined columnar structures is the same as that of inclined columnar grooves on the inner surface of the sliding part (201), and the rolling part A (202) is inserted into the inclined columnar grooves of the sliding part (201); rotating shafts are arranged on the upper side and the lower side of the rolling part A (202), and the rotating shafts of the rolling part A (202) are inserted into through holes of the cylindrical groove of the sliding part (201);

the fixing piece (203), the fixing piece (203) is an arc-shaped plate-shaped structure, and the inner surface of the fixing piece (203) is provided with a rectangular groove; a rectangular plate-shaped bulge is arranged at the front end of the fixing piece (203), and three circular through holes are formed in the rectangular plate-shaped bulge of the fixing piece (203); the cylindrical protrusion of the sliding piece (201) is inserted into the circular through hole of the fixed piece (203), and the fixed piece (203) is connected with the sliding piece (201) through a spring;

the rolling part B (204), the rolling part B (204) is a columnar structure, rotating shafts are arranged on the left side and the right side of the rolling part B (204), and the rolling part B (204) is inserted into the rectangular groove of the fixing part (203);

the driving part (205) adopts a motor, and the rotating shaft of the driving part (205) is connected with the rotating shaft above the rolling part A (202) through a gear box.

4. The scanning device for ultrasonic testing of small-diameter pipes according to claim 3, wherein a handle is provided above the fixing member (203), and the handle of the fixing member (203) passes through the rectangular through hole above the mounting member (101).

5. The scanning device for ultrasonic testing of the small-diameter pipe as claimed in claim 3, wherein the inner surface of the sliding member (201) is provided with six cylindrical grooves having an inclination angle of thirty degrees.

6. The scanning device for ultrasonic testing of small-diameter pipes according to claim 1, wherein the supporting mechanism (3) comprises:

the supporting piece (301), the supporting piece (301) is of an L-shaped sheet metal structure, four screw holes are formed in the front end of the supporting piece (301), and T-shaped protrusions are arranged on the upper surface and the lower surface inside the supporting piece (301); the rear end of the supporting piece (301) is provided with a plate-shaped bulge, a rectangular through hole is formed in the plate-shaped bulge of the supporting piece (301), and two screw holes are formed in the plate-shaped bulge of the supporting piece (301);

the scanning piece (302) adopts an ultrasonic detector, the front end of the scanning piece (302) is provided with a lead, and the lead of the scanning piece (302) is inserted into the rectangular through hole of the supporting piece (301);

the rear end of the display (303) is provided with a rectangular bulge, and the upper side and the lower side of the rectangular bulge of the display (303) are provided with T-shaped grooves; t-shaped bulges of the supporting piece (301) are inserted into the T-shaped groove of the display (303), and the rear end of the display (303) is connected with a lead of the scanning piece (302).

7. The scanning device for ultrasonic testing of small-diameter pipes according to claim 1, wherein the contact mechanism (4) comprises:

the elastic piece (401), the elastic piece (401) is an arc plate-shaped structure, and the rear end of the elastic piece (401) is provided with a rectangular plate-shaped bulge; rectangular bulges are arranged on the upper and lower sides of the rectangular plate-shaped bulge of the elastic part (401), and a circular through hole is formed in the rectangular bulge of the elastic part (401); a rectangular through hole is formed in the rectangular plate-shaped bulge of the elastic piece (401), and the scanning piece (302) is inserted into the rectangular through hole of the elastic piece (401);

the contact piece (402), the contact piece (402) is a columnar structure, and the contact piece (402) is connected with the elastic piece (401) through a rotating shaft.