CN210322547U

CN210322547U - Welding seam convex pressure test device with protective cover and capable of achieving clamp tank taking function

Info

Publication number: CN210322547U
Application number: CN201920465750.4U
Authority: CN
Inventors: 白仲文; 李祝斌; 谢锦彪; 何炎新
Original assignee: Jiayi Instrument Zhaoqing Co ltd; Canneed Instrument Group Ltd
Current assignee: Jiayi Instrument Zhaoqing Co ltd; Canneed Instrument Group Ltd
Priority date: 2019-04-04
Filing date: 2019-04-04
Publication date: 2020-04-14
Anticipated expiration: 2029-04-04

Abstract

The utility model discloses a but welding seam bulge test device of jar function is got to anchor clamps with protection casing, comprising a base plate, bottom plate one end is fixed with the callus on the sole and the bottom plate other end is vertical in proper order to be equipped with dustcoat, preceding shrouding and back shrouding, dustcoat one side is connected with preceding shrouding and the dustcoat opposite side is fixed with the back shrouding, back shrouding one side is equipped with the air supply treater. This but weld seam bulge test device with protection casing and anchor clamps get jar function is provided with the sliding block and constitutes sliding structure through its inside bearing and bearing fixed pin and spout axle, such design makes things convenient for the sliding block, inside bearing and bearing fixed pin constitute "worker" font structure, make things convenient for its "worker" font structure to make a round trip to slide on the spout axle, can make "worker" font structure bear the apical force of vertical direction, and "worker" font structure can pass through the cylinder connecting rod removal by the horizontal direction, thereby make the apical ball slide along measuring sample jar welding seam position.

Description

Welding seam convex pressure test device with protective cover and capable of achieving clamp tank taking function

Technical Field

The utility model relates to a protruding pressure test technical field of welding seam specifically is a but welding seam protruding pressure test device of jar function is got to anchor clamps with protection casing.

Background

The weld bead bulge testing machine is used for checking the strength and the continuity of the weld bead of the three-piece can, along with the development of science and technology, the weld bead bulge testing device has great development degree, the development of the weld bead bulge testing machine brings great convenience to people in the process of checking the strength of the weld bead of the three-piece can, and the type and the number of the weld bead bulge testing machine are increasing day by day. Although the welding seam bulge test device on the existing market is very many in type and quantity, most of welding seam bulge test devices are easy to cause the situation that the test device is inaccurate in test because the clamping of the clamping tank is inconvenient and the clamping of the clamping tank is insecure in the using process, and the situation that people are easily injured in the test process is easy to occur because the test device does not have a protection device and two hand operation keys, so that the technology capable of improving the structure of the welding seam bulge test device is urgently needed on the market to perfect the equipment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a but welding seam bulge test device of jar function is got to anchor clamps with protection casing to solve the welding seam bulge test device on the existing market that above-mentioned background art provided and press from both sides easily because press from both sides the jar inconvenient and press from both sides jar insecure condition that leads to the test device to test appears in the use, and because test device does not have protector and both hands manipulating key easily leads to going out the problem of hindering people's incident easily in the test procedure.

In order to achieve the above object, the utility model provides a following technical scheme: a weld seam bulge test device with a protective cover and a function of taking a can by a clamp comprises a bottom plate, wherein a foot pad is fixed at one end of the bottom plate, an outer cover, a front sealing plate and a rear sealing plate are sequentially and vertically arranged at the other end of the bottom plate, one side of the outer cover is connected with the front sealing plate, the other side of the outer cover is fixed with the rear sealing plate, an air source processor is arranged at one side of the rear sealing plate, wherein,

a sliding groove shaft penetrates through the inner part of the outer cover close to the front sealing plate and the rear sealing plate, a test switch and a power switch are arranged on the outer cover close to the sliding groove shaft, one end of the sliding groove shaft is sequentially connected with a locking bolt, a locking nut, a locking buckle, a fastening pin and a rotating wing connecting plate, a left rotating wing and a right rotating wing are transversely arranged on the sliding groove shaft, a sliding block, a locking screw, a needle bearing, a bearing fixing pin, a cylinder connecting rod and a jacking ball are sequentially fixed in the sliding groove shaft, the outer wall of the sliding groove shaft is connected with a protective cover, a protective door is arranged on one side of the protective cover, and a door handle is fixed on the protective door;

a clamping cylinder is connected to the bottom plate close to the outer cover, a flat key, a first rocker arm, a second rocker arm, a rocker arm connecting pin and a clamping cylinder connecting rod are sequentially fixed to one end of the clamping cylinder, and a left rotating wing and a right rotating wing are respectively arranged at one end of the flat key;

an air cylinder mounting block, a first bearing spacer, a rotary wing fixing plate, a second bearing spacer, a second bearing, a rotary wing rear positioning plate and a testing telescopic air cylinder are sequentially fixed on one side of the front sealing plate close to the rear sealing plate

Preferably, the left rotating wing and the right rotating wing are symmetrically distributed about the axis of the clamping cylinder connecting rod, and the left rotating wing, the right rotating wing and the chute shaft form a movable structure through two side positioning grooves formed in the chute shaft.

Preferably, the clamping cylinder and the bottom plate form a movable structure through a clamping cylinder connecting rod, and the clamping cylinder connecting rod and the two second rocker arms form a movable structure through a rocker arm connecting pin.

Preferably, the sliding block and the sliding groove shaft form a sliding structure through a needle roller bearing and a bearing fixing pin inside the sliding block, the sliding block is of a cylindrical structure, and the sliding block, the needle roller bearing and the bearing fixing pin are arranged in two.

Preferably, the first bearing spacer and the second bearing spacer are symmetrically distributed about the axis of the front sealing plate, the rotary wing fixing plate and the rotary wing rear positioning plate are symmetrically distributed about the axis of the front sealing plate, and the first bearing and the second bearing are symmetrically distributed about the axis of the front sealing plate.

Preferably, the locking screw and the top ball form a fixing structure through welding, and the two sliding blocks, the needle roller bearing and the bearing fixing pin are symmetrically distributed around the axes of the locking screw and the top ball.

Preferably, the flat key, the first rocker arm and the second rocker arm are all provided with two, and the two flat keys, the first rocker arm and the second rocker arm are symmetrically distributed about the axis of the clamping cylinder connecting rod, and the flat key, the first rocker arm and the second rocker arm form a cantilever structure with the clamping cylinder through the clamping cylinder connecting rod.

Preferably, the vertical section of the protecting cover is of an inverted U-shaped structure, and one side of the protecting cover forms a fixing structure with the outer cover through gluing.

Preferably, the guard gate constitutes the structure that opens and shuts with the guard shield, and guard shield and guard gate are transparent organic glass material.

Compared with the prior art, the beneficial effects of the utility model are that: this but weld seam bulge test device with protection casing and anchor clamps get jar function:

1. be provided with die clamping cylinder and pass through die clamping cylinder connecting rod and bottom plate constitution active structure, such design convenience of customers die clamping cylinder promotes die clamping cylinder connecting rod to make die clamping cylinder connecting rod drive 2 parallel keys, first rocking arm and second rocking arm and pass through the rocking arm connecting pin and constitute revolution mechanic, and then make things convenient for three jars to be pressed from both sides by the device and play

2. The sliding block and the sliding groove shaft form a sliding structure through the inner needle bearing and the bearing fixing pin, the sliding block, the inner needle bearing and the bearing fixing pin form an I-shaped structure, the I-shaped structure can slide back and forth on the sliding groove shaft conveniently, the I-shaped structure can bear the jacking force in the vertical direction, and the I-shaped structure can move in the horizontal direction through the cylinder connecting rod, so that the jacking ball slides along the position of the welding line of the measurement sample tank;

3. the device is provided with a first rocker arm, a second rocker arm and a sliding groove shaft and is designed into a cantilever structure, in order to reduce the jacking force of a sliding block during sliding and enable the other ends of the first rocker arm, the second rocker arm and a rocker arm connecting pin to be opened, a C-shaped locking part is additionally arranged at the tail ends of the first rocker arm and the second rocker arm, so that a clamping cylinder connecting rod is downwards rotated and buckled on the sliding groove shaft during testing to be screwed down for limiting and locking a flat key, and when a sample is taken out after the testing is finished, a positioning screw is unscrewed to upwards rotate the flat key, and then the;

4. a test telescopic cylinder is arranged to push a cylinder connecting rod to be converted into a rotating arm hinge for pressing, the test telescopic cylinder is pushed upwards to drive a four-side rod structure to be connected with the rotating arm to swing so as to tightly press the sample tank on the positioning column,

6. be provided with guard shield and guard gate for transparent organic glass material to install proximity switch on guard shield and guard gate closed position, only when closing the closed guard gate that goes up transparent organic glass material messenger and press the proximity switch and have the signal just can both hands press the test key and trigger the test.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic plan view of the present invention;

FIG. 3 is a schematic structural view of the fixture and the testing device of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A of FIG. 1 according to the present invention;

FIG. 5 is an enlarged schematic view of the structure of FIG. 1 at B according to the present invention;

fig. 6 is a schematic view of the connection structure between the protective cover and the bottom plate of the present invention.

In the figure: 1. locking bolt, 2, locking nut, 3, locking buckle, 4, fastening pin, 5, rotary wing connecting plate, 6, sliding groove shaft, 7, left rotary wing, 8, right rotary wing, 9, outer cover, 10, foot pad, 11, bottom plate, 12, front sealing plate, 13, clamping cylinder, 14, test switch, 15, power switch, 16, air source processor, 17, rear sealing plate, 18, sliding block, 19, locking screw, 20, needle bearing, 21, bearing fixing pin, 22, cylinder connecting rod, 23, top ball, 24, cylinder mounting block, 25, first bearing, 26, first bearing spacing pad, 27, rotary wing fixing plate, 28, second bearing spacing pad, 29, second bearing, 30, rotary wing rear positioning plate, 31, test telescopic cylinder, 32, flat key, 33, first rocker arm, 34, second rocker arm, 35, rocker arm connecting pin, 36, clamping cylinder connecting rod, 37, Shield, 38, guard gate, 39, door handle.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a welding seam bulge test device with a protective cover and capable of achieving a clamp can taking function comprises a locking bolt 1, a locking nut 2, a locking buckle 3, a fastening pin 4, a rotary wing connecting plate 5, a sliding groove shaft 6, a left rotary wing 7, a right rotary wing 8, an outer cover 9, a foot pad 10, a bottom plate 11, a front sealing plate 12, a clamping cylinder 13, a test switch 14, a power switch 15, an air source processor 16, a rear sealing plate 17, a sliding block 18, a locking screw 19, a needle bearing 20, a bearing fixing pin 21, a cylinder connecting rod 22, a top ball 23, a cylinder mounting block 24, a first bearing 25, a first bearing spacer 26, a rotary wing fixing plate 27, a second bearing spacer 28, a second bearing 29, a rotary wing rear positioning plate 30, a test telescopic cylinder 31, a flat key 32, a first rocker arm 33, a second rocker arm 34, a rocker arm connecting pin 35, a clamping cylinder connecting rod 36, a protective cover 37, a protective door 38 and a door handle 39, a foot pad 10 is fixed at one end of the bottom plate 11, an outer cover 9, a front seal plate 12 and a rear seal plate 17 are vertically arranged at the other end of the bottom plate 11 in sequence, a protective door 38 is opened, so that a user can conveniently place the three-piece can in the device, the protective cover 37, the outer cover 9, the front seal plate 12 and the rear seal plate 17 form a rectangular structure, the situation that an operator holds a sample on a clamping cylinder by one hand and easily has the risk of injuring the hand by pressing a test switch by the other hand is prevented, the front seal plate 12 is connected to one side of the outer cover 9, the rear seal plate 17 is fixed to the other side of the outer cover 9, a gas source processor 16 is arranged,

a sliding chute shaft 6 penetrates through the inner part of the outer cover 9 close to the front sealing plate 12 and the rear sealing plate 17, a test switch 14 and a power switch 15 are arranged on the outer cover 9 close to the sliding chute shaft 6, one end of the sliding chute shaft 6 is sequentially connected with a locking bolt 1, a locking nut 2, a locking buckle 3, a fastening pin 4 and a rotary wing connecting plate 5, a left rotary wing 7 and a right rotary wing 8 are transversely arranged on the sliding chute shaft 6, the left rotary wing 7 and the right rotary wing 8 are symmetrically distributed about the axis of a clamping cylinder connecting rod 36, the left rotary wing 7, the right rotary wing 8 and the sliding chute shaft 6 form a movable structure through two side positioning grooves formed on the sliding chute shaft 6, the design is convenient for the left rotary wing 7 and the right rotary wing 8 to be respectively connected with two first rocker arms 33 through two flat keys 32, and a user can press the left rotary wing 7 and the right rotary wing 8 to two side positioning grooves on the sliding chute shaft 6 through the first rocker arms 33, the sliding block 18, the locking screw 19, the needle bearing 20, the bearing fixing pin 21, the cylinder connecting rod 22 and the top ball 23 in a gap arranged between the grooves of the sliding groove shaft 6 can move, the sliding block 18, the locking screw 19, the needle bearing 20, the bearing fixing pin 21, the cylinder connecting rod 22 and the top ball 23 are sequentially arranged in the sliding groove shaft 6, the outer wall of the sliding groove shaft 6 is connected with a protective cover 37, one side of the protective cover 37 is provided with a protective door 38, the sliding block 18 forms a sliding structure with the sliding groove shaft 6 through the needle bearing 20 and the bearing fixing pin 21 in the sliding block 18, the sliding block 18 is of a cylindrical structure, the sliding block 18, the needle bearing 20 and the bearing fixing pin 21 are arranged in two parts, the sliding block 18, the inner needle bearing 20 and the bearing fixing pin 21 form an I-shaped structure to slide back and forth on the sliding groove shaft 6, and the I-shaped structure can bear the, the I-shaped structure can move in the horizontal direction through the cylinder connecting rod 22 to drive the top ball to slide back and forth, so that the top ball slides along the position of the welding seam of the measuring sample tank, the locking screw 19 is locked after the top ball 23 is adjusted to a proper protruding height, and the two sliding blocks 18, the needle roller bearing 20 and the bearing fixing pin 21 are symmetrically distributed about the axes of the locking screw 19 and the top ball 23, so that the locking screw 19 and the top ball 23 are connected between the I-shaped structure formed by the two sliding blocks 18, the inner needle roller bearing 20 and the bearing fixing pin 21, and the locking screw 19 and the top ball 23 are driven by the two I-shaped structures to slide back and forth on the sliding groove shaft 6, so that the top ball slides along the position of the welding seam of the measuring sample tank, the top ball can be tightly pressed on the tank body, and the cylinder pushes the. The can body is taken down from the clamp to check whether a welding line is cracked, the vertical section of the protective cover 37 is of an inverted U-shaped structure, one side of the protective cover 37 forms a fixed structure with the outer cover 9 through gluing, the structure can enable the protective cover 37 of the inverted U-shaped structure to be fixed outside the outer cover 9, so that a sensing device can be conveniently installed on the closed position of the protective cover 37, the device can be further enabled to close the protective cover 37 and press a proximity sensing device, a switch has a signal to enable two hands to press a test key to trigger a test, an operator can be prevented from holding a sample on a clamping cylinder by pressing the test key with one hand and easily having the risk of injuring the hand by pressing the test switch with the other hand, a door handle 39 is fixed on the protective door 38, the protective door 38 and the protective cover 37 form an opening and closing structure, and the protective cover 37 and the protective door 38 are made of transparent organic glass materials, so that the operator can conveniently, therefore, the device is convenient for operators not to have injury risk in the using process;

a clamping cylinder 13 is connected on the bottom plate 11 close to the outer cover 9, the clamping cylinder 13 forms a movable structure with the bottom plate 11 through a clamping cylinder connecting rod 36, and the clamping cylinder connecting rod 36 forms a movable structure with two second rocker arms 34 through a rocker arm connecting pin 35, the structure can enable the clamping cylinder 13 to be fixed on the bottom plate 11, the other ends of the first rocker arm 33, the second rocker arm 34 and the rocker arm connecting pin 35 are opened, the first rocker arm 33 and the second rocker arm 34 form a C-shaped locking component so as to drive the left rotating wing 7 and the right rotating wing 8 to press the two side positioning grooves formed on the sliding chute shaft 6 to fix the three sample cans to be tested, the clamping cylinder 13 retracts to drive the clamping cylinder connecting rod 36 to move downwards, so that the first rocker arm 33, the second rocker arm 34 and the rocker arm connecting pin 35 drive the left rotating wing 7 and the right rotating wing 8 to be separated from the two side positioning grooves formed on the sliding chute shaft 6, so as to enable the weld seam bulge testing machine to be, one end of the clamp cylinder 13 is sequentially fixed with a flat key 32, a first rocker arm 33, a second rocker arm 34, a rocker arm connecting pin 35 and a clamp cylinder connecting rod 36, one end of the flat key 32 is respectively provided with a left-turning wing 7 and a right-turning wing 8, the flat key 32, the first rocker arm 33 and the second rocker arm 34 are respectively provided with two, and the two flat keys 32, the first rocker arm 33 and the second rocker arm 34 are symmetrically distributed about the axial center of the clamp cylinder connecting rod 36, and the flat key 32, the first rocker arm 33 and the second rocker arm 34 constitute a cantilever structure with the clamp cylinder 13 via a clamp cylinder connecting rod 36, the two first rocker arms 33 and the two second rocker arms 34 are arranged symmetrically with respect to the axial center of the chute shaft 6, and facilitates the clamping cylinder connecting rod 36 to drive the first rocker arm 33 and the second rocker arm 34 to vertically move up and down in the direction opposite to the bottom plate 11, the cantilever structure can drive the left rotating wing 7 and the right rotating wing 8 to rotate so as to clamp or loosen the test sample tank conveniently;

a cylinder mounting block 24, a first bearing 25, a first bearing spacer 26, a rotary wing fixing plate 27, a second bearing spacer 28, a second bearing 29, a rotary wing rear positioning plate 30 and a test telescopic cylinder 31 are sequentially fixed on one side of the front sealing plate 12 close to the rear sealing plate 17, the first bearing spacer 26 and the second bearing spacer 28 are symmetrically distributed about the axis of the front sealing plate 12, the rotary wing fixing plate 27 and the rotary wing rear positioning plate 30 are symmetrically distributed about the axis of the front sealing plate 12, and the first bearing 25 and the second bearing 29 are symmetrically distributed about the axis of the front sealing plate 12, so that the first bearing spacer 26, the rotary wing fixing plate 27, the first bearing 25, the second bearing spacer 28, the rotary wing rear positioning plate 30 and the second bearing 29 are distributed on two sides of the second bearing 29, and the left rotary wing 7 and the right rotary wing 8 can normally rotate and have a good guiding effect.

The working principle is as follows: when the welding seam convex pressure test device with the protective cover and capable of clamping and taking a can is used, a user firstly places the device on an experiment table top, opens a protective door 38, turns a locking buckle 3 upwards, sleeves a sample can to be tested into a sliding groove 6 and pushes the sample can to the leftmost end forwards, aligns the welding seam position upwards to a top ball 23 in a straight line, screws a locking bolt 1 to be fastened on a sliding groove shaft 6 after turning the locking buckle 3 downwards, and installs the protective door 38, then the user needs to press a test switch button simultaneously with two hands to start the test, prevents an operator from holding the sample sleeve on a clamping cylinder with one hand, easily risks of clamping and hurting the hand when pressing a test switch with one hand, installs an organic glass protective cover 37 on the device, triggers a sensing device installed on the protective door 38 when the protective cover 37 and the protective door 38 are closed, and can start the test by pressing a test key only when the protective cover 37 is closed and the switch has a signal, the clamp is close to the cylinder action cylinder shaft and extends to push the clamping cylinder connecting rod 36 to ascend, the first rocker arm 33 and the second rocker arm of the four-bar linkage mechanism are driven to act, the left rotary wing 7 and the right rotary wing 8 are driven to act together to press two side positioning grooves formed on the chute shaft 6 to clamp the three cans of the sample to be tested on the chute 6, the action cylinder shaft of the testing telescopic cylinder 31 extends to push the cylinder connecting rod 22 together with the sliding block 18, the inner needle bearing 20 and the bearing fixing pin 21 to form an I-shaped structure to move forwards, so that the top ball slides along the welding seam position of the sample can to be measured, the action of the testing telescopic cylinder 31 continues until the top ball completely extends, the PLC controls the pneumatic valve to reverse the action cylinder shaft of the testing telescopic cylinder to retract the sliding block connecting rod 22 together with the sliding block 18, the inner needle bearing 20 and the bearing fixing pin 21 to form an I-shaped structure, the test telescopic cylinder 31 continues to move until the telescopic cylinder completely retracts, the PLC controls the other pneumatic valve reversing clamping cylinder 13 to move, the cylinder shaft retracts to drive the clamping cylinder connecting rod 36 to descend, the first rocker arm 33 and the second rocker arm of the four-bar linkage mechanism move, the left rotating wing 7 and the right rotating wing 8 are driven to move together to separate from the positioning grooves on the two sides of the sliding chute shaft 6, the three cans of the sample to be tested are loosened, the protection door 38 is opened after the test is finished, the locking buckle 3 is turned upwards after the locking bolt 1 is unscrewed, the sample can be tested and taken out, the welding seam is observed to be cracked or cracked, the design is convenient, the sliding block 18, the inner needle bearing 20 and the bearing fixing pin 21 form an I-shaped structure, the I-shaped structure can conveniently slide back and forth on the sliding chute shaft 6, the I-shaped structure can bear the jacking force in the vertical direction, and the I-shaped structure can move through the cylinder connecting rod 22 in the, so that the knob slides along the position of the welding seam of the measuring sample tank, the locking screw 19 is screwed down by a screwdriver, the extension height of the screw of the rolling ball is adjusted, the intensity of the knob 23 for pressing the welding seam is adjusted, and the locking screw 19 is screwed back to lock the knob 23 after the adjustment is proper, wherein the content which is not described in detail in the description belongs to the prior art which is known by a person skilled in the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a but weld bead bulge test device with protection casing and anchor clamps get jar function, includes bottom plate (11), its characterized in that: a foot pad (10) is fixed at one end of the bottom plate (11), an outer cover (9), a front seal plate (12) and a rear seal plate (17) are sequentially and vertically arranged at the other end of the bottom plate (11), the front seal plate (12) is connected with one side of the outer cover (9), the rear seal plate (17) is fixed at the other side of the outer cover (9), an air source processor (16) is arranged at one side of the rear seal plate (17),

a sliding groove shaft (6) penetrates through the inner part of the outer cover (9) close to the front sealing plate (12) and the rear sealing plate (17), a test switch (14) and a power switch (15) are arranged on the outer cover (9) close to the sliding groove shaft (6), one end of the chute shaft (6) is sequentially connected with a locking bolt (1), a locking nut (2), a locking buckle (3), a fastening pin (4) and a rotary wing connecting plate (5), a left rotary wing (7) and a right rotary wing (8) are transversely arranged on the chute shaft (6), a sliding block (18), a locking screw (19), a needle bearing (20), a bearing fixing pin (21), a cylinder connecting rod (22) and a jacking ball (23) are sequentially fixed in the sliding groove shaft (6), the outer wall of the sliding groove shaft (6) is connected with a protective cover (37), one side of the protective cover (37) is provided with a protective door (38), and a door handle (39) is fixed on the protective door (38);

a clamping cylinder (13) is connected to the bottom plate (11) close to the outer cover (9), a flat key (32), a first rocker arm (33), a second rocker arm (34), a rocker arm connecting pin (35) and a clamping cylinder connecting rod (36) are sequentially fixed to one end of the clamping cylinder (13), and a left rotary wing (7) and a right rotary wing (8) are respectively arranged at one end of the flat key (32);

and a cylinder mounting block (24), a first bearing (25), a first bearing spacer (26), a rotary wing fixing plate (27), a second bearing spacer (28), a second bearing (29), a rotary wing rear positioning plate (30) and a testing telescopic cylinder (31) are sequentially fixed on one side of the front sealing plate (12) close to the rear sealing plate (17).

2. The weld bead bulge test device with the protective cover and the clamp can taking function is characterized in that: the left rotating wing (7) and the right rotating wing (8) are symmetrically distributed about the axis of the clamping cylinder connecting rod (36), and the left rotating wing (7), the right rotating wing (8) and the chute shaft (6) form a movable structure through two side positioning grooves formed in the chute shaft (6).

3. The weld bead bulge test device with the protective cover and the clamp can taking function is characterized in that: the clamping cylinder (13) and the bottom plate (11) form a movable structure through a clamping cylinder connecting rod (36), and the clamping cylinder connecting rod (36) and the 2 second rocker arms (34) form a movable structure through a rocker arm connecting pin (35).

4. The weld bead bulge test device with the protective cover and the clamp can taking function is characterized in that: the sliding block (18) and the sliding groove shaft (6) form a sliding structure through a needle roller bearing (20) and a bearing fixing pin (21) in the sliding block, the sliding block (18) is of a cylindrical structure, and the sliding block (18), the needle roller bearing (20) and the bearing fixing pin (21) are arranged in two.

5. The weld bead bulge test device with the protective cover and the clamp can taking function is characterized in that: the first bearing spacing pad (26) and the second bearing spacing pad (28) are symmetrically distributed about the axis of the front sealing plate (12), the rotary wing fixing plate (27) and the rotary wing rear positioning plate (30) are symmetrically distributed about the axis of the front sealing plate (12), and the first bearing (25) and the second bearing (29) are symmetrically distributed about the axis of the front sealing plate (12).

6. The weld bead bulge test device with the protective cover and the clamp can taking function is characterized in that: the locking screw (19) and the top ball (23) form a fixing structure through welding, and the 2 sliding blocks (18), the needle roller bearings (20) and the bearing fixing pins (21) are symmetrically distributed about the axes of the locking screw (19) and the top ball (23).

7. The weld bead bulge test device with the protective cover and the clamp can taking function is characterized in that: the clamp cylinder is characterized in that the flat keys (32), the first rocker arms (33) and the second rocker arms (34) are arranged in two numbers, the two flat keys (32), the first rocker arms (33) and the second rocker arms (34) are symmetrically distributed around the axis of the clamp cylinder connecting rod (36), and the flat keys (32), the first rocker arms (33) and the second rocker arms (34) form a cantilever structure with the clamp cylinder (13) through the clamp cylinder connecting rod (36).

8. The weld bead bulge test device with the protective cover and the clamp can taking function is characterized in that: the vertical section of the protecting cover (37) is of an inverted U-shaped structure, and one side of the protecting cover (37) forms a fixed structure with the outer cover (9) through gluing.

9. The weld bead bulge test device with the protective cover and the clamp can taking function is characterized in that: the protective door (38) and the protective cover (37) form an opening and closing structure, and the outer cover (9), the protective cover (37) and the protective door (38) are made of transparent organic glass materials.