CN219796628U - Lifting frame suitable for X-ray flaw detector - Google Patents

Abstract

The utility model discloses a lifting frame suitable for an X-ray flaw detector, and relates to the technical field of lifting frames suitable for X-ray flaw detectors, comprising a bottom plate and a protection unit; the four corners of the lower side of the bottom plate are respectively provided with a universal wheel, the left and right ends of the upper side of the bottom plate are respectively provided with a first supporting rod along the up-down direction, the lower ends of the front side and the rear side of the two first supporting rods are respectively provided with a reinforcing rib plate which is matched and connected with the upper side of the bottom plate, the inner sides of the two first supporting rods are respectively provided with a lifting unit along the up-down direction, the X-ray flaw detector main body on the inner side is driven to slide along the vertical direction through the sliding of the first barrel, so that the lifting effect on different positions of the X-ray flaw detector main body is achieved, the softness of the inner side of the second barrel is increased through the rubber pad, and the protection effect on the probe for the X-ray flaw detector main body is achieved through the second barrel in the lifting process of the X-ray flaw detector main body.

Description

Lifting frame suitable for X-ray flaw detector

Technical Field

The utility model relates to the technical field of lifting frames suitable for X-ray flaw detectors, in particular to a lifting frame suitable for an X-ray flaw detector.

Background

The X-ray flaw detector principle utilizes the characteristic that X-rays penetrate substances and have attenuation in the substances to find a nondestructive flaw detection method of the defects, X-rays can detect the internal defects of metal and nonmetal materials and products thereof, and portable X-ray flaw detectors are specially used for industrial departments such as shipbuilding, petroleum, chemical industry, machinery, aerospace, traffic, construction and the like to detect the processing and welding quality of materials and parts such as ship bodies, pipelines, high-pressure containers, boilers, airplanes, vehicles, bridges and the like, and the quality of various light metal, rubber, ceramic and other workpieces, and the X-ray radiography method is utilized to display the internal defects of the parts processed by the materials and the welding from an X-ray film so as to evaluate the quality of the products;

for carrying an X-ray flaw detector on a higher place manually and carrying the X-ray flaw detector to detect the flaw, the X-ray flaw detector is required to be conveyed upwards through a lifting frame, then the flaw detection is realized through manual assistance, a probe for detecting the flaw is a key flaw detection structure of the X-ray flaw detector, if the protection effect on the probe cannot be realized well in the lifting process of the X-ray flaw detector, the probe is easy to damage due to external factors, and unnecessary troubles are caused, therefore, the lifting frame suitable for the X-ray flaw detector is provided.

Disclosure of Invention

The utility model aims to overcome the existing defects, and provides the lifting frame suitable for the X-ray flaw detector, which drives the X-ray flaw detector main body on the inner side to slide along the up-down direction through the sliding of the first barrel, so that the lifting effect on different positions of the X-ray flaw detector main body is realized, the softness of the inner side of the second barrel is increased through the rubber pad, and the protection effect on the probe for the X-ray flaw detector main body is better realized through the second barrel in the lifting process of the X-ray flaw detector main body, so that the problems in the background art can be effectively solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a lifting frame suitable for an X-ray flaw detector comprises a bottom plate and a protection unit;

a bottom plate: the four corners of the lower side are respectively provided with a universal wheel, the left end and the right end of the upper side of the bottom plate are respectively provided with a first supporting rod along the up-down direction, the lower ends of the front side and the rear side of the two first supporting rods are respectively provided with a reinforcing rib plate which is matched and connected with the upper side of the bottom plate, the inner sides of the two first supporting rods are respectively provided with a lifting unit along the up-down direction, and the lifting unit consists of a first sliding chute, a square ring supporting frame and a first sliding block structure;

protection unit: the X-ray flaw detector comprises a lifting structure, a first barrel, an X-ray flaw detector body, a second barrel and a rubber pad, wherein the lifting structure is arranged between the left side and the right side of the inside of the square ring support frame, the first barrel which is suitable for placing the X-ray flaw detector body is arranged on the front side of the lifting structure along the vertical direction, the X-ray flaw detector body is placed on the inner side of the first barrel, the second barrel is arranged in the middle of the front side of the first barrel, and the rubber pad which is connected with the probe of the X-ray flaw detector body in a matched mode is arranged on the inner side of the second barrel.

Make whole device realize mobilizable effect through the universal wheel, realize the supporting role to two bracing pieces one through the bottom plate, drive the effect that the square ring support frame was realized going up and down between the inboard of two bracing pieces one through the elevating unit, drive the regulation effect of cask one realization upper and lower position through the inboard elevation structure of square ring support frame, slide along the upper and lower direction through the X-ray inspection machine main part of cask one slip drive inboard, and then realize the effect to the ascending and descending of X-ray inspection machine main part upper and lower different positions, increase the softness of cask two inboard through the rubber pad, in carrying out the in-process to the X-ray inspection machine main part, and then better realize the guard action to the probe for the X-ray inspection machine main part through cask two.

Further, the lifting structure comprises a second sliding groove, a second supporting rod, a second sliding block and a second threaded shaft, wherein the second sliding groove is respectively formed in the left side and the right side of the inside of the square ring supporting frame along the vertical direction, the left end and the right end of the second supporting rod are respectively connected with the inner side of the corresponding second sliding groove in a sliding mode along the vertical direction, a first barrel suitable for placing an X-ray flaw detector main body is arranged on the front side of the second supporting rod along the vertical direction, and the second threaded shaft in threaded connection with the middle of the second supporting rod is rotatably connected between the upper side and the lower side of the inside of the second sliding groove.

Under the action of sliding connection along the upper and lower direction between the left and right ends of the second support rod and the inner side of the corresponding second sliding chute respectively, the second support rod is driven to slide along the upper and lower direction through the rotation of the second threaded shaft, and the first barrel is driven to realize the adjusting action of the upper and lower positions through the sliding of the second support rod, so that the lifting action of the X-ray flaw detector main body at different upper and lower positions is realized.

Further, the lifting structure further comprises an arc-shaped fixing block II and a motor II, the motor II is fixedly connected to the lower side of the square ring support frame through the arc-shaped fixing block II, an output shaft of the motor II is fixedly connected with the lower end of the threaded shaft II, and an input end of the motor II is electrically connected with an output end of an external power supply through an external control switch group.

The output shaft of the second motor is driven to rotate under the action of an external power supply, and the threaded shaft is driven to rotate through the rotation of the output shaft of the second motor.

Further, the lifting unit comprises a first sliding groove, a square ring support frame, first sliding blocks and a power structure, wherein a first sliding groove is formed between the inner sides of the first two support rods along the up-down direction respectively, the lower ends of the left side and the right side of the square ring support frame are respectively connected with the inner sides of the corresponding first sliding grooves in a sliding manner along the up-down direction respectively through the first sliding blocks, and the power structure matched and connected with the middle parts of the first sliding blocks is respectively arranged between the upper sides and the lower sides of the inner sides of the first sliding grooves.

The two first sliding blocks are driven to synchronously slide along the up-down direction between the inner sides of the corresponding first sliding grooves through the power structure, and the square ring support frame is driven to slide along the up-down direction between the inner sides of the two first supporting rods through the synchronous sliding of the two first sliding blocks, so that the lifting effect on the X-ray flaw detector main body is better realized.

Further, the power structure comprises a first threaded shaft, a chain wheel, a chain and a second supporting frame, wherein the first threaded shaft is connected between the upper side and the lower side of the inner portion of the first sliding groove in a rotating mode and is in threaded connection with the middle portion of the corresponding first sliding block, the chain wheel is fixedly connected to the lower end of the outer side of the first threaded shaft respectively, the chain is connected between the outer sides of the two chain wheels in a meshed mode, the second supporting frame is arranged at the right end of the lower side of the bottom plate, and the second supporting frame is located the outer side of the right-end chain wheel.

The rotation of the right end screw shaft I drives the rotation of the right end sprocket, under the action of a chain meshed and connected between the outer sides of the two sprockets, the rotation of the right end sprocket drives the rotation of the left end sprocket, the same-direction rotation of the two sprockets drives the same-direction rotation of the two screw shafts I, and the same-direction rotation of the two screw shafts I drives the two sliding blocks I to synchronously slide along the upper and lower directions between the inner sides of the corresponding sliding grooves I.

Further, the power structure further comprises an arc-shaped fixing block I and a motor I, the motor I is fixedly connected to the lower side of the support frame II through the arc-shaped fixing block I, an output shaft of the motor I is fixedly connected with the lower end of the right-end threaded shaft I, and an input end of the motor I is electrically connected with an output end of an external power supply through an external control switch group.

The output shaft of the first motor is driven to rotate under the action of an external power supply, and the first right threaded shaft is driven to rotate through the rotation of the output shaft of the first motor.

Compared with the prior art, the utility model has the beneficial effects that: the lifting frame suitable for the X-ray flaw detector has the following advantages:

1. the lifting frame suitable for the X-ray flaw detector is provided with a lifting unit, the two first sliding blocks are driven by a power structure to synchronously slide along the up-down direction between the inner sides of the corresponding first sliding grooves, and the square ring support frame is driven by the synchronous sliding of the two first sliding blocks to slide along the up-down direction between the inner sides of the two first supporting rods, so that the lifting effect on the main body of the X-ray flaw detector is better realized;

2. the lifting frame suitable for the X-ray flaw detector is provided with a protection unit, the second support rod is driven to slide along the up-down direction through the rotation of the second threaded shaft, the first round barrel is driven to realize the up-down position adjusting function through the sliding of the second support rod, and then the lifting function of the main body of the X-ray flaw detector at different up-down positions is realized;

3. the X-ray flaw detector main body on the inner side is driven to slide along the vertical direction through the sliding of the first barrel, so that the lifting effect on different positions of the X-ray flaw detector main body is achieved, the softness of the inner side of the second barrel is increased through the rubber pad, and the protection effect on the probe for the X-ray flaw detector main body is achieved through the second barrel in the lifting process of the X-ray flaw detector main body.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a partial enlarged structure of the portion A in FIG. 1 according to the present utility model;

FIG. 3 is a schematic diagram of the structure of the present utility model in a down view;

fig. 4 is a schematic view of a partial enlarged structure at B in fig. 3 according to the present utility model.

In the figure: 1 a bottom plate, 2 universal wheels, 3 a support rod I, 4 lifting units, 41 a chute I, 42 a square ring support frame, 43 a slide block I, 44 a screw thread shaft I, 45 a chain wheel, 46 a chain, 47 a support frame II, 48 an arc-shaped fixed block I, 49 a motor I, 5 a protection unit, 51 a chute II, 52 a support rod II, 53 a slide block II, 54 a screw thread shaft II, 55 a barrel I, 56 an X-ray flaw detector main body, 57 a barrel II, 58 a rubber pad, 59 an arc-shaped fixed block II, 510 a motor II and 6 reinforcing rib plates.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present embodiment provides a technical solution: a lifting frame suitable for an X-ray flaw detector comprises a bottom plate 1 and a protection unit 5;

the base plate 1: the four corners of the lower side are respectively provided with a universal wheel 2, the left end and the right end of the upper side of the bottom plate 1 are respectively provided with a first supporting rod 3 along the up-down direction, the lower ends of the front side and the rear side of the two first supporting rods 3 are respectively provided with a reinforcing rib plate 6 which is matched and connected with the upper side of the bottom plate 1, the inner sides of the two first supporting rods 3 are respectively provided with a lifting unit 4 along the up-down direction, and the lifting unit 4 consists of a first chute 41, a square ring supporting frame 42 and a first sliding block 43;

the lifting unit 4 comprises a first sliding groove 41, a first square ring support frame 42, first sliding blocks 43 and a power structure, wherein the first sliding groove 41 is respectively arranged between the inner sides of the two first supporting rods 3 along the up-down direction, the lower ends of the left side and the right side of the first square ring support frame 42 are respectively connected with the inner sides of the corresponding first sliding grooves 41 in a sliding manner along the up-down direction through the first sliding blocks 43, and the power structure which is matched and connected with the middle parts of the two first sliding blocks 43 is respectively arranged between the upper sides and the lower sides of the inner parts of the two first sliding grooves 41.

The two first sliding blocks 43 are driven to synchronously slide along the up-down direction between the inner sides of the corresponding first sliding grooves 41 through the power structure, and the square ring support frame 42 is driven to slide along the up-down direction between the inner sides of the two first supporting rods 3 through the synchronous sliding of the two first sliding blocks 43, so that the lifting effect on the main body 56 of the X-ray flaw detector is better realized.

The power structure comprises a first threaded shaft 44, chain wheels 45, chains 46 and a second supporting frame 47, wherein the first threaded shaft 44 in threaded connection with the middle part of the corresponding first sliding block 43 is respectively and rotatably connected between the upper side and the lower side of the inner part of the first sliding groove 41, the chain wheels 45 are respectively and fixedly connected to the lower ends of the outer sides of the first threaded shafts 44, the chains 46 are in meshed connection with the outer sides of the two chain wheels 45, the second supporting frame 47 is arranged at the right end of the lower side of the bottom plate 1, and the second supporting frame 47 is positioned at the outer side of the right-end chain wheel 45.

The rotation of the right end screw shaft I44 drives the rotation of the right end sprocket 45, the rotation of the right end sprocket 45 drives the rotation of the left end sprocket 45 under the action of a chain 46 meshed and connected between the outer sides of the two sprockets 45, the same-direction rotation of the two sprockets 45 drives the two screw shafts I44 to rotate in the same direction, and the same-direction rotation of the two screw shafts I44 drives the two slide blocks I43 to synchronously slide along the upper and lower directions between the inner sides of the corresponding slide grooves I41.

The power structure further comprises an arc-shaped fixing block I48 and a motor I49, the motor I49 is fixedly connected to the lower side of the support frame II 47 through the arc-shaped fixing block I48, an output shaft of the motor I49 is fixedly connected with the lower end of the right-end threaded shaft I44, and an input end of the motor I49 is electrically connected with an output end of an external power supply through an external control switch group.

The output shaft of the motor one 49 is driven to rotate under the action of an external power supply, and the rotation of the output shaft of the motor one 49 drives the rotation of the right threaded shaft one 44.

Protection unit 5: the X-ray flaw detector comprises a lifting structure, a first barrel 55, an X-ray flaw detector body 56, a second barrel 57 and a rubber pad 58, wherein the lifting structure is arranged between the left side and the right side of the inside of the square ring support frame 42, the first barrel 55 which is suitable for placing the X-ray flaw detector body 56 is arranged on the front side of the lifting structure along the up-down direction, the X-ray flaw detector body 56 is arranged on the inner side of the first barrel 55, the second barrel 57 is arranged in the middle of the front side of the first barrel 55, and the rubber pad 58 which is in matched connection with the probe of the X-ray flaw detector body 56 is arranged on the inner side of the second barrel 57.

The movable effect is realized through universal wheel 2 to the whole device, realize the supporting role to two bracing pieces one 3 through bottom plate 1, drive square ring support frame 42 through elevating unit 4 and realize the effect of going up and down between the inboard of two bracing pieces one 3, drive cask one 55 through the inboard elevation structure of square ring support frame 42 and realize the regulation effect of upper and lower position, drive inboard X-ray inspection machine main part 56 through the slip of cask one 55 along the upper and lower direction and slide, and then realize the effect of going up and down the different positions of X-ray inspection machine main part 56, increase the softness of cask two 57 inboard through rubber pad 58, in going up and down the in-process to X-ray inspection machine main part 56, and then better realize the guard action to the probe for X-ray inspection machine main part 56 through cask two 57.

The lifting structure comprises a second sliding groove 51, a second supporting rod 52, a second sliding block 53 and a second threaded shaft 54, wherein the second sliding groove 51 is respectively formed in the left side and the right side of the inside of the square ring supporting frame 42 along the up-down direction, the left end and the right end of the second supporting rod 52 are respectively connected with the inner side of the corresponding second sliding groove 51 in a sliding manner along the up-down direction, a first barrel 55 suitable for placing an X-ray flaw detector main body 56 is arranged on the front side of the second supporting rod 52 along the up-down direction, and the second threaded shaft 54 in threaded connection with the middle of the second supporting rod 52 is rotatably connected between the upper side and the lower side of the inside of the second sliding groove 51.

Under the action of sliding connection between the left end and the right end of the second support rod 52 along the up-down direction through a second sliding block 53 and the inner side of the second corresponding sliding groove 51, the second support rod 52 is driven to slide along the up-down direction through the rotation of the second threaded shaft 54, the first barrel 55 is driven to realize the up-down position adjusting action through the sliding of the second support rod 52, and then the up-down different positions of the main body 56 of the X-ray flaw detector are lifted.

The lifting structure further comprises a second arc-shaped fixing block 59 and a second motor 510, the second motor 510 is fixedly connected to the lower side of the square ring support frame 42 through the second arc-shaped fixing block 59, an output shaft of the second motor 510 is fixedly connected with the lower end of the second threaded shaft 54, and an input end of the second motor 510 is electrically connected with an output end of an external power supply through an external control switch group.

The output shaft of the second motor 510 is driven to rotate under the action of an external power supply, and the rotation of the output shaft of the second motor 510 drives the rotation of the threaded shaft second 54.

The utility model provides a lifting frame applicable to an X-ray flaw detector, which has the following working principle:

the movable function is realized through the universal wheel 2, the supporting function of the two first support rods 3 is realized through the bottom plate 1, the two first sliding blocks 43 are driven to synchronously slide along the up-down direction between the inner sides of the corresponding first sliding grooves 41 through the same-direction rotation of the two first threaded shafts 44, the square ring support frame 42 is driven to synchronously slide along the up-down direction between the inner sides of the two first support rods 3 through the synchronous sliding of the two first sliding blocks 43, the lifting function of the main body 56 of the X-ray flaw detector is better realized, the second support rods 52 are driven to slide along the up-down direction through the rotation of the second threaded shafts 54, the first barrel 55 is driven to slide along the up-down direction through the sliding of the second support rods 52, the inner side X-ray flaw detector main body 56 is driven to slide along the up-down direction through the sliding of the first barrel 55, the lifting function of different positions of the main body 56 of the X-ray flaw detector is further realized, the soft flaw detection degree of the inner side of the second barrel 57 is increased through the rubber pad 58, and the protection function of the probe for the main body 56 of the X-ray flaw detector is better realized through the second barrel 57 in the lifting process.

It should be noted that, in the above embodiment, the first motor 49 and the second motor 510 are servo motors, and the control switch set controls the first motor 49 and the second motor 510 to operate by a method commonly used in the prior art.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (6)

1. A crane suitable for X-ray inspection machine, its characterized in that: comprises a bottom plate (1) and a protection unit (5);

bottom plate (1): the four corners of the lower side are respectively provided with a universal wheel (2), the left and right ends of the upper side of the bottom plate (1) are respectively provided with a first support rod (3) along the up-down direction, the lower ends of the front side and the rear side of the two first support rods (3) are respectively provided with a reinforcing rib plate (6) which is matched and connected with the upper side of the bottom plate (1), the inner sides of the two first support rods (3) are respectively provided with a lifting unit (4) along the up-down direction, and the lifting unit (4) consists of a first chute (41), a first square ring support frame (42) and a first sliding block (43);

protection unit (5): the X-ray flaw detector comprises a lifting structure, a first barrel (55), a second barrel (57) and a rubber pad (58), wherein the lifting structure is arranged between the left side and the right side of the inside of the square ring support frame (42), the first barrel (55) which is suitable for placing the X-ray flaw detector body (56) is arranged on the front side of the lifting structure along the vertical direction, the X-ray flaw detector body (56) is arranged on the inner side of the first barrel (55), the second barrel (57) is arranged in the middle of the front side of the first barrel (55), and the rubber pad (58) which is connected with the probe of the X-ray flaw detector body (56) in a matched mode is arranged on the inner side of the second barrel (57).

2. A crane adapted for use with an X-ray inspection machine as claimed in claim 1, wherein: the lifting structure comprises a sliding groove II (51), a supporting rod II (52), sliding blocks II (53) and a threaded shaft II (54), wherein the sliding groove II (51) is respectively formed in the left side and the right side of the inside of the square ring supporting frame (42) along the up-down direction, the left end and the right end of the supporting rod II (52) are respectively connected with the inner side of the corresponding sliding groove II (51) in a sliding manner along the up-down direction, a barrel I (55) suitable for placing an X-ray flaw detector main body (56) is arranged on the front side of the supporting rod II (52) along the up-down direction, and the threaded shaft II (54) in threaded connection with the middle of the supporting rod II (52) is rotationally connected between the upper side and the lower side of the inside of the sliding groove II (51).

3. A crane adapted for use with an X-ray inspection machine as claimed in claim 2, wherein: the lifting structure further comprises an arc-shaped fixing block II (59) and a motor II (510), the motor II (510) is fixedly connected to the lower side of the square ring support frame (42) through the arc-shaped fixing block II (59), an output shaft of the motor II (510) is fixedly connected with the lower end of the threaded shaft II (54), and an input end of the motor II (510) is electrically connected with an output end of an external power supply through an external control switch group.

4. A crane adapted for use with an X-ray inspection machine as claimed in claim 1, wherein: the lifting unit (4) comprises a first sliding chute (41), a square ring support frame (42), a first sliding block (43) and a power structure, wherein the first sliding chute (41) is respectively arranged between the inner sides of the two first supporting rods (3) along the up-down direction, the lower ends of the left side and the right side of the square ring support frame (42) are respectively connected with the inner sides of the corresponding first sliding chute (41) in a sliding manner along the up-down direction through the first sliding block (43), and the power structure matched and connected with the middle parts of the two first sliding blocks (43) is respectively arranged between the upper sides and the lower sides of the inner sides of the two first sliding chutes (41).

5. A crane adapted for use with an X-ray inspection machine as claimed in claim 4, wherein: the power structure comprises a first threaded shaft (44), a chain wheel (45), a chain (46) and a second supporting frame (47), wherein the first threaded shaft (44) in threaded connection with the middle part of the corresponding first sliding block (43) is respectively connected between the upper side and the lower side of the inner part of the first sliding groove (41) in a rotating mode, the chain wheel (45) is respectively fixedly connected to the lower end of the outer side of the first threaded shaft (44), the chain (46) is connected between the outer sides of the two chain wheels (45) in a meshed mode, the second supporting frame (47) is arranged at the right end of the lower side of the bottom plate (1), and the second supporting frame (47) is located on the outer side of the right-end chain wheel (45).

6. A crane adapted for use with an X-ray inspection machine as claimed in claim 5, wherein: the power structure further comprises an arc-shaped fixing block I (48) and a motor I (49), the motor I (49) is fixedly connected to the lower side of the support frame II (47) through the arc-shaped fixing block I (48), an output shaft of the motor I (49) is fixedly connected with the lower end of the right-end threaded shaft I (44), and an input end of the motor I (49) is electrically connected with an output end of an external power supply through an external control switch group.