CN215864965U - Special testing platform for aluminum unit radiator - Google Patents

Abstract

The utility model discloses a special detection platform for a radiator of an aluminum unit, which comprises a supporting platform, wherein two ends of the upper surface of the supporting platform are respectively provided with a moving mechanism, and two ends of the upper surface of the supporting platform are respectively connected with a moving plate in a sliding manner through the moving mechanisms. By adopting the structure, the radiator is arranged on the upper surface of the support table, then the transverse plate is pushed, the transverse plate is enabled to move on the upper surface of the support table through the first sliding assembly, the radiator is clamped between the transverse plate and the positioning block, the width of the radiator is measured by contrasting the scale, then the moving mechanism is used for driving the moving plate to move towards the inner side of the upper surface of the support table, the radiator is clamped between the moving plates, the length of the radiator is measured by contrasting the scale, and the flatness of the corners of the radiator can be conveniently measured through the transverse plate, the positioning block and the moving plate, so that the detection efficiency of the radiator of the aluminum unit is improved, the detection precision is improved, and the detection error is reduced.

Description

Special testing platform for aluminum unit radiator

Technical Field

The utility model belongs to the field of aluminum unit radiators, and particularly relates to a special detection platform for an aluminum unit radiator.

Background

The aluminum profile radiator is also called as radiator aluminum profile or sunflower aluminum profile, the aluminum profile radiator has the characteristics of beautiful appearance, light weight, good heat dispersion, good energy-saving effect and the like, the surface of the processed aluminum profile radiator is subjected to surface treatment by anodic oxidation to increase the corrosion resistance, the wear resistance and the beautiful appearance of the aluminum profile, and the types of the radiator aluminum profiles commonly used in China are as follows: electronic, electrical, computer radiator aluminium alloy, sunflower aluminium alloy radiator, radiator section bar for power semiconductor etc. aluminium alloy radiator is because of its superior performance widely used in: machinery, automobiles, wind power generation, engineering machinery, air compressors, railway locomotives, household appliances and other industrial fields.

After the aluminum unit radiator in the prior art is produced, the quality of a product is generally required to be detected, such as the length, the width, the blade spacing and the like of the radiator, the product is generally detected by a measuring tool manually, the detection efficiency is low, and the detection result is influenced by errors easily generated in the detection process.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems mentioned in the background technology, the utility model aims to provide a special detection platform for an aluminum unit radiator to solve the problems of low detection efficiency and large error of the aluminum unit radiator in the prior art.

The technical purpose of the utility model is realized by the following technical scheme:

a special detection platform for a radiator of an aluminum unit comprises a support, wherein two ends of the upper surface of the support are respectively provided with a moving mechanism, two ends of the upper surface of the support are respectively connected with a moving plate in a sliding manner through the moving mechanisms, two ends of the upper surface of the support are respectively provided with a positioning assembly, the positioning assemblies are fixedly connected with the moving plates, the front end of the upper surface of the support is provided with a first sliding assembly, the front end of the upper surface of the support is connected with a transverse plate in a sliding manner through the first sliding assembly, the rear end of the upper surface of the support is fixedly provided with a vertical plate, the front surface of the vertical plate is provided with a second sliding assembly, the front surface of the vertical plate is connected with a moving block in a sliding manner through the second sliding assembly, the upper end of the moving block is inserted with a clamping block, the front surface of the clamping block is provided with a clamping piece, the lower end of the front surface of the vertical plate is fixedly provided with a positioning block, and the upper surface of the support is provided with a scale, the scale is respectively and movably connected with the moving plate, the transverse plate and the clamping piece.

By adopting the technical scheme, the radiator is arranged on the upper surface of the support, then the transverse plate is pushed, the transverse plate is enabled to move on the upper surface of the support through the first sliding assembly, the radiator is clamped between the transverse plate and the positioning block, the width of the radiator is measured by contrasting the scale, then the moving mechanism is used for driving the moving plate to move towards the inner side of the upper surface of the support, the radiator is clamped between the moving plates, the length of the radiator is measured by contrasting the scale, the flatness of the corner of the radiator can be conveniently measured through the transverse plate, the positioning block and the moving plate, the moving block can be driven to move on the front side of the vertical plate through the second sliding assembly, the clamping piece fixedly arranged on the front side of the clamping block is inserted between the blades of the radiator, the moving block can transversely move through the second sliding assembly, and the clamping piece can move between the blades of the radiator and be attached to the blades of the radiator, be convenient for measure radiator blade interval through contrasting card and scale, through card and the laminating of radiator blade, make the straightness that hangs down, roughness and the longitudinal inclination of card detectable radiator blade.

Further, as a preferred technical scheme, the moving mechanism comprises a transmission assembly, a first limiting assembly and a second limiting assembly, the transmission assembly is arranged at two ends of the upper surface of the support platform and is in transmission connection with the moving plate, and the first limiting assembly and the second limiting assembly are respectively and fixedly connected with the transmission assembly.

Through adopting above-mentioned technical scheme, play the effect that drives the movable plate and move to the inboard of a bench upper surface through the drive assembly, and make two movable plates remove in opposite directions, make the movable plate reach the effect of centre gripping aluminium system unit radiator to be convenient for measure the effect of radiator length, measure the roughness at radiator both ends simultaneously, and play the effect of firm drive assembly position through first spacing subassembly and the spacing subassembly of second.

Further, as a preferred technical scheme, the transmission assembly comprises a groove, a connecting block, a threaded rod and a rotating handle, the groove is formed in each of two ends of the upper surface of the support platform, the grooves formed in the two ends of the upper surface of the support platform are communicated, the connecting block is fixedly installed at the lower end of the movable plate and is connected to the inside of the groove in a sliding mode, the threaded rod is connected to the right side of the support platform in a rotating mode, the left end of the threaded rod extends into the groove, one end of the threaded rod extends into the inside of the other groove through the groove, the moving block penetrates through one end of the threaded rod, the outer wall of the threaded rod is in threaded connection with the moving block, the rotating handle is fixedly connected to the right end of the threaded rod, the first limiting assembly is arranged at the right end of the outer wall of the threaded rod, and the second limiting assembly is arranged at the left end of the outer wall of the threaded rod.

Through adopting above-mentioned technical scheme, rotate through rotating to drive the threaded rod and rotate, make the threaded rod drive the movable block and slide in the inside of recess to make the movable plate move to the inboard of a platform upper surface, and the outer silk screw thread opposite direction of threaded rod outer wall both sides, thereby reach the effect that makes two movable plates remove in opposite directions, and through the position of the threaded rod of first spacing subassembly and the firm threaded rod of second spacing subassembly.

Further, as preferred technical scheme, first spacing subassembly includes first stopper and first spacing groove, first stopper fixed mounting is on the right side of threaded rod outer wall, first spacing groove is seted up on the inside right side of a platform, first stopper sliding connection is in the inside of first spacing groove.

Through adopting above-mentioned technical scheme, through first stopper sliding connection in the inside of first spacing groove, make first spacing subassembly reach the effect of firm threaded rod right-hand member position.

Further, as preferred technical scheme, the spacing subassembly of second includes second stopper and second spacing groove, second stopper fixed mounting is in the left side of threaded rod outer wall, the left side at a platform inside is seted up to the second spacing groove, second stopper sliding connection is in the inside of second spacing groove.

Through adopting above-mentioned technical scheme, through the inside of second stopper sliding connection at the second spacing groove, make the spacing subassembly of second reach the effect of firm threaded rod left end position to avoid the threaded rod slope or drop the removal that influences the movable plate.

Further, as preferred technical scheme, the locating component includes constant head tank and locating lever, the constant head tank is seted up respectively at the both ends of a platform upper surface, locating lever fixed connection is at the lower extreme of movable plate, the lower extreme sliding connection of locating lever is in the inside of constant head tank.

Through adopting above-mentioned technical scheme, lower extreme sliding connection through the locating lever is in the inside of constant head tank, makes locating component play the effect of firm removal board position, avoids the movable plate slope to influence measurement work.

Further, as preferred technical scheme, first slip subassembly includes first spout and slider, first spout is seted up at the front end of a platform upper surface, slider fixed mounting is at the lower extreme of diaphragm, the lower extreme sliding connection of slider is in the inside of first spout.

Through adopting above-mentioned technical scheme, lower extreme sliding connection through the slider is in the inside of first spout, makes first slip subassembly can drive the diaphragm and remove at the upper surface of a set, plays the effect of firm diaphragm position, makes diaphragm cooperation locating piece play the effect of measuring aluminium system unit radiator width, avoids the diaphragm to incline when removing simultaneously, and the influence detects the roughness of radiator corner.

Further, as a preferred technical solution, the second sliding assembly includes a second sliding groove and a sliding rod, the second sliding groove is opened on the front surface of the vertical plate, the sliding rod is fixedly installed on the back surface of the moving block, and the sliding rod is slidably connected inside the second sliding groove.

Through adopting above-mentioned technical scheme, through using the litter to move in the inside of second spout, make the second litter can drive movable block longitudinal movement, drive the fixture block through the removal of movable block to make the card can detect the blade of aluminium system unit radiator.

Further, as a preferred technical scheme, a first transverse groove is formed in the upper end of the inner wall of the second sliding groove, and the sliding rod is movably connected inside the first transverse groove.

Through adopting above-mentioned technical scheme, through litter swing joint in the inside of first cross slot, make the litter can drive the movable block lateral shifting through first cross slot, the card of being convenient for carries out multinomial detection to the blade of aluminium system unit radiator.

Further, as a preferred technical scheme, a second transverse groove is formed in the lower end of the inner wall of the second sliding groove, and the sliding rod is movably connected inside the second transverse groove.

By adopting the technical scheme, the sliding rod is movably connected inside the second transverse groove, and after the moving rod moves upwards, the sliding rod slides into the second transverse groove, so that the cross rod plays a role in fixing the position of the moving block, and the moving block is prevented from falling downwards to influence the taking of the aluminum unit radiator.

In summary, the utility model mainly has the following beneficial effects:

firstly, a radiator is arranged on the upper surface of a support table, then the transverse plate is pushed, the transverse plate moves on the upper surface of the support table through a first sliding assembly, the radiator is clamped between the transverse plate and a positioning block, the width of the radiator is measured by contrasting with a scale, then a moving mechanism is used for driving a moving plate to move towards the inner side of the upper surface of the support table, the radiator is clamped between the moving plates, the length of the radiator is measured by contrasting with the scale, and the flatness of the corner of the radiator can be conveniently measured through the transverse plate, the positioning block and the moving plate, so that the detection efficiency of the radiator of the aluminum unit is improved, the detection accuracy is improved, and the detection error is reduced;

the second, can drive the movable block through the second slip subassembly and remove in the front of riser, make the positive fixed mounting's of fixture block card peg graft between the blade of radiator to use the second slip subassembly to make the movable block lateral shifting, make the card remove and laminate with the radiator blade between the radiator blade, be convenient for measure radiator blade interval through contrasting card and scale, through card and radiator blade laminating, make card detectable radiator blade's straightness that hangs down, roughness and longitudinal inclination.

Drawings

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

FIG. 2 is a cross-sectional view of the present invention;

fig. 3 is a top view of the present invention.

Reference numerals: 1. the device comprises a support table, 2, a moving mechanism, 21, a transmission component, 211, a groove, 212, a connecting block, 213, a threaded rod, 214, a rotating handle, 22, a first limiting component, 221, a first limiting block, 222, a first limiting groove, 23, a second limiting component, 231, a second limiting block, 232, a second limiting groove, 3, a moving plate, 4, a positioning component, 41, a positioning groove, 42, a positioning rod, 5, a first sliding component, 51, a first sliding groove, 52, a sliding block, 6, a transverse plate, 7, a vertical plate, 71, a positioning block, 8, a second sliding component, 81, a second sliding groove, 82, a sliding rod, 83, a first transverse groove, 84, a second transverse groove, 9, a moving block, 10, a clamping block, 101, a clamping piece, 11 and a scale.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1-3, the detection platform for the aluminum unit radiator described in this embodiment includes a supporting platform 1, moving mechanisms 2 are respectively disposed at two ends of an upper surface of the supporting platform 1, moving plates 3 are respectively slidably connected to two ends of the upper surface of the supporting platform 1 through the moving mechanisms 2, positioning assemblies 4 are respectively disposed at two ends of the upper surface of the supporting platform 1, the positioning assemblies 4 are fixedly connected to the moving plates 3, a first sliding assembly 5 is disposed at a front end of the upper surface of the supporting platform 1, a transverse plate 6 is slidably connected to the front end of the upper surface of the supporting platform 1 through the first sliding assembly 5, a vertical plate 7 is fixedly mounted at a rear end of the upper surface of the supporting platform 1, a second sliding assembly 8 is disposed on a front surface of the vertical plate 7, a moving block 9 is slidably connected to the front surface of the vertical plate 7 through the second sliding assembly 8, a fixture block 10 is inserted into an upper end of the moving block 9, a fixture block 101 is disposed on a front surface of the fixture block 10, and a positioning block 71 is fixedly mounted at a lower end of a front surface of the vertical plate 7, the upper surface of the support table 1 is provided with a scale 11, and the scale 11 is movably connected with the moving plate 3, the transverse plate 6 and the card 101 respectively; the radiator is placed on the upper surface of the support table 1, then the transverse plate 6 is pushed, the transverse plate 6 moves on the upper surface of the support table 1 through the first sliding assembly 5, the radiator is clamped between the transverse plate 6 and the positioning block 71, the width of the radiator is measured by contrasting the scale 11, then the moving mechanism 2 is used for driving the moving plate 3 to move towards the inner side of the upper surface of the support table 1, the radiator is clamped between the moving plate 3, the length of the radiator is measured by contrasting the scale 11, the flatness of the corner of the radiator can be conveniently measured by the transverse plate 6, the positioning block 71 and the moving plate 3, the moving block 9 can be driven to move on the front side of the vertical plate 7 through the second sliding assembly 8, the clamping pieces 101 fixedly arranged on the front side of the clamping blocks 10 are inserted between the blades of the radiator, the moving block 9 is transversely moved by using the second sliding assembly 8, and the clamping pieces 101 move between the blades of the radiator and are attached to the blades of the radiator, be convenient for measure radiator blade interval through contrasting card 101 and scale 11, through card 101 and the laminating of radiator blade, make card 101 detectable radiator blade's straightness that hangs down, roughness and longitudinal inclination.

Example 2

Referring to fig. 2, on the basis of embodiment 1, in order to achieve the purpose of measuring the length and the corner flatness of the aluminum unit radiator, the present embodiment has an innovative design on the moving mechanism 2, specifically, the moving mechanism 2 includes a transmission assembly 21, a first limiting assembly 22 and a second limiting assembly 23, the transmission assembly 21 is disposed at two ends of the upper surface of the supporting platform 1, the transmission assembly 21 is in transmission connection with the moving plate 3, and the first limiting assembly 22 and the second limiting assembly 23 are respectively fixedly connected with the transmission assembly 21; play the effect that drives the movable plate 3 and move to the inboard of the upper surface of the branch platform 1 through drive assembly 21, and make two movable plates 3 move in opposite directions, make movable plate 3 reach the effect of centre gripping aluminium system unit radiator to be convenient for measure the effect of radiator length, measure the roughness at radiator both ends simultaneously, and play the effect of firm drive assembly 21 position through first spacing subassembly 22 and the spacing subassembly 23 of second.

Referring to fig. 2, for the purpose of moving the two moving plates 3 toward each other, the driving unit 21 of the present embodiment includes a groove 211, a connecting block 212, the threaded rod 213 and the rotating handle 214 are respectively provided at two ends of the upper surface of the supporting platform 1, the grooves 211 provided at two ends of the upper surface of the supporting platform 1 are communicated, the connecting block 212 is fixedly arranged at the lower end of the moving plate 3, the connecting block 212 is slidably connected inside the groove 211, the threaded rod 213 is rotatably connected to the right side of the supporting platform 1, the left end of the threaded rod 213 extends into the groove 211, one end of the threaded rod 213 extends into the other groove 211 through the groove 211, one end of the threaded rod 213 penetrates through the moving block 9, the outer wall of the threaded rod 213 is in threaded connection with the moving block 9, the rotating handle 214 is fixedly connected to the right end of the threaded rod 213, the first limiting component 22 is arranged at the right end of the outer wall of the threaded rod 213, and the second limiting component 23 is arranged at the left end of the outer wall of the threaded rod 213; the rotating handle 214 is rotated to drive the threaded rod 213 to rotate, so that the threaded rod 213 drives the moving block 9 to slide in the groove 211, the moving plates 3 move towards the inner side of the upper surface of the supporting table 1, the outer threads on the two sides of the outer wall of the threaded rod 213 are opposite in direction, the two moving plates 3 move towards each other, and the positions of the threaded rod 213 are stabilized through the first limiting assembly 22 and the second limiting assembly 23.

Referring to fig. 2, in order to stabilize the right end of the threaded rod 213, the first limiting component 22 of this embodiment includes a first limiting block 221 and a first limiting groove 222, the first limiting block 221 is fixedly installed on the right side of the outer wall of the threaded rod 213, the first limiting groove 222 is opened on the right side inside the supporting platform 1, and the first limiting block 221 is slidably connected inside the first limiting groove 222; the first limiting block 221 is slidably connected inside the first limiting groove 222, so that the first limiting assembly 22 can achieve the effect of stabilizing the right end position of the threaded rod 213.

Referring to fig. 2, in order to achieve the purpose of stabilizing the position of the left end of the threaded rod 213, the second limiting assembly 23 of this embodiment includes a second limiting block 231 and a second limiting groove 232, the second limiting block 231 is fixedly installed on the left side of the outer wall of the threaded rod 213, the second limiting groove 232 is opened on the left side inside the supporting platform 1, and the second limiting block 231 is slidably connected inside the second limiting groove 232; the second limiting block 231 is slidably connected inside the second limiting groove 232, so that the second limiting assembly 23 can stabilize the left end of the threaded rod 213, and the threaded rod 213 is prevented from inclining or falling to affect the movement of the moving plate 3.

Referring to fig. 1, in order to stabilize the position of the moving plate 3, the positioning assembly 4 of the present embodiment includes positioning slots 41 and positioning rods 42, the positioning slots 41 are respectively formed at two ends of the upper surface of the support platform 1, the positioning rods 42 are fixedly connected to the lower end of the moving plate 3, and the lower ends of the positioning rods 42 are slidably connected to the inside of the positioning slots 41; the lower end of the positioning rod 42 is slidably connected inside the positioning groove 41, so that the positioning assembly 4 can stabilize the position of the moving plate 3, and the measuring work is prevented from being influenced by the inclination of the moving plate 3.

Referring to fig. 1, for the purpose of detecting the width and the corner flatness of the aluminum unit radiator, the first sliding assembly 5 of the present embodiment includes a first sliding groove 51 and a sliding block 52, the first sliding groove 51 is disposed at the front end of the upper surface of the supporting platform 1, the sliding block 52 is fixedly mounted at the lower end of the transverse plate 6, and the lower end of the sliding block 52 is slidably connected inside the first sliding groove 51; lower extreme sliding connection through slider 52 is in the inside of first spout 51, makes first sliding component 5 can drive diaphragm 6 and remove at the upper surface of a set 1, plays the effect of firm diaphragm 6 position, makes diaphragm 6 cooperation locating piece 71 play the effect of measuring aluminium system unit radiator width, avoids diaphragm 6 slope when removing simultaneously, influences the roughness that detects the radiator corner.

Example 3

Referring to fig. 1 to 3, in the present embodiment, on the basis of embodiment 1, in order to achieve the purpose of detecting the fins of the aluminum assembly radiator, the second sliding assembly 8 of the present embodiment is innovatively designed, specifically, the second sliding assembly 8 includes a second sliding groove 81 and a sliding rod 82, the second sliding groove 81 is opened on the front surface of the vertical plate 7, the sliding rod 82 is fixedly installed on the back surface of the moving block 9, and the sliding rod 82 is slidably connected inside the second sliding groove 81; the sliding rod 82 moves inside the second sliding chute 81, so that the second sliding rod 82 can drive the moving block 9 to move longitudinally, the fixture block 10 is driven by the movement of the moving block 9, and the card 101 can detect the blade of the aluminum unit radiator.

Referring to fig. 2, in order to move the moving block 9 laterally, a first transverse groove 83 is formed at the upper end of the inner wall of the second sliding chute 81 in the embodiment, and the sliding rod 82 is movably connected inside the first transverse groove 83; the sliding rod 82 is movably connected inside the first transverse groove 83, so that the sliding rod 82 can drive the moving block 9 to transversely move through the first transverse groove 83, and the card 101 can conveniently perform multiple detections on the blades of the aluminum unit radiator.

Referring to fig. 2, in order to fix and support the position of the moving block 9, a second transverse groove 84 is formed at the lower end of the inner wall of the second sliding groove 81 in the embodiment, and the sliding rod 82 is movably connected inside the second transverse groove 84; the sliding rod 82 is movably connected inside the second transverse groove 84, and after the moving rod moves upwards, the sliding rod 82 slides into the second transverse groove 84, so that the cross rod plays a role in fixing the position of the moving block 9, and the moving block 9 is prevented from falling downwards to influence the taking of the aluminum unit radiator.

The use principle and the advantages are as follows: when the aluminum unit radiator needs to be detected, the radiator is placed on the upper surface of the support table 1, then the transverse plate 6 is pushed and is connected inside the first sliding groove 51 in a sliding manner through the sliding block 52, the transverse plate 6 moves on the upper surface of the support table 1 through the first sliding assembly 5, the radiator is clamped between the transverse plate 6 and the positioning block 71 through the movement of the transverse plate 6, the width of the radiator is measured by contrasting with the scale 11, then the moving plate 3 moves towards the inner side of the upper surface of the support table 1 through the moving mechanism 2, the rotating handle 214 is rotated, the rotating plate drives the connecting block 212 to move inside the groove 211 through the threaded rod 213, the effect that the transmission assembly 21 drives the moving plate 3 to move is achieved, the first limiting block 221 is connected inside the first limiting groove 222 in a sliding manner, the first limiting block 22 achieves the effect that the right end position of the stable threaded rod 213, and is connected inside the second limiting groove 232 through the second limiting block 231 in a sliding manner, the second limiting component 23 is enabled to achieve the effect of stabilizing the left end position of the threaded rod 213, so as to avoid the inclination or dislocation of the threaded rod 213 from affecting the movement of the moving plate 3, the directions of the external threads on the two sides of the outer wall of the threaded rod 213 are opposite, so that the two moving plates 3 move oppositely to clamp the radiator, the lower end of the positioning rod 42 is connected to the inside of the positioning groove 41 in a sliding manner, so that the positioning component 4 plays the role of stabilizing the position of the moving plate 3, then the moving plate 3 can measure the length of the radiator by contrasting with the scale 11, the corner flatness of the radiator can be detected by the transverse plate 6, the positioning block 71 and the moving plate 3, then the slide rod 82 is used, the slide rod 82 is enabled to move transversely away from the second transverse groove 84 to enter the inside of the second sliding groove 81, the second sliding component 8 drives the moving block 9 to move in the front of the vertical plate 7, so that the card 101 fixedly installed in the front of the fixture block 10 is inserted between the blades of the radiator, then transversely make the slide bar 82 drive the movable block 9 lateral shifting through first cross slot 83 to make card 101 and radiator fin laminating be connected, thereby be convenient for detect the interval between the radiator fin to contrast scale 11, and detectable radiator fin's roughness, straightness and vertical inclination.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a special testing platform of aluminium system unit radiator which characterized in that: the movable table comprises a supporting table, wherein moving mechanisms are arranged at two ends of the upper surface of the supporting table, moving plates are respectively connected to two ends of the upper surface of the supporting table in a sliding mode through the moving mechanisms, positioning assemblies are arranged at two ends of the upper surface of the supporting table, the positioning assemblies are fixedly connected with the moving plates, a first sliding assembly is arranged at the front end of the upper surface of the supporting table, a transverse plate is connected to the front end of the upper surface of the supporting table in a sliding mode through the first sliding assembly, a vertical plate is fixedly mounted at the rear end of the upper surface of the supporting table, a second sliding assembly is arranged on the front side of the vertical plate, a moving block is connected to the front side of the vertical plate in a sliding mode through the second sliding assembly, a clamping block is inserted into the upper end of the moving block, a clamping piece is arranged on the front side of the clamping block, a positioning block is fixedly mounted at the lower end of the front side of the vertical plate, a scale is arranged on the upper surface of the supporting table, and the scale is respectively connected with the moving plates, The transverse plate is movably connected with the clamping piece.

2. The special detection platform for the aluminum unit radiator as recited in claim 1, wherein: the moving mechanism comprises a transmission assembly, a first limiting assembly and a second limiting assembly, the transmission assembly is arranged at two ends of the upper surface of the support platform and is in transmission connection with the moving plate, and the first limiting assembly and the second limiting assembly are respectively fixedly connected with the transmission assembly.

3. The aluminum assembly radiator dedicated detection platform of claim 2, wherein: the transmission assembly comprises a groove, a connecting block, a threaded rod and a rotating handle, the groove is formed in two ends of the upper surface of the supporting platform respectively, the groove formed in two ends of the upper surface of the supporting platform is communicated with the groove, the connecting block is fixedly installed at the lower end of the movable plate and is connected to the inside of the groove in a sliding mode, the threaded rod is connected to the right side of the supporting platform in a rotating mode, the left end of the threaded rod extends into the groove, one end of the threaded rod extends into the inside of the other groove through the groove, the moving block is penetrated through one end of the threaded rod, the outer wall of the threaded rod is connected with the moving block in a threaded mode, the rotating handle is fixedly connected to the right end of the threaded rod, the first limiting assembly is arranged at the right end of the outer wall of the threaded rod, and the second limiting assembly is arranged at the left end of the outer wall of the threaded rod.

4. The aluminum assembly radiator dedicated detection platform of claim 3, wherein: first spacing subassembly includes first stopper and first spacing groove, first stopper fixed mounting is on the right side of threaded rod outer wall, the right side at a platform inside is seted up to first spacing groove, first stopper sliding connection is in the inside of first spacing groove.

5. The aluminum assembly radiator dedicated detection platform of claim 3, wherein: the second limiting assembly comprises a second limiting block and a second limiting groove, the second limiting block is fixedly mounted on the left side of the outer wall of the threaded rod, the second limiting groove is formed in the left side of the inner portion of the support platform, and the second limiting block is connected to the inner portion of the second limiting groove in a sliding mode.

6. The special detection platform for the aluminum unit radiator as recited in claim 1, wherein: the positioning assembly comprises a positioning groove and a positioning rod, the positioning groove is formed in two ends of the upper surface of the support respectively, the positioning rod is fixedly connected to the lower end of the movable plate, and the lower end of the positioning rod is connected to the inside of the positioning groove in a sliding mode.

7. The special detection platform for the aluminum unit radiator as recited in claim 1, wherein: first slip subassembly includes first spout and slider, the front end at a platform upper surface is seted up to first spout, slider fixed mounting is at the lower extreme of diaphragm, the lower extreme sliding connection of slider is in the inside of first spout.

8. The special detection platform for the aluminum unit radiator as recited in claim 1, wherein: the second sliding assembly comprises a second sliding groove and a sliding rod, the second sliding groove is formed in the front face of the vertical plate, the sliding rod is fixedly installed on the back face of the moving block, and the sliding rod is connected inside the second sliding groove in a sliding mode.

9. The aluminum assembly radiator dedicated detection platform of claim 8, wherein: a first transverse groove is formed in the upper end of the inner wall of the second sliding groove, and the sliding rod is movably connected inside the first transverse groove.

10. The aluminum assembly radiator dedicated detection platform of claim 8, wherein: and a second transverse groove is formed at the lower end of the inner wall of the second sliding groove, and the sliding rod is movably connected inside the second transverse groove.

Images