CN113481492A - Clamping device for chemical oxidation of liquid cooling water channel of microwave box body - Google Patents

Abstract

The invention discloses a clamping device for chemical oxidation of a liquid cooling water channel of a microwave box body, which comprises a sliding assembly, an inner supporting assembly, a liquid conveying assembly and an outer supporting assembly, wherein the inner supporting assembly and the outer supporting assembly are arranged on the sliding assembly, and the inner supporting assembly is connected with the outer supporting assembly and the liquid conveying assembly; the relative position between the inner support assembly and the outer support assembly is adjusted through the sliding assembly, so that the parts to be processed are fixed by the inner support assembly and the outer support assembly, and the water channel of the parts to be processed is chemically oxidized by the liquid conveying assembly; the invention does not need to change the main structure and the control system of the original water channel oxidation machine, i.e. does not need to invest a large amount of reconstruction funds for the process and the equipment; after the device is adopted, an operator can quickly become familiar with the device, and the device realizes the chemical oxidation processing of various microwave box body water channels.

Description

Clamping device for chemical oxidation of liquid cooling water channel of microwave box body

Technical Field

The invention relates to the technical field of microwave assembly processing, in particular to a clamping device for chemical oxidation of a liquid cooling water channel of a microwave box body.

Background

The aluminum alloy box body of the microwave liquid cooling assembly is a key device of the radar system, and plays a role in providing a mounting carrier and dissipating heat for the high-density microwave module, so that the effective operation of the radar system is guaranteed. The service life of the radar system is generally more than ten years, so that the long-term reliability of the aluminum alloy box body of the microwave liquid cooling assembly is an important performance index. The main failure mode of the aluminum alloy box body of the existing microwave liquid cooling assembly is corrosion failure; or corrosion products block the liquid cooling pipeline to reduce the cooling effect, so that the liquid cooling pipeline is cooled badly and fails. In order to improve the corrosion resistance of the aluminum alloy box body of the microwave liquid cooling assembly and ensure the conductivity of the structure, the outer surface of the aluminum alloy box body and the inner surface of the flow channel are required to be subjected to conductive oxidation.

At present, a water channel oxidation machine for the chemical oxidation of a microwave box body liquid cooling water channel is special equipment, can only carry out chemical oxidation processing on the same type of microwave box body liquid cooling water channel, and is low in applicability.

In view of the above-mentioned drawbacks, the inventors of the present invention have finally obtained the present invention through a long period of research and practice.

Disclosure of Invention

In order to solve the technical defects, the technical scheme adopted by the invention is that the clamping device for the chemical oxidation of the liquid cooling water channel of the microwave box body comprises a sliding assembly, an inner supporting assembly, a liquid conveying assembly and an outer supporting assembly, wherein the inner supporting assembly and the outer supporting assembly are arranged on the sliding assembly, and the inner supporting assembly is connected with the outer supporting assembly and the liquid conveying assembly;

the outer support assembly and the inner support assembly respectively comprise a vertical rail, end plates, a supporting plate and a vertical plate, the vertical rail is fixedly arranged on the sliding assembly and movably connected with the end plates, two ends of the supporting plate are respectively connected to the two end plates, the vertical rail is provided with a first limiting round hole, the infusion assembly is provided with a second limiting round hole, and a second guide rail sequentially penetrates through the first limiting round hole and the second limiting round hole to realize the connection of the inner support assembly, the outer support assembly and the infusion assembly; the vertical plate is arranged between the two supporting plates, the end part of the vertical plate is connected with the corresponding supporting plate, and the vertical plate can move along the extending direction of the supporting plates.

Preferably, one end face of the end plate is provided with a first limit shallow groove, the other end face of the end plate is provided with a second limit shallow groove, the vertical rail is arranged in the first limit shallow groove, and the end part of the supporting plate is arranged in the second limit shallow groove.

Preferably, a fixing clamp is arranged at one end, close to the infusion assembly, of the second guide rail, a third quick-pressing screw is arranged on the fixing clamp, and the fixing clamp is locked on the second guide rail through the third quick-pressing screw.

Preferably, the sliding assembly comprises a sliding seat and a sliding block; the sliding block is arranged on the sliding seat in a sliding mode, the vertical rail of the inner supporting assembly is arranged on the sliding seat, and the vertical rail of the outer supporting assembly is arranged on the sliding block.

Preferably, the inner support assembly further comprises an inner positioning frame; the supporting plate is provided with a limiting hole, and the inner positioning frame penetrates through the limiting hole to be connected with the end part of the vertical plate so as to connect the end part of the vertical plate with the corresponding supporting plate.

Preferably, the outer support assembly further comprises an outer positioning frame, a fixing frame and horizontal quick tongs, the supporting plate is provided with a limiting hole, and the inner positioning frame penetrates through the limiting hole to be connected with the end part of the vertical plate so as to connect the end part of the vertical plate with the corresponding supporting plate; the horizontal type rapid pliers are characterized in that a support lug is arranged on one side of the outer positioning frame, the fixing frame is connected with the support lugs on the outer positioning frame, and the horizontal type rapid pliers are arranged on the fixing frame.

Preferably, the inner positioning frame and the outer positioning frame are both provided with first quick-pressing screws for fixing the position of the vertical plate on the limiting hole.

Preferably, a guide plate is arranged between the two vertical plates, and the guide plate is a rectangular sheet piece with a slope at one end.

Preferably, the infusion assembly comprises a back plate, a seat plate, a sliding support, a first guide rail and an air tap; the bedplate is fixed to be set up on the backplate, the both ends of first guide rail are fixed respectively and are set up two on the bedplate, sliding bracket sets up on the first guide rail and can follow first guide rail removes, the air cock sets up sliding bracket is last just the air cock with sliding bracket relative movement, the spacing round hole of second sets up on the backplate, the fixation clamp with interior support assembly sets up respectively the both sides of backplate.

Preferably, a second quick-pressing screw and a third quick-pressing screw are arranged on the sliding support, the second quick-pressing screw is used for fixing the position of the sliding support on the first guide rail, and the third quick-pressing screw is used for fixing the relative position of the air faucet and the sliding support.

Compared with the prior art, the invention has the beneficial effects that: the invention does not need to change the main structure and the control system of the original water channel oxidation machine, i.e. does not need to invest a large amount of reconstruction funds for the process and the equipment; after the device is adopted, an operator can quickly become familiar with the device, and the device realizes the chemical oxidation processing of various microwave box body water channels; 2, the quick-pressing screw is adopted, so that quick production change among microwave box bodies with different sizes is realized; 3, the invention also has the advantages of simple processing and manufacturing, easy realization, low investment cost and the like.

Drawings

FIG. 1 is a front perspective view of the clamping apparatus for chemical oxidation of a liquid coolant channel of a microwave cassette;

FIG. 2 is a rear perspective view of the clamping apparatus for chemical oxidation of a liquid coolant channel of a microwave cassette;

FIG. 3 is a schematic structural view of the sliding assembly;

FIG. 4 is a schematic structural view of the inner support assembly;

FIG. 5 is a schematic view of the infusion set;

FIG. 6 is a schematic view of the outer support assembly;

FIG. 7 is a schematic diagram of the use of the clamping device for chemical oxidation of a liquid coolant channel of a microwave cassette.

The figures in the drawings represent:

1-a back plate; 2-a slide seat; 3-a slide block; 4-vertical rail; 5-end plate; 6-a supporting plate; 7-inner positioning frame; 8-standing the plate; 9-a seat board; 10-a sliding support; 11-a first guide rail; 12-a connecting plate; 13-air tap; 14-external positioning frame; 15-a guide plate; 16-a fixing frame; 17-a second guide rail; 18-a retaining clip; 19-first quick-pressing screw; 20-second quick-pressing screw; 21-third quick-pressing screw; 22-horizontal quick clamp; 23-a microwave box body; 24-a gasket; 25-a box body; 31-a boss; 41-a first limiting round hole; 51-first shallow limit groove; 52-second shallow limit grooves; 61-a limiting hole; 71-a limit boss; 101-a circular limiting hole; 102-oblate limiting holes; 111-limit elongated holes; 112-a second limit round hole; 121-oblate positioning holes; 131-a limit step; 132-a male connection; 141-a limit boss; 142-a lug; 161-card slot; 201-groove.

Detailed Description

The above and further features and advantages of the present invention are described in more detail below with reference to the accompanying drawings.

As shown in fig. 1 and 2, fig. 1 is a front perspective view of the clamping device for chemical oxidation of the liquid cooling channel of the microwave box body; FIG. 2 is a rear perspective view of the clamping apparatus for chemical oxidation of a liquid coolant channel of a microwave cassette.

The clamping device for the chemical oxidation of the liquid cooling water channel of the microwave box body comprises a sliding assembly, an inner supporting assembly, a liquid conveying assembly and an outer supporting assembly, wherein the inner supporting assembly and the outer supporting assembly are arranged on the sliding assembly, and the inner supporting assembly is connected with the outer supporting assembly and the liquid conveying assembly. The relative position between the inner support component and the outer support component is adjusted through the sliding component, so that the inner support component and the outer support component fix parts to be processed, and the infusion component carries out chemical oxidation processing on a water channel of the parts to be processed.

The outer supporting component and the inner supporting component respectively comprise a vertical rail 4, an end plate 5, a supporting plate 6 and a vertical plate 8, the vertical rail 4 is fixedly arranged on the sliding component, the vertical rail 4 is movably connected between the end plates 5, two ends of the supporting plate 6 are respectively connected to the two ends of the end plates 5, a first limiting round hole 41 is formed in the vertical rail 4, a second limiting round hole 112 is formed in the infusion component, and a second guide rail 17 sequentially penetrates through the first limiting round hole 41 and the second limiting round hole 112 to realize the connection of the inner supporting component, the outer supporting component and the infusion component.

The vertical plate 8 is arranged between the two supporting plates 6, the end part of the vertical plate 8 is connected with the corresponding supporting plate 6, the vertical plate 8 can move along the extending direction of the supporting plate 6, and the vertical plate 8 is used for positioning parts to be processed in four directions.

The inner support assembly, the outer support assembly and the infusion assembly are adjustable in relative position along the second guide rail 17.

One end of the second guide rail 17 close to the infusion set is provided with a fixing clamp 18, a third quick-pressing screw 21 is arranged on the fixing clamp 18, and the third quick-pressing screw 21 locks the fixing clamp 18 on the second guide rail 17, so that the relative positions of the inner support set, the outer support set and the infusion set are fixed.

As shown in fig. 3, fig. 3 is a schematic structural view of the sliding assembly; the sliding assembly comprises a sliding seat 2 and a sliding block 3; the sliding block 3 is arranged on the sliding base 2 in a sliding mode, the inner supporting assembly is arranged on the sliding base 2, the outer supporting assembly is arranged on the sliding block 3, and the relative positions of the inner supporting assembly and the outer supporting assembly are adjusted through sliding of the sliding block 3 on the sliding base 2. The upright rails 4 of the inner support assembly are arranged on the sliding base 2, and the upright rails 4 of the outer support assembly are arranged on the sliding block 3.

Specifically, the sliding seat 2 is configured as a long strip structure, the sliding seat 2 includes an ungrooved portion and a grooved portion, the ungrooved portion is disposed at an end of the sliding seat 2, an end face of the ungrooved portion is higher than an end face of the grooved portion, and a groove 201 extending along the sliding seat 2 is disposed on the end face of the grooved portion; the slider 3 is a rectangular block provided with a boss 31, the boss 31 is arranged in the groove 201 in a matching manner, and the slider 3 can slide along the groove 201.

FIG. 4 is a schematic structural view of the inner support assembly, as shown in FIG. 4; the inner support assembly further comprises an inner positioning frame 7, a vertical plate 8 and a first quick pressing screw 19; the two support plates 6 are arranged in parallel, the support plates 6 are provided with limiting holes 61, the vertical plates 8 are arranged between the two support plates 6, the inner positioning frame 7 penetrates through the limiting holes 61 to be connected with the end parts of the vertical plates 8, so that the end parts of the vertical plates 8 are connected with the corresponding support plates 6, the vertical plates 8 can move along the extending direction of the limiting holes 61, the first quick pressing screws 19 are arranged on the inner positioning frame 7 and used for fixing the positions of the vertical plates 8 on the limiting holes 61, and the end parts of the vertical rails 4 are fixedly arranged on the slide base 2.

Preferably, two first limit shallow grooves 51 are formed in one end surface of the end plate 5 along the length direction, two second limit shallow grooves 52 are formed in the other end surface of the end plate 5 along the width direction, the vertical rail 4 is arranged in the first limit shallow grooves 51, and the end portion of the supporting plate 6 is arranged in the second limit shallow grooves 52, so that the end plate 5 is fixedly connected with the vertical rail 4 and the supporting plate 6.

Specifically, the vertical rail 4 is a long rectangular block provided with two first limiting round holes 41; the end plate 5 is a rectangular thin plate; two first shallow limiting grooves 51 are formed in one surface of the end plate 5 along the length direction, and two second shallow limiting grooves 52 are formed in the other surface of the end plate 5 along the width direction; the supporting plate 6 is a rectangular thin plate; four limiting holes 61 are arranged in the middle of the supporting plate 6, the limiting holes 61 are vertical long-strip limiting holes in the length direction, and the limiting holes are in mirror symmetry with each other; the inner positioning frame 7 is a cuboid provided with two limiting bosses 71.

The limiting bosses 71 of the two inner positioning frames 7 respectively penetrate through the limiting holes 61 on two sides of the central line of the supporting plate 6 on the lower layer upwards, the limiting bosses 71 of the other two inner positioning frames 7 respectively penetrate through the limiting holes 61 on two sides of the central line of the supporting plate 6 on the upper layer downwards, then are respectively fixedly connected with the upper ends and the lower ends of the vertical plates 8 on two sides, the upper ends of the vertical plates are fixedly connected with the four first quick-pressing screws 19, when the first quick-pressing screws 19 are tightly pressed, the vertical plates 8, the inner positioning frames 7 and the first quick-pressing screws 19 are fixed and cannot move, and when the first quick-pressing screws 19 are loosened, the vertical plates 8, the inner positioning frames 7 and the first quick-pressing screws 19 can move together along the length direction of the supporting plate 6.

In addition, the two ends of the upper layer of the supporting plate 6 and the lower layer of the supporting plate 6 are respectively inserted into the second shallow limiting grooves 52 in the width direction of the end plates 5 on the two sides, and the supporting plate 6 is fixedly connected with the end plates 5; the four vertical rails 4 are respectively inserted into the first limit shallow grooves 51 in the length direction of the end plates 5 at two sides, and the four vertical rails 4 are respectively erected at the ends, which are not provided with grooves, of the sliding seats 2 at two sides and are fixedly connected with the sliding seats 2; the end plates 5 at two sides, the supporting plates 6 at the upper layer and the lower layer, the inner positioning frames 7 on the supporting plates, the vertical plates 8 and the first quick pressing screws 19 can move together along the vertical direction of the vertical rail 4.

As shown in fig. 5, fig. 5 is a schematic structural view of the infusion set; the infusion assembly comprises a back plate 1, a seat plate 9, a sliding support 10, a first guide rail 11, a second quick pressing screw 20, a third quick pressing screw 21 and an air nozzle 13; the bedplate 9 is fixed to be set up on the backplate 1, the both ends of first guide rail 11 are fixed respectively and are set up two on the bedplate 9, sliding bracket 10 sets up on the first guide rail 11 and can follow first guide rail 11 removes, air cock 13 sets up on the sliding bracket 10 just air cock 13 with sliding bracket 10 relative movement, second quick-pressing screw 20 with third quick-pressing screw 21 all sets up on the sliding bracket 10, second quick-pressing screw 20 is used for fixing sliding bracket 10 is in position on the first guide rail 11, third quick-pressing screw 21 is used for fixing air cock 13 with sliding bracket 10's relative position.

Preferably, two first guide rails 11 are arranged in parallel, and the sliding supports 10 on the two first guide rails 11 are connected through a connecting plate 12, so as to realize the unified movement of the two sliding supports 10.

Specifically, the back plate 1 is a rectangular thin plate; the middle of the back plate 1 is provided with four limiting strip holes 111, the position close to the edge is provided with four second limiting round holes 112, two ends of each limiting strip hole 111 are arc-shaped, and the second limiting round holes 112 and the limiting strip holes 111 are in mirror symmetry in pairs.

The seat plate 9 is a thin plate similar to an isosceles triangle, and the middle of the thin plate is hollowed; a mounting hole is formed in the position, close to the top end, of the center line of the seat plate 9; the first guide rail 11 is an elongated round bar; the sliding support 10 is a cuboid, one end of the sliding support is provided with a circular limiting hole 101, the other end of the sliding support is provided with an oblate limiting hole 102, the circular limiting hole 101 and the oblate limiting hole 102 are provided with through thin slits close to the outer side wall, and the second quick-pressing screw 20 and the third quick-pressing screw 21 are right to the circular limiting hole 101 and the oblate limiting hole 102 in tightness adjustment.

The axis of the circular positioning hole 101 of the sliding support 10 is perpendicular to the axis of the oblate positioning hole 102; the connecting plate 12 is a strip-shaped thin plate, and two oblate positioning holes 121 are formed in the connecting plate; the air tap 13 is a long flat round bar with a through hole in the middle; one end of the air faucet 13 is provided with a protruding limit step 131, and the other end is provided with an external threaded connector 132.

Fixing two sliding brackets 10 on the outer side surface of the connecting plate 12, keeping the oblate limiting holes 102 of the sliding brackets 10 to coincide with the oblate limiting holes 121 of the connecting plate 12, keeping the oblate limiting holes 121 of the sliding brackets 10 at the top ends, sequentially passing two first guide rails 11 up and down through the circular positioning holes 101 of the sliding brackets 10, respectively inserting two ends of the first guide rails 11 into the mounting holes of the seat plates 9 at two sides, fixedly connecting the first guide rails with the seat plates 9, finally vertically fixing the seat plates 9 between the limiting long-strip holes 111 and the second limiting round holes 112 of the back plate 1, keeping the axes of the oblate positioning holes 121 at two layers and the center line of the limiting long-strip holes 111 at each layer on the same horizontal plane, and sequentially passing the thread ends of four air taps 13 outwards through the four limiting long-strip holes 111 of the back plate 1, The oblate positioning hole 121 of the connecting plate 12 and the oblate positioning hole 102 of the sliding support 10 are inserted, then the third quick-pressing screw 21 is inserted into the upper end of the sliding support 10, the second quick-pressing screw 20 is inserted into the lower end of the sliding support 10, the axis of the third quick-pressing screw 21 is perpendicular to the axis of the oblate positioning hole 102 of the sliding support 10, and the axis of the second quick-pressing screw 20 is perpendicular to the axis of the circular positioning hole 101 of the sliding support 10; when the third quick-pressing screws 21 are loosened, the air nozzles 13 can move in the respective axial directions, and when the third quick-pressing screws 21 are pressed, the air nozzles 13 keep the respective axial directions fixed; when the second quick-pressing screw 20 is loosened, the sliding bracket 10, the connecting plate 12 and the air faucet 13 can move together along the axial direction of the first guide rail 11, and when the second quick-pressing screw 20 is pressed, the sliding bracket 10, the connecting plate 12 and the air faucet 13 keep the axial direction of the first guide rail 11 fixed.

As shown in fig. 6, fig. 6 is a schematic structural view of the outer support assembly; the outer support component also comprises an outer positioning frame 14, a vertical plate 8, a guide plate 15, a fixing frame 16, a first quick pressing screw 19 and horizontal quick pincers 22; the two support plates 6 are arranged in parallel, the support plates 6 are provided with limiting holes 61, the vertical plate 8 is arranged between the two support plates 6, the outer positioning frame 14 penetrates through the limiting holes 61 to be connected with the end parts of the vertical plates 8, so that the end parts of the vertical plates 8 are connected with the corresponding support plates 6, the vertical plates 8 can move along the extending direction of the limiting holes 61, the first quick pressing screws 19 are arranged on the outer positioning frame 14 and used for fixing the positions of the vertical plates 8 on the limiting holes 61, and the end parts of the vertical rails 4 are fixedly arranged on the sliding blocks 3.

A support lug 142 is arranged on one side of the outer positioning frame 14, the fixing frame 16 is connected with the support lugs 142 on the two outer positioning frames 14, and the horizontal type quick clamp 22 is arranged on the fixing frame 16.

The guide plate 15 is arranged between the two vertical plates 8, and one end of the guide plate 15 is provided with a slope.

The outer positioning frame 14 is a cuboid provided with two limiting bosses 141, and the outer side of the outer positioning frame 14 is provided with a support lug 142 which is wide at the outer side and narrow at the inner side; the guide plate 15 is a rectangular sheet with a slope at one end; the fixing frame 16 is a strip-shaped cuboid provided with the clamping groove 161 with a narrow outer part and a wide inner part in the length direction; the fixing clamp 18 is a cuboid, a circular hole is formed in the middle of the fixing clamp, and a through slit is formed in the side wall of the hole.

In addition, the limiting bosses 141 of two outer positioning frames 14 respectively penetrate the limiting holes 61 on two sides of the central line of the supporting plate 6 on the lower layer upwards, the limiting bosses 141 of the other two outer positioning frames 14 respectively penetrate the limiting holes 61 on two sides of the central line of the supporting plate 61 on the upper layer downwards, then are respectively fixedly connected with the upper end and the lower end of the vertical plates 8 on two sides, the upper ends of the lower ends of the vertical plates 8 are fixedly connected through four third quick pressing screws 21, two guide plates 15 are respectively fixed on the inner sides of the lower ends of the vertical plates 8 on two sides, the slopes of the two guide plates 15 are kept outwards in a splayed shape, the fixing frame 16 is fixedly connected on the support lugs 142 of the outer positioning frames 14 on the same vertical plane through the clamping grooves 161, two sides of the fixing frame 16 are respectively arranged, and four horizontal quick clamps 22 are arranged on the outer vertical plane of the fixing frame 16, the upper layer and the lower layer are symmetrical left and right, the pressure heads are inward, and the central line of the horizontal rapid clamp 22 is respectively kept at the same level with the upper central line and the lower central line of the limiting strip hole 111 of the back plate 1.

When the first quick-pressing screw 19 is pressed, the vertical plate 8, the outer positioning frame 14, the guide plate 15, the fixing frame 16, the first quick-pressing screw 19 and the horizontal quick clamp 22 are fixed and cannot move, and when the first quick-pressing screw 19 is loosened, the vertical plate 8, the outer positioning frame 14, the guide plate 15, the fixing frame 16, the first quick-pressing screw 19 and the horizontal quick clamp 22 can move together along the length direction of the supporting plate 6.

In addition, the two ends of the upper layer supporting plate 6 and the lower layer supporting plate 6 are respectively inserted into the second shallow limiting grooves 52 in the width direction of the end plates 5 on the two sides, and the supporting plates 6 are fixedly connected with the end plates 5; the four vertical rails 4 are respectively inserted into the first limit shallow grooves 51 in the length direction of the end plates 5 on the two sides, and the four vertical rails 4 are respectively erected on the sliding blocks 3 on the two sides and fixedly connected with the sliding blocks 3; the end plates 5 at two sides, the supporting plates 6 at the upper layer and the lower layer, the vertical plates 8 on the supporting plates, the outer positioning frame 14, the guide plate 15, the fixing frame 16, the first quick pressing screw 19 and the horizontal quick clamp 22 can move together along the vertical direction of the vertical rail 4.

Fixing the four fixing clips 18 on the second limit round holes 112 of the back plate 1 at one side of the infusion set, and keeping the axes of the round holes to be coincident; the four fixing clamps 18 are respectively inserted with the third quick-pressing screws 21, the axes of the circular holes of the fixing clamps 18 of the third quick-pressing screws 21 are perpendicular to each other, the four second guide rails 17 horizontally penetrate through the first limiting circular holes 41 of the vertical rails 4 on two sides, the second limiting circular holes 112 of the back plate 1 and the circular holes of the fixing clamps 18 in sequence, and the outer ends of the second guide rails 17 are flush with the outermost vertical rails 4 and fixedly connected with the two outer guide rails 4; when the third quick-pressing screw 21 is pressed, the slider 3, the upright rail 4, and the second guide rail 17 are fixed and immovable, and when the third quick-pressing screw 21 is loosened, the slider 3, the upright rail 4, and the second guide rail 17 are movable in the axial direction of the second guide rail 17.

FIG. 7 is a schematic view of the clamping device for microwave cassette liquid cooling channel chemical oxidation shown in FIG. 7; and arranging the adjusting gaskets 24 with corresponding specifications according to the sizes of the parts, and ensuring that the central line of the water outlet of the part and the central line of the air nozzle 13 are on the same horizontal plane.

In addition, a quick air pipe connector is arranged on the external thread connector 132 of the air faucet 13 and is connected with a hose of a quick air pipe water receiving channel oxidation machine, so that the water channel of the part is ensured to be integrated with the machine and kept sealed.

As shown in fig. 7, the microwave box 23 is a special-shaped part, and the outlet of the liquid cooling water passage is on the concave platform plane of the irregular edge, before processing, the slide block 3 is moved to adjust the relative position of the outer support assembly, the four fixing clamps 18 are moved to be tightly attached to the back plate 1, the four third quick pressing screws 21 are pressed tightly, and the adjusting gasket 24 is placed at the bottom of the end plate 5 to adjust the horizontal positions of the four support plates 6; placing one microwave box body 23 on corresponding positions of two supporting plates 6 on the upper layer, moving two inner positioning frames 7 to be attached to two side edges of the microwave box body 23 and ensure that the microwave box body 23 can move along the inner and outer directions, pressing four first quick pressing screws 19, moving two outer positioning frames 14 to be attached to two side edges of the microwave box body 23 and ensure that the microwave box body 23 can move along the inner and outer directions, and pressing four first quick pressing screws 19 and two horizontal quick clamps 22 on the upper layer; inserting another microwave box body 23 into corresponding positions of the two lower layer supporting plates 6 along the guide plate 15, and pressing the two lower layer horizontal quick clamps 22; moving the four fixing clamps 18 along the axial direction of the second guide rail 17, so that the four air nozzles 13 are respectively vertically and positively connected with the water channel outlets of the two microwave box bodies 23, and pressing the four second quick pressing screws 20; sequentially moving the two microwave box bodies 23 outwards to enable the microwave box bodies to be tightly attached to the four horizontal quick clamps 22, adjusting the axial positions of the corresponding four air nozzles 13 to enable the air nozzles to be tightly attached to the concave platform plane of the microwave box bodies 23, and tightly pressing the four third quick pressing screws 21; then starting the water channel oxidation machine to carry out microwave box body liquid cooling water channel oxidation processing, loosening four horizontal type quick clamps 22 after finishing, replacing two new microwave box bodies 23, compressing four horizontal type quick clamps 22, and starting the water channel oxidation machine to carry out microwave box body liquid cooling water channel oxidation processing, and the steps are repeated. If a new type of microwave box body is encountered, the clamping device is adjusted according to the method.

The foregoing is merely a preferred embodiment of the invention, which is intended to be illustrative and not limiting. It will be understood by those skilled in the art that various changes, modifications and equivalents may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. A clamping device for chemical oxidation of a liquid cooling water channel of a microwave box body is characterized by comprising a sliding assembly, an inner supporting assembly, a liquid conveying assembly and an outer supporting assembly, wherein the inner supporting assembly and the outer supporting assembly are arranged on the sliding assembly, and the inner supporting assembly is connected with the outer supporting assembly and the liquid conveying assembly; the relative position between the inner support assembly and the outer support assembly is adjusted through the sliding assembly, so that the parts to be processed are fixed by the inner support assembly and the outer support assembly, and the water channel of the parts to be processed is chemically oxidized by the liquid conveying assembly;

the outer support assembly and the inner support assembly respectively comprise a vertical rail, end plates, a supporting plate and a vertical plate, the vertical rail is fixedly arranged on the sliding assembly and movably connected with the end plates, two ends of the supporting plate are respectively connected to the two end plates, the vertical rail is provided with a first limiting round hole, the infusion assembly is provided with a second limiting round hole, and a second guide rail sequentially penetrates through the first limiting round hole and the second limiting round hole to realize the connection of the inner support assembly, the outer support assembly and the infusion assembly; the vertical plate is arranged between the two supporting plates, the end part of the vertical plate is connected with the corresponding supporting plate, and the vertical plate can move along the extending direction of the supporting plates.

2. The clamping device for microwave cassette body liquid cooling channel chemical oxidation as claimed in claim 1, wherein one end face of said end plate is provided with a first shallow limit groove, the other end face is provided with a second shallow limit groove, said vertical rail is arranged in said first shallow limit groove, and said end of said supporting plate is arranged in said second shallow limit groove.

3. The clamping device for microwave cassette body liquid coolant raceway chemical oxidation as set forth in claim 1, wherein said second rail has a retaining clip disposed at an end thereof adjacent said infusion set, said retaining clip having a third quick-press screw disposed thereon, said third quick-press screw locking said retaining clip onto said second rail.

4. The clamping device for microwave cassette body liquid coolant flume chemical oxidation as claimed in claim 3, wherein said slide assembly includes a slide and a slider; the sliding block is arranged on the sliding seat in a sliding mode, the vertical rail of the inner supporting assembly is arranged on the sliding seat, and the vertical rail of the outer supporting assembly is arranged on the sliding block.

5. The clamping apparatus for microwave cassette liquid coolant flume chemical oxidation as claimed in claim 4 wherein said inner support assembly further comprises an inner spacer; the supporting plate is provided with a limiting hole, and the inner positioning frame penetrates through the limiting hole to be connected with the end part of the vertical plate so as to connect the end part of the vertical plate with the corresponding supporting plate.

6. The clamping device for microwave box body liquid cooling water channel chemical oxidation as claimed in claim 5, wherein said outer support assembly further comprises an outer positioning frame, a fixing frame and horizontal quick tongs, said supporting plate is provided with a limiting hole, said inner positioning frame passes through said limiting hole and is connected with the end of said vertical plate, so as to connect the end of said vertical plate with the corresponding supporting plate; the horizontal type rapid pliers are characterized in that a support lug is arranged on one side of the outer positioning frame, the fixing frame is connected with the support lugs on the outer positioning frame, and the horizontal type rapid pliers are arranged on the fixing frame.

7. The clamping device for microwave box body liquid cooling waterway chemical oxidation as claimed in claim 6, wherein said inner positioning frame and said outer positioning frame are provided with first quick-pressing screws for fixing the position of said vertical plate on said limiting hole.

8. The clamping device for microwave oven chamber body liquid cooling waterway chemical oxidation as claimed in claim 6, wherein a guide plate is disposed between two of said vertical plates, said guide plate being a rectangular plate member having a slope at one end.

9. The clamping device for microwave cassette body liquid coolant waterway chemical oxidation of claim 7, wherein said infusion assembly includes a back plate, a seat plate, a sliding bracket, a first guide rail and an air tap; the bedplate is fixed to be set up on the backplate, the both ends of first guide rail are fixed respectively and are set up two on the bedplate, sliding bracket sets up on the first guide rail and can follow first guide rail removes, the air cock sets up sliding bracket is last just the air cock with sliding bracket relative movement, the spacing round hole of second sets up on the backplate, the fixation clamp with interior support assembly sets up respectively the both sides of backplate.

10. The clamping device for microwave cassette body liquid coolant raceway chemical oxidation as claimed in claim 9, wherein said sliding bracket is provided with a second quick-press screw for fixing the position of said sliding bracket on said first rail and a third quick-press screw for fixing the relative position of said air tap and said sliding bracket.

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