CN109788718B - Heat dissipation device of image processing equipment - Google Patents

Abstract

The invention relates to a heat dissipation device, in particular to a heat dissipation device of image processing equipment, which can conveniently adjust the use height of a bracket assembly by rotating a threaded rod and conveniently adjust the air cooling effect; the air cooling structure can accelerate the air flow and conveniently improve the cooling effect; the heat exchange of water circulation in the water cooling tank can be realized through the water exchange tank body, so that the heat dissipation is accelerated; the use position of the device can be conveniently adjusted through the support frame assembly. The telescopic outer frame comprises a support assembly, an air cooling structure, a water exchange box body, a water cooling box, a support frame assembly and a shock absorber, wherein the two inner end bosses can drive a telescopic outer frame body to move up and down along a hollowed-out sliding cavity by rotating a threaded rod and in threaded connection with the two inner end bosses, and the distance between the mounting outer frame and a support bottom plate body can be adjusted by connecting the four telescopic sliding columns and the mounting outer frame; the telescopic connecting rod can be conveniently connected with the telescopic sliding column and the mounting outer frame.

Description

Heat dissipation device of image processing equipment

Technical Field

The invention relates to a heat dissipation device, in particular to a heat dissipation device of image processing equipment.

Background

For example, patent No. CN201820472691.9 discloses a heat dissipation device for electronic and electrical equipment, which includes a box body, a heat absorption fan is disposed on the left side of the box body, a heat absorption pipe is disposed on the right side of the heat absorption fan, a motor is disposed on both the top and the bottom of the heat absorption fan, a heat insulation layer is disposed on the left side of the motor, a rotation shaft is disposed on the left side of the heat insulation plate, the rotation shaft is electrically connected to an output end of the motor, the left side of the rotation shaft is connected to a cooling bladder disposed in an inner cavity of the condensed water layer, and a plurality of water stirring plates with uniform size are disposed on the cooling bladder.

Disclosure of Invention

The invention aims to provide a heat dissipation device of image processing equipment, which can conveniently adjust the use height of a bracket assembly by rotating a threaded rod and conveniently adjust the air cooling effect; the air cooling structure can accelerate the air flow and conveniently improve the cooling effect; the heat exchange of water circulation in the water cooling tank can be realized through the water exchange tank body, so that the heat dissipation is accelerated; the use position of the device can be conveniently adjusted through the support frame assembly.

The purpose of the invention is realized by the following technical scheme:

a heat dissipation device of image processing equipment comprises a support assembly, an air cooling structure, a water exchange box body, a water cooling box and a support frame assembly, wherein the support assembly comprises a support bottom plate, a telescopic sliding column and an installation outer frame, the support bottom plate comprises a support bottom plate body, four side wall sliding columns, four hollowed-out sliding cavities and a rotating threaded rod, the four side wall sliding columns are fixedly connected to four corners of the upper end face of the support bottom plate body respectively, the four hollowed-out sliding cavities are arranged at the inner ends of the four side wall sliding columns respectively, and the rotating threaded rod is rotatably connected to the upper ends of the side wall sliding columns; the telescopic sliding column comprises a telescopic outer frame, a telescopic inner end sliding rod and a telescopic connecting rod, wherein the telescopic outer frame comprises a telescopic outer frame body, two inner end bosses, an inner end sliding cavity, a sliding hole and a plurality of clamping grooves; the two inner end bosses are fixedly connected to the left end of the telescopic outer frame body, the inner end sliding cavity is arranged at the middle end of the telescopic outer frame body, the sliding hole is arranged at the right end of the telescopic outer frame body, and the plurality of clamping grooves are uniformly arranged at the front end and the rear end of the inner wall of the inner end sliding cavity; the telescopic inner end slide bar comprises a telescopic inner end slide bar body, four clamps, four inner end sleeve springs and a telescopic inner end sliding cavity; the four clips are connected with the telescopic inner end sliding rod body in a sliding mode, and the four inner end sleeve springs are arranged in the telescopic inner end sliding cavity; the four clips are respectively clamped with the clamping grooves, the sliding rod body at the inner end of the telescopic rod is connected with the sliding hole in a sliding mode, and the telescopic connecting rod is fixedly connected with the sliding rod body at the inner end of the telescopic rod; the two inner end bosses are connected in the hollow sliding cavity in a sliding mode, and the rotary threaded rod is connected with the two inner end bosses through threads; the mounting outer frame comprises a mounting outer frame body, two transverse casing springs, two transverse pushers, two vertical pushers and two vertical casing springs; the mounting outer frame body comprises a body outer frame, two transverse sliding grooves, two transverse limiting blocks, four mounting cavities, two vertical sliding grooves and two vertical limiting blocks; the two transverse chutes are respectively arranged at the left end and the right end of the mounting frame body, the two transverse limiting blocks are respectively arranged at the left end and the right end of the outer wall of the mounting frame body, four mounting cavities are uniformly distributed at four corner edges of the body outer frame, the two vertical chutes are respectively arranged at the front end and the rear end of the body outer frame, the two vertical limiting blocks are respectively arranged at the front end and the rear end of the outer wall of the body outer frame, the two transverse pushers are respectively connected in the two transverse chutes in a sliding manner, the two transverse chutes are respectively sleeved on the two transverse pushers, the two vertical pushers are respectively connected in the two vertical chutes in a sliding manner, and the two vertical; the plurality of telescopic connecting rods are respectively and rotatably connected in the four mounting cavities;

the air cooling structure comprises an air cooling outer frame, a wind power driving rod, a bearing, a first fixed terminal, a middle-end transmission gear, a second fixed terminal, an input motor, a transmission bevel gear, a second transmission belt, a third transmission belt, a first transmission bevel gear, a rotating shaft, a slider connecting rod, a hinged slider, a second hinged rod, a third hinged rod, an input bevel gear, a deflector rod, a transverse bevel gear, a middle-end transmission bevel gear, a second transmission bevel gear, a rotating rod and a middle-end transmission bevel gear; the wind power driving rod is connected with the bearing in an interference fit manner, the bearing is connected with the air cooling outer frame in an interference fit manner, the first fixed terminal is fixedly connected with the air cooling outer frame, the middle-end transmission gear is rotatably connected with the air cooling outer frame, the second fixed terminal is fixedly connected with the air cooling outer frame, the input motor is fixedly connected with the air cooling outer frame, the second transmission belt and the third transmission belt are connected between the rotating rod and the two wind power driving rods, the rotating shaft is rotatably connected with the first fixed terminal and the second fixed terminal, the first transmission bevel gear is rotatably connected with the rotating shaft, the slider is connected with the rotating shaft in a clearance fit manner, the slider connecting rod is hinged with the slider, the hinged slider is hinged with the slider connecting rod, the second hinge rod is hinged with the hinged slider, the third hinge rod is hinged with the second hinge rod, the input bevel gear is rotatably connected with the air cooling outer frame, the deflector rod is, the middle-end transmission bevel gear is meshed with the input bevel gear, the middle-end transmission bevel gear is fixedly connected with the rotating shaft, the transmission bevel gear II is rotatably connected with the rotating shaft, the middle-end transmission gear is meshed with the transmission bevel gear II and the transmission bevel gear I, the air-cooled outer frame is fixedly connected to the upper ends of the four side wall sliding columns, the rotating rod is rotatably connected with the air-cooled outer frame, the middle-end transmission bevel gear is fixedly connected with the rotating rod, and the middle-end transmission bevel gear is meshed with the input bevel gear;

the water exchange box body comprises an exchange box outer frame, a floater connecting rod, a vertical sliding rod, a plurality of limiting connecting rods, a vertical auxiliary rod, an intermittent terminal, a terminal connecting rod, an upper side auxiliary rod, a V-shaped rod, an inner end sliding cavity, an inner end pushing spring, an inner end sliding rod, an inner hinged terminal, two communicating pipes, two communicating cavities, an inner end rectangular cavity, an intermittent terminal pushing spring, a middle end pushing spring and a middle end sliding cavity; the float connecting rod is fixedly connected with the float, the vertical sliding rod is fixedly connected with the float connecting rod, a plurality of limiting connecting rods are hinged between the float and the outer frame of the exchange box, the vertical auxiliary rod is fixedly connected with the float, the lower end of the vertical auxiliary rod is slidably connected with the inner end of the middle-end sliding cavity, the middle-end push spring is arranged at the lower end of the vertical auxiliary rod, the vertical sliding rod is fixedly connected with the terminal connecting rod, the terminal connecting rod is fixedly connected with the intermittent terminal, the intermittent terminal is slidably connected with the inner end rectangular cavity, the upper-side auxiliary rod is hinged with the outer frame of the exchange box, the upper-side auxiliary rod is slidably hinged with the V-shaped rod, the V-shaped rod is hinged with the inner hinged terminal, the inner hinged terminal is slidably connected with the inner-end sliding rod, the inner-end push spring is sleeved with the inner-end sliding rod, the inner-end sliding rod and the inner hinged terminal are all arranged in, the two communicating chambers are communicated with the inner end rectangular chamber, and the two communicating pipes are communicated with the inner end rectangular chamber;

the water cooling tank comprises a water cooling tank outer frame, a stirring blade, an upper side transmission bevel gear I, a middle end shaft, a transmission roller, an input bevel gear, a water cooling tank motor, a thread adjusting rod, a pressing rod assembly, a communicating pipeline, a communicating cavity I and a communicating cavity II; the thread adjusting rod comprises an adjusting rod body, thread bevel teeth, a middle end transmission roller and a rotor; the adjusting rod body is fixedly connected with the thread bevel gear, the rotor is in threaded connection with the adjusting rod body, and the middle-end transfer roller is rotationally connected with the rotor; the pressing rod assembly comprises an assembly outer frame, an upper pressing terminal, a pressing spring, two middle end transmission teeth, a main body rotating rod, a middle end bevel tooth and a lower end bevel tooth; the assembly outer frame is connected with the upper pressing terminal in a sliding mode, the pressing spring is arranged between the upper pressing terminal and the main body rotating rod, the two middle end transmission teeth are connected with the upper pressing terminal in a rotating mode, the middle end bevel teeth are fixedly connected with the main body rotating rod, the lower end bevel teeth are fixedly connected with the main body rotating rod, and the lower end bevel teeth are meshed with the two middle end transmission teeth; the stirring blade is rotatably connected with the water cooling box outer frame, the upper side transmission bevel gear I is fixedly connected with the stirring blade, the upper side transmission bevel gear I is in meshing transmission with the middle end transmission bevel gear I, the middle end transmission bevel gear I is fixedly connected with the middle end shaft, the middle end shaft is rotatably connected with the water cooling box outer frame, the transmission roller is fixedly connected with the middle end shaft, the transmission roller is in meshing transmission with the input bevel gear, the input bevel gear is fixedly connected with an output shaft of a water cooling box motor, the transmission roller is in meshing transmission with the middle end transmission roller, the adjusting rod body is rotatably connected with the water cooling box outer frame, the main body rotating rod is rotatably connected with the water cooling box outer frame, the assembly outer frame is fixedly connected with the water cooling box outer frame, the communicating pipeline is communicated with the communicating cavity I and the two communicating pipes, the communicating cavity I is communicated with the communicating cavity;

the support frame assembly comprises a support frame body, two emergency brake rods, two idler wheels, two middle end rods, two middle measuring springs, two middle measuring chutes, a middle end connecting rod, a middle end push spring, a middle end rectangular chute, a middle end sliding rod, a brake push rod, a push rod connecting rod, a push spring I, a push spring II, a right end chute, an inner end push spring and an inner end rectangular sliding cavity, wherein the two emergency brake rods are both connected with the support frame body in a sliding manner, the two idler wheels are both hinged with the support frame body in a sliding manner, the two middle end rods are respectively hinged between the two emergency brake rods and the middle end connecting rod, the two middle measuring springs are arranged at the upper ends of the inner sides of the two middle measuring chutes, the middle end push spring is arranged in the middle end rectangular chute, the middle end sliding rod is arranged in the middle end rectangular chute, the middle end connecting rod is connected with the middle end sliding rod in a sliding manner, the brake push rod is connected with the right end chute, the brake push rod is connected with the push rod connecting rod in a sliding mode, the push spring II is connected with the push rod connecting rod in a sleeved mode, the left end of the brake push rod is arranged between the push spring I and the push spring II, the push rod connecting rod is connected between the brake push rod and the emergency brake rod in a hinged mode, the outer frame of the water cooling box is fixedly connected with the support frame body, the two inner rectangular sliding cavities are arranged on the left side and the right side of the lower end of the support frame body respectively, the two inner push springs are arranged, and the two inner push springs are arranged.

As a further optimization of the technical solution, in the heat dissipation device of the image processing apparatus, four telescopic connection rods are provided.

As a further optimization of the present technical solution, in the heat dissipation device of an image processing apparatus according to the present invention, the inner end pushing spring is in a compressed state.

As a further optimization of the present technical solution, in the heat dissipation device of an image processing apparatus according to the present invention, the intermittent terminal pushing spring and the middle end pushing spring are both in a compressed state.

The heat dissipation device of the image processing equipment has the beneficial effects that:

according to the heat dissipation device of the image processing equipment, the two inner end bosses can drive the telescopic outer frame body to move up and down along the hollow sliding cavity by rotating the threaded rod and the threaded connection between the two inner end bosses, and the distance between the mounting outer frame and the support bottom plate body can be adjusted by connecting the four telescopic sliding columns and the mounting outer frame; the telescopic connecting rod can conveniently connect the telescopic sliding column with the mounting outer frame; the two clips are pushed to be away from each other through the elasticity of the inner end sleeve spring and are connected with the clamping grooves in a clearance fit manner, so that the positions of the telescopic inner end sliding rods in the inner end sliding cavities are conveniently fixed; the third hinge rod can be conveniently shifted through the shift lever; the input bevel gear rotates to drive the deflector rod to rotate, and when the deflector rod rotates to the left side of the movable hinge rod III, the lower side of the hinge rod III can swing to the right end through the shifting of the deflector rod; when the shifting lever rotates to the right side of the movable hinge rod III, the lower side of the hinge rod III can swing to the left side end through shifting of the shifting lever; the intermittent terminal pushing spring enables the intermittent terminal to be far away from the upper end of the inner end rectangular cavity under the action of elastic force; when water in the communicating pipeline flows into the inner end rectangular cavity from the communicating pipe at the left end and flows out from the communicating pipe at the right end, water flow acts on the intermittent terminal, so that the intermittent terminal moves up and down along the inner end of the inner end rectangular cavity, and the intermittent terminal moves up and down to drive the water flow in the inner end rectangular cavity to exchange heat with the water on the upper side of the inner end of the outer frame of the exchange box through the two communicating cavities; and water in the communicating pipeline flows into the inner end rectangular cavity from the communicating pipe at the left end, flows out through the communicating pipeline at the right end of the inner end rectangular cavity, enters the communicating cavity I and the communicating cavity II, flows out through the lower sides of the communicating cavity I and the communicating cavity II and flows into the communicating pipeline, and water circulation is realized.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of a heat dissipation device of an image processing apparatus according to the present invention;

FIG. 2 is a structural diagram of a bracket assembly of a heat sink of an image processing apparatus according to the present invention;

FIG. 3 is a first schematic view of a bracket bottom plate structure of a heat dissipation device of an image processing apparatus according to the present invention;

FIG. 4 is a second schematic structural diagram of a bracket bottom plate of a heat dissipation device of an image processing apparatus according to the present invention;

FIG. 5 is a schematic view of a telescopic strut of a heat dissipation device of an image processing apparatus according to the present invention;

FIG. 6 is a schematic structural diagram of a telescopic outer frame of a heat dissipation device of an image processing apparatus according to the present invention;

FIG. 7 is a schematic view of a sliding rod structure at the inner end of a heat sink of the image processing apparatus according to the present invention;

FIG. 8 is a schematic view of an installation frame of a heat sink of an image processing apparatus according to the present invention;

FIG. 9 is a schematic structural diagram of a mounting frame body of a heat dissipation device of an image processing apparatus according to the present invention;

FIG. 10 is a first schematic view of an air-cooling structure of a heat dissipation device of an image processing apparatus according to the present invention;

FIG. 11 is a second schematic structural diagram of an air-cooling structure of a heat dissipation device of an image processing apparatus according to the present invention;

FIG. 12 is a third schematic structural diagram of an air-cooling structure of a heat dissipation device of an image processing apparatus according to the present invention;

FIG. 13 is a view showing the entire structure of a heat dissipating device of an image processing apparatus according to the present invention;

FIG. 14 is a first schematic structural view of a water exchange box of a heat sink of an image processing apparatus according to the present invention;

FIG. 15 is a schematic structural diagram of a water exchange box of a heat dissipation device of an image processing apparatus according to the second embodiment of the present invention;

FIG. 16 is a first schematic view of a water cooling tank of a heat dissipation device of an image processing apparatus according to the present invention;

FIG. 17 is a schematic structural view of a water cooling tank of a heat dissipation device of an image processing apparatus according to a second embodiment of the present invention;

FIG. 18 is a schematic view of a push rod assembly of a heat sink of an image processing apparatus according to the present invention;

FIG. 19 is a schematic view of a screw adjustment lever structure of a heat sink of an image processing apparatus according to the present invention;

FIG. 20 is a first schematic view of a supporting frame assembly of a heat dissipating device of an image processing apparatus according to the present invention;

fig. 21 is a second structural schematic diagram of a support frame assembly of a heat dissipation device of an image processing apparatus according to the present invention.

In the figure: a bracket assembly 1; a bracket bottom plate 1-1; a bracket bottom plate body 1-1-1; side wall sliding columns 1-1-2; 1-1-3 of a hollow sliding cavity; rotating the threaded rod 1-1-4; 1-2 of a telescopic sliding column; a telescopic outer frame 1-2-1; a telescopic outer frame body 1-2-1-1; inner end boss 1-2-1-2; inner end sliding cavity 1-2-1-3; 1-2-1-4 of a slide hole; 1-2-1-5 of a clamping groove; a telescopic inner end sliding rod 1-2-2; a sliding rod body 1-2-2-1 at the telescopic inner end; a clip 1-2-2-2; the inner end is sleeved with a spring 1-2-2-3; a sliding cavity 1-2-2-4 at the inner end of the telescopic part; 1-2-3 of a telescopic connecting rod; installing an outer frame 1-3; installing an outer frame body 1-3-1; 1-3-1-1 of the outer frame of the body; a transverse chute 1-3-1-2; a transverse limiting block 1-3-1-3; mounting the cavity 1-3-1-4; 1-3-1-5 of a vertical chute; a vertical limiting block 1-3-1-6 is provided with a transverse sleeve spring 1-3-2; 1-3-3 of a transverse clipper; 1-3-4 of a vertical clipper; 1-3-5 parts of vertical casing spring; an air cooling structure 2; air-cooling the outer frame 2-1; 2-2 of a wind power driving rod; 2-3 of a bearing; a first fixed terminal 2-4; a middle transmission gear 2-5; a second fixed terminal 2-6; inputting a motor 2-7; 2-8 parts of a first transmission belt; 2-9 parts of a second transmission belt; 2-10 parts of a transmission belt III; the first transmission bevel gear is 2-11; 2-12 parts of a rotating shaft; 2-13 parts of a slider; 2-14 of slider connecting rod; 2-15 of hinged slider; two hinge rods 2-16; three hinge rods 2-17; input bevel gears 2-18; 2-19 parts of a deflector rod; 2-20 of belt wheels; 2-21 parts of middle-end transmission bevel gear; 2-22 parts of a second transmission bevel gear; 2-25 of a rotating rod; 2-26 parts of middle-end transmission bevel gear; a water exchange tank 3; an exchange box outer frame 3-1; 3-2 of a floater; 3-3 of a floater connecting rod; 3-4 of a vertical sliding rod; 3-5 of a limiting connecting rod; 3-6 of vertical auxiliary rods; intermittent terminals 3-7; terminal connection bars 3-8; upper auxiliary rods 3-9; 3-10 parts of a V-shaped rod; inner end sliding cavities 3-11; 3-12 parts of inner end push spring; inner end sliding bars 3-13; inner hinged terminals 3-14; communicating pipes 3-15; 3-16 of a communicating cavity; rectangular cavities 3-17 at the inner ends; intermittent terminal push springs 3-18; 3-19 of middle-end push spring; 3-20 parts of a middle sliding cavity; a water cooling tank 4; 4-1 of a water cooling box outer frame; 4-2 parts of stirring blades; the upper side transmission bevel gear I is 4-3; 4-4 parts of a middle-end transmission bevel gear I; 4-5 of a middle end shaft; 4-6 of a driving roller; inputting 4-7 conical teeth; 4-8 parts of a water cooling tank motor; 4-9 parts of a threaded adjusting rod; the adjusting rod body is 4-9-1; 4-9-2 parts of thread bevel gear; a middle transfer roller 4-9-3; 4-9-4 of a rotor; 4-10 parts of a pressing rod assembly; 4-10-1 of the outer frame of the assembly; the upper pressing terminal is 4-10-2; pressing a spring 4-10-3; 4-10-4 parts of middle-end transmission teeth; 4-10-5 of a main body rotating rod; 4-10-6 parts of middle-end bevel gear; 4-10-7 parts of lower end bevel gear; 4-11 of a communication pipeline; the communication cavity I is 4-12; 4-13 parts of a communicating cavity II; a support frame assembly 5; a support frame body 5-1; 5-2 of an emergency brake rod; 5-3 of rollers; 5-4 parts of a middle end rod; 5-5 of a middle measuring spring; 5-6 of a middle measuring chute; 5-7 of a middle connecting rod; 5-8 parts of middle-end push spring; a middle rectangular chute 5-9; 5-10 parts of a middle-end sliding rod; 5-11 parts of a brake push rod; 5-12 parts of push rod connecting rod; 5-13 parts of a first push spring; 5-14 parts of a second push spring; 5-15 of a right-end chute; 5-16 parts of inner end push spring; the inner end is a rectangular sliding cavity 5-17.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the heat dissipation device of the image processing apparatus includes a bracket assembly 1, an air cooling structure 2, a water exchange box 3, a water cooling box 4, a support frame assembly 5, and a shock absorber 6, where the bracket assembly 1 includes a bracket bottom plate 1-1, a telescopic sliding column 1-2, and an installation frame 1-3, the bracket bottom plate 1-1 includes a bracket bottom plate body 1-1-1, four side wall sliding columns 1-1-2, four hollow sliding cavities 1-1-3, and a rotary threaded rod 1-1-4, the four side wall sliding columns 1-1-2 are respectively and fixedly connected to four corners of an upper end surface of the bracket bottom plate body 1-1-1, the four hollow sliding cavities 1-1-3 are respectively arranged at inner ends of the four side wall sliding columns 1-1-2, the rotary threaded rod 1-1-4 is rotatably connected to the upper end of the side wall sliding column 1-1-2; the telescopic sliding column 1-2 comprises a telescopic outer frame 1-2-1, a telescopic inner end sliding rod 1-2-2 and a telescopic connecting rod 1-2-3, wherein the telescopic outer frame 1-2-1 comprises a telescopic outer frame body 1-2-1-1, two inner end bosses 1-2-1-2, an inner end sliding cavity 1-2-1-3, a sliding hole 1-2-1-4 and a plurality of clamping grooves 1-2-1-5; the two inner end bosses 1-2-1-2 are fixedly connected to the left end of the telescopic outer frame body 1-2-1-1, the inner end sliding cavities 1-2-1-3 are arranged at the middle end of the telescopic outer frame body 1-2-1-1, the sliding holes 1-2-1-4 are arranged at the right end of the telescopic outer frame body 1-2-1-1, and the plurality of clamping grooves 1-2-1-5 are uniformly arranged at the front end and the rear end of the inner wall of the inner end sliding cavity 1-2-1-3; the telescopic inner end slide bar 1-2-2 comprises a telescopic inner end slide bar body 1-2-2-1, four clamps 1-2-2, four inner end sleeve springs 1-2-2-3 and a telescopic inner end sliding cavity 1-2-2-4; four clips 1-2-2-2 are connected with the telescopic inner end sliding rod body 1-2-2-1 in a sliding mode, and four inner end sleeved springs 1-2-2-3 are arranged in the telescopic inner end sliding cavity 1-2-2-4; the four clips 1-2-2-2 are respectively clamped with the plurality of clamping grooves 1-2-1-5, the sliding rod body 1-2-2-1 at the inner end of the telescopic rod is in sliding connection with the sliding hole 1-2-1-4, and the telescopic connecting rod 1-2-3 is fixedly connected with the sliding rod body 1-2-2-1 at the inner end of the telescopic rod; the two inner end bosses 1-2-1-2 are connected in the hollow sliding cavity 1-1-3 in a sliding mode, and the rotary threaded rod 1-1-4 is connected with the two inner end bosses 1-2-1-2 through threads; the mounting outer frame 1-3 comprises a mounting outer frame body 1-3-1, two transverse casing springs 1-3-2, two transverse clippers 1-3-3, two vertical clippers 1-3-4 and two vertical casing springs 1-3-5; the mounting outer frame body 1-3-1 comprises a body outer frame 1-3-1-1, two transverse sliding chutes 1-3-1-2, two transverse limiting blocks 1-3-1-3, four mounting cavities 1-3-1-4, two vertical sliding chutes 1-3-1-5 and two vertical limiting blocks 1-3-1-6; two transverse chutes 1-3-1-2 are respectively arranged at the left end and the right end of the installation outer frame body 1-3-1, two transverse limit blocks 1-3-1-3 are respectively arranged at the left end and the right end of the outer wall of the installation outer frame body 1-3-1-1, four installation cavities 1-3-1-4 are uniformly distributed at four corner edges of the body outer frame 1-3-1-1, two vertical chutes 1-3-1-5 are respectively arranged at the front end and the rear end of the body outer frame 1-3-1-1, two vertical limit blocks 1-3-1-6 are respectively arranged at the front end and the rear end of the outer wall of the body outer frame 1-3-1-1, two transverse pushers 1-3-3 are respectively connected in the two transverse chutes 1-3-1-2 in a sliding manner, the two transverse chutes 1-3-1-2 are respectively sleeved on the two transverse pushers 1-3-3, the two vertical pushers 1-3-4 are respectively connected in the two vertical chutes 1-3-1-5 in a sliding manner, and the two vertical sleeve springs 1-3-5 are respectively sleeved on the two vertical pushers 1-3-4; a plurality of telescopic connecting rods 1-2-3 are respectively and rotatably connected in the four mounting cavities 1-3-1-4;

the threaded rod 1-1-4 is connected with the two inner end bosses 1-2-1-2 through threads, so that the two inner end bosses 1-2-1-2 drive the telescopic outer frame body 1-2-1-1 to move up and down along the hollow sliding cavity 1-1-3, and the distance between the mounting outer frame 1-3 and the support bottom plate body 1-1-1 can be adjusted through the connection between the four telescopic sliding columns 1-2 and the mounting outer frame 1-3; the telescopic connecting rod 1-2-3 can be conveniently connected with the telescopic sliding column 1-2 and the mounting outer frame 1-3; the two clips 1-2-2-2 are pushed to be away from each other through the elasticity of the inner end sleeve spring 1-2-2-3, and the position of the telescopic inner end slide bar 1-2-2 in the inner end sliding cavity 1-2-1-3 is conveniently fixed through the clearance fit connection between the clips 1-2-2-2 and the clamping grooves 1-2-1-5;

the air cooling structure 2 comprises an air cooling outer frame 2-1, a wind power driving rod 2-2, a bearing 2-3, a first fixed terminal 2-4, a middle-end transmission gear 2-5, a second fixed terminal 2-6, an input motor 2-7, a transmission bevel gear 2-8, a second transmission belt 2-9, a third transmission belt 2-10, a first transmission bevel gear 2-11, a rotating shaft 2-12, a slider 2-13, a slider connecting rod 2-14, a hinged slider 2-15, a second hinged rod 2-16, a third hinged rod 2-17, an input bevel gear 2-18, a deflector rod 2-19, a transverse bevel gear 2-20, a middle-end transmission bevel gear 2-21, a second transmission bevel gear 2-22, a rotating rod 2-25 and a middle-end transmission bevel gear 2-26; the wind power driving rod 2-2 is connected with the bearing 2-3 in an interference fit manner, the bearing 2-3 is connected with the air-cooled outer frame 2-1 in an interference fit manner, the fixed terminal I2-4 is fixedly connected with the air-cooled outer frame 2-1, the middle-end transmission gear 2-5 is rotatably connected with the air-cooled outer frame 2-1, the fixed terminal II 2-6 is fixedly connected with the air-cooled outer frame 2-1, the input motor 2-7 is fixedly connected with the air-cooled outer frame 2-1, the transmission belt II 2-9 and the transmission belt III 2-10 are connected between the rotating rod 2-25 and the two wind power driving rods 2-2, the rotating shaft 2-12 is rotatably connected with the fixed terminal I2-4 and the fixed terminal II 2-6, the transmission conical tooth I2-11 is rotatably connected with the rotating shaft 2-12, and the slider 2-13 is, the connecting rod 2-14 of the sliding block is hinged with the sliding block 2-13, the hinged sliding block 2-15 is hinged with the connecting rod 2-14 of the sliding block, the hinged rod two 2-16 is hinged with the hinged sliding block 2-15, the hinged rod three 2-17 is hinged with the hinged rod two 2-16, the input bevel gear 2-18 is rotatably connected with the air cooling outer frame 2-1, the deflector rod 2-19 is fixedly connected with the input bevel gear 2-18, the transverse bevel gear 2-20 is fixedly connected with the middle end transmission gear 2-5, the transmission bevel gear 2-8 is in meshing transmission with the transverse bevel gear 2-20, the middle end transmission bevel gear 2-21 is meshed with the input bevel gear 2-18, the middle end transmission bevel gear 2-21 is fixedly connected with the rotating shaft 2-12, the transmission bevel gear two 2-22 is rotatably connected with the rotating shaft 2-12, the middle end transmission gear 2-5 is meshed with the transmission bevel gear two 2-22 and the transmission bevel gear one 2-11 An air-cooled outer frame 2-1 is fixedly connected to the upper ends of four side wall sliding columns 1-1-2, a rotating rod 2-25 is rotatably connected with the air-cooled outer frame 2-1, a middle-end transmission bevel gear 2-26 is fixedly connected with the rotating rod 2-25, and the middle-end transmission bevel gear 2-26 is meshed with an input bevel gear 2-18;

the third hinged rod 2-17 can be conveniently pulled through the pulling rod 2-19; the input bevel gears 2-18 rotate to drive the deflector rods 2-19 to rotate, and when the deflector rods 2-19 rotate to the left side of the movable hinge rods three 2-17, the lower sides of the hinge rods three 2-17 can swing to the right end through the shifting of the deflector rods 2-19; when the deflector rod 2-19 rotates to the right side of the movable hinge rod three 2-17, the lower side of the hinge rod three 2-17 can swing to the left side end by the poking of the deflector rod 2-19;

the water exchange box body 3 comprises an exchange box outer frame 3-1, a floater 3-2, a floater connecting rod 3-3, a vertical sliding rod 3-4, a plurality of limiting connecting rods 3-5, vertical auxiliary rods 3-6, intermittent terminals 3-7, terminal connecting rods 3-8, upper auxiliary rods 3-9, V-shaped rods 3-10, inner end sliding cavities 3-11, inner end push springs 3-12, inner end sliding rods 3-13, inner hinged terminals 3-14, two communicating pipes 3-15, two communicating cavities 3-16, inner end rectangular cavities 3-17, intermittent terminal push springs 3-18, middle end push springs 3-19 and middle end sliding cavities 3-20; a float connecting rod 3-3 is fixedly connected with a float 3-2, a vertical sliding rod 3-4 is fixedly connected with the float connecting rod 3-3, a plurality of limit connecting rods 3-5 are all hinged between the float 3-2 and an exchange box outer frame 3-1, a vertical auxiliary rod 3-6 is fixedly connected with the float 3-2, the lower end of the vertical auxiliary rod 3-6 is slidably connected with the inner end of a middle-end sliding cavity 3-20, a middle-end push spring 3-19 is arranged at the lower end of the vertical auxiliary rod 3-6, the vertical sliding rod 3-4 is fixedly connected with a terminal connecting rod 3-8, the terminal connecting rod 3-8 is fixedly connected with an intermittent terminal 3-7, the intermittent terminal 3-7 is slidably connected with an inner-end rectangular cavity 3-17, an upper auxiliary rod 3-9 is hinged with the exchange box outer frame 3-1, the upper auxiliary rod 3-9 is hinged with a V-shaped rod 3-10 in a sliding mode, the V-shaped rod 3-10 is hinged with an inner hinged terminal 3-14, the inner hinged terminal 3-14 is connected with an inner end sliding rod 3-13 in a sliding mode, an inner end push spring 3-12 is sleeved with the inner end sliding rod 3-13, the inner end push spring 3-12, the inner end sliding rod 3-13 and the inner hinged terminal 3-14 are all arranged in an inner end sliding cavity 3-11, the upper end of the vertical auxiliary rod 3-6 is hinged with the V-shaped rod 3-10 in a sliding mode, an intermittent terminal push spring 3-18 is sleeved with the vertical sliding rod 3-4, two communicating cavities 3-16 are communicated with inner end rectangular cavities 3-17, and two communicating pipes 3-15 are communicated with the inner end rectangular cavities 3-17;

the intermittent terminal push springs 3-18 enable the intermittent terminals 3-7 to be far away from the upper ends of the inner end rectangular cavities 3-17 under the action of elastic force; when water in the communicating pipeline 4-11 flows into the inner end rectangular cavity 3-17 from the communicating pipe 3-15 at the left end and flows out from the communicating pipe 3-15 at the right end, water flow acts on the intermittent terminal 3-7, so that the intermittent terminal 3-7 moves up and down along the inner end of the inner end rectangular cavity 3-17, and the intermittent terminal 3-7 moves up and down to drive the water flow in the inner end rectangular cavity 3-17 to exchange heat with water on the upper side of the inner end of the exchange box outer frame 3-1 through the two communicating cavities 3-16;

the water cooling tank 4 comprises a water cooling tank outer frame 4-1, a stirring blade 4-2, an upper side transmission bevel gear I4-3, a middle end transmission bevel gear I4-4, a middle end shaft 4-5, a transmission roller 4-6, an input bevel gear 4-7, a water cooling tank motor 4-8, a thread adjusting rod 4-9, a pressing rod assembly 4-10, a communicating pipeline 4-11, a communicating cavity I4-12 and a communicating cavity II 4-13; the thread adjusting rod 4-9 comprises an adjusting rod body 4-9-1, thread bevel teeth 4-9-2, a middle end transmission roller 4-9-3 and a rotor 4-9-4; the adjusting rod body 4-9-1 is fixedly connected with the thread bevel gear 4-9-2, the rotor 4-9-4 is in threaded connection with the adjusting rod body 4-9-1, and the middle-end transfer roller 4-9-3 is in rotational connection with the rotor 4-9-4; the pressing rod assembly 4-10 comprises an assembly outer frame 4-10-1, an upper pressing terminal 4-10-2, a pressing spring 4-10-3, two middle end transmission teeth 4-10-4, a main body rotating rod 4-10-5, middle end bevel teeth 4-10-6 and lower end bevel teeth 4-10-7; the assembly outer frame 4-10-1 is connected with the upper side pressing terminal 4-10-2 in a sliding mode, the pressing spring 4-10-3 is arranged between the upper side pressing terminal 4-10-2 and the main body rotating rod 4-10-5, the two middle end transmission teeth 4-10-4 are connected with the upper side pressing terminal 4-10-2 in a rotating mode, the middle end bevel teeth 4-10-6 are fixedly connected with the main body rotating rod 4-10-5, the lower end bevel teeth 4-10-7 are fixedly connected with the main body rotating rod 4-10-5, and the lower end bevel teeth 4-10-7 are meshed with the two middle end transmission teeth 4-10-4; the stirring blade 4-2 is rotationally connected with a water cooling box outer frame 4-1, an upper side transmission bevel gear I4-3 is fixedly connected with the stirring blade 4-2, the upper side transmission bevel gear I4-3 is in meshing transmission with a middle end transmission bevel gear I4-4, a middle end transmission bevel gear I4-4 is fixedly connected with a middle end shaft 4-5, the middle end shaft 4-5 is rotationally connected with the water cooling box outer frame 4-1, a transmission roller 4-6 is fixedly connected with the middle end shaft 4-5, a transmission roller 4-6 is in meshing transmission with an input bevel gear 4-7, an input bevel gear 4-7 is fixedly connected with an output shaft of a water cooling box motor 4-8, a transmission roller 4-6 is in meshing transmission with a middle end transmission roller 4-9-3, and an adjusting rod body 4-9-1 is rotationally connected with the water cooling box outer frame 4-1, the main body rotating rod 4-10-5 is rotatably connected with the water cooling tank outer frame 4-1, the assembly outer frame 4-10-1 is fixedly connected with the water cooling tank outer frame 4-1, the communicating pipeline 4-11 is communicated with the communicating cavity I4-12 and the two communicating pipes 3-15, the communicating cavity I4-12 is communicated with the communicating cavity II 4-13, and the support bottom plate body 1-1-1 is fixedly connected with the water cooling tank outer frame 4-1;

the water in the communicating pipeline 4-11 flows into the inner end rectangular cavity 3-17 from the communicating pipe 3-15 at the left end, flows out through the communicating pipeline 4-11 at the right end of the inner end rectangular cavity 3-17, enters the communicating cavity I4-12 and the communicating cavity II 4-13, flows out through the lower sides of the communicating cavity I4-12 and the communicating cavity II 4-13 and flows into the communicating pipeline 4-11, and then water circulation is realized;

the support frame assembly 5 comprises a support frame body 5-1, two emergency brake rods 5-2, two idler wheels 5-3, two middle end rods 5-4, two middle measuring springs 5-5, two middle measuring chutes 5-6, a middle end connecting rod 5-7, a middle end push spring 5-8, a middle end rectangular chute 5-9, a middle end sliding rod 5-10, a brake push rod 5-11, a push rod connecting rod 5-12, a push spring I5-13, a push spring II 5-14, a right end chute 5-15, an inner end push spring 5-16 and an inner end rectangular sliding cavity 5-17, wherein the two emergency brake rods 5-2 are both in sliding connection with the support frame body 5-1, the two idler wheels 5-3 are both in sliding hinge connection with the support frame body 5-1, the two middle end rods 5-4 are respectively in hinge connection between the two emergency brake rods 5-2 and the middle end connecting rod 5-7, two middle measuring springs 5-5 are arranged at the upper ends of the inner sides of two middle measuring chutes 5-6, a middle end push spring 5-8 is arranged in a middle end rectangular chute 5-9, a middle end slide bar 5-10 is arranged in a middle end rectangular chute 5-9, a middle end connecting bar 5-7 is in sliding connection with the middle end slide bar 5-10, a brake push rod 5-11 is in sliding connection with a right end slide groove 5-15, a push rod connecting bar 5-12, a push spring I5-13 and a push spring II 5-14 are all arranged in the right end slide groove 5-15, a brake push rod 5-11 is in sliding connection with the push rod connecting bar 5-12, the push spring II 5-14 is in sleeve connection with the push rod connecting bar 5-12, the left end of the brake push rod 5-11 is arranged between the push spring I5-13 and the push spring II 5-14, the push rod connecting bar 5-12 is hinged between the brake push rod 5-11 and an emergency, the water cooling box outer frame 4-1 is fixedly connected with the support frame body 5-1, two inner rectangular sliding cavities 5-17 are arranged, the two inner rectangular sliding cavities 5-17 are respectively arranged at the left side and the right side of the lower end of the support frame body 5-1, two inner pushing springs 5-16 are arranged, and the two inner pushing springs 5-16 are respectively arranged at the inner ends of the two inner rectangular sliding cavities 5-17.

The second embodiment is as follows:

the following describes the embodiment with reference to fig. 1 to 21, and the embodiment further describes the first embodiment, four telescopic connecting rods 1-2-3 are provided, and the four telescopic connecting rods 1-2-3 can conveniently improve the stability of the installation frame 1-3.

The third concrete implementation mode:

this embodiment will be described with reference to fig. 1 to 21, and this embodiment will further describe the first embodiment in which the inner end push springs 5 to 16 are in a compressed state.

The fourth concrete implementation mode:

the present embodiment will be described with reference to fig. 1 to 21, and the present embodiment will further describe the first embodiment in which the intermittent terminal push springs 3 to 18 and the middle end push springs 3 to 19 are all in a compressed state.

The invention relates to a heat dissipation device of image processing equipment, which has the working principle that:

when the device is used, the image processing device is placed between the two transverse pushers 1-3-3 and the two vertical pushers 1-3-4, the two transverse pushers 1-3-3 and the two vertical pushers 1-3-4 move in opposite directions, the transverse sleeve springs 1-3-2 and the vertical sleeve springs 1-3-5 are compressed, and the two transverse pushers 1-3-3 and the two vertical pushers 1-3-4 are pressed together with the image processing device under the elastic action of the vertical sleeve springs 1-3-5 and the transverse sleeve springs 1-3-2, so that the image processing device is fixed; the threaded rod 1-1-4 is rotated manually, the threaded rod 1-1-4 is rotated by rotating the threaded rod 1-1-4 to be in threaded connection with the two inner end bosses 1-2-1-2, so that the two inner end bosses 1-2-1-2 drive the telescopic outer frame body 1-2-1-1 to move up and down along the hollow sliding cavity 1-1-3, and the distance between the mounting outer frame 1-3 and the support bottom plate body 1-1-1 can be adjusted by connecting the four telescopic sliding columns 1-2 and the mounting outer frame 1-3; the telescopic connecting rod 1-2-3 can be conveniently connected with the telescopic sliding column 1-2 and the mounting outer frame 1-3; the two clips 1-2-2-2 are pushed to be away from each other through the elasticity of the inner end sleeve spring 1-2-2-3, and the position of the telescopic inner end slide bar 1-2-2 in the inner end sliding cavity 1-2-1-3 is conveniently fixed through the clearance fit connection between the clips 1-2-2-2 and the clamping grooves 1-2-1-5; the water cooling box motor 4-8 is started at the same time, the water cooling box motor 4-8 rotates to drive the input bevel gear 4-7 to rotate, the middle end shaft 4-5 is driven to rotate through the meshing between the input bevel gear 4-7 and the transmission roller 4-6, the stirring blade 4-2 is driven to rotate through the meshing transmission between the middle end transmission bevel gear 4-4 and the upper side transmission bevel gear 4-3, so that the water in the communication cavity I4-12 and the communication cavity II 4-13 flows into the communication pipeline 4-11, the water in the communication pipeline 4-11 flows into the inner end rectangular cavity 3-17 from the communication pipe 3-15 at the left end, and flows out into the communication cavity I4-12 and the communication cavity II 4-13 through the communication pipeline 4-11 at the right end of the inner end rectangular cavity 3-17, the water flows out through the lower sides of the first communicating cavity 4-12 and the second communicating cavity 4-13 and flows into the communicating pipeline 4-11, and therefore water circulation is achieved; the water in the communication pipeline 4-11 flows to take away heat in the image processing equipment, and the intermittent terminal push spring 3-18 enables the intermittent terminal 3-7 to be far away from the upper end of the inner end rectangular cavity 3-17 under the action of elastic force; when water in the communicating pipeline 4-11 flows into the inner end rectangular cavity 3-17 from the communicating pipe 3-15 at the left end and flows out from the communicating pipe 3-15 at the right end, water flow acts on the intermittent terminal 3-7, so that the intermittent terminal 3-7 moves up and down along the inner end of the inner end rectangular cavity 3-17, and the intermittent terminal 3-7 moves up and down to drive the water flow in the inner end rectangular cavity 3-17 to exchange heat with water on the upper side of the inner end of the exchange box outer frame 3-1 through the two communicating cavities 3-16; the supporting frame body 5-1 is pushed manually, so that the roller 5-3 on the supporting frame body 5-1 rolls on the ground, and the use position of the device is convenient to adjust.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. The utility model provides an image processing equipment's heat abstractor, includes support assembly (1), air-cooled structure (2), water exchange box (3), water-cooled tank (4) and support frame assembly (5), its characterized in that: the support assembly (1) comprises a support bottom plate (1-1), a telescopic sliding column (1-2) and an installation outer frame (1-3), the support bottom plate (1-1) comprises a support bottom plate body (1-1-1), the support comprises four side wall sliding columns (1-1-2), four hollowed sliding cavities (1-1-3) and a rotating threaded rod (1-1-4), wherein the four side wall sliding columns (1-1-2) are respectively and fixedly connected to four corners of the upper end face of a support bottom plate body (1-1-1), the four hollowed sliding cavities (1-1-3) are respectively arranged at the inner ends of the four side wall sliding columns (1-1-2), and the rotating threaded rod (1-1-4) is rotatably connected to the upper ends of the side wall sliding columns (1-1-2); the telescopic sliding column (1-2) comprises a telescopic outer frame (1-2-1), a telescopic inner end sliding rod (1-2-2) and a telescopic connecting rod (1-2-3), wherein the telescopic outer frame (1-2-1) comprises a telescopic outer frame body (1-2-1-1), two inner end bosses (1-2-1-2), an inner end sliding cavity (1-2-1-3), a sliding hole (1-2-1-4) and a plurality of clamping grooves (1-2-1-5); the two inner end bosses (1-2-1-2) are fixedly connected to the left end of the telescopic outer frame body (1-2-1-1), the inner end sliding cavities (1-2-1-3) are arranged at the middle end of the telescopic outer frame body (1-2-1-1), the sliding holes (1-2-1-4) are arranged at the right end of the telescopic outer frame body (1-2-1-1), and the clamping grooves (1-2-1-5) are uniformly arranged at the front end and the rear end of the inner wall of the inner end sliding cavity (1-2-1-3); the telescopic inner end sliding rod (1-2-2) comprises a telescopic inner end sliding rod body (1-2-2-1), four clamps (1-2-2-2), four inner end sleeve springs (1-2-2-3) and a telescopic inner end sliding cavity (1-2-2-4); four clips (1-2-2-2) are connected with the telescopic inner end sliding rod body (1-2-2-1) in a sliding manner, and four inner end sleeve springs (1-2-2-3) are arranged in the telescopic inner end sliding cavity (1-2-2-4); the four clips (1-2-2-2) are respectively clamped with the clamping grooves (1-2-1-5), the slide bar body (1-2-2-1) at the inner end of the telescopic rod is in sliding connection with the slide hole (1-2-1-4), and the telescopic connecting rod (1-2-3) is fixedly connected with the slide bar body (1-2-2-1) at the inner end of the telescopic rod; the two inner end bosses (1-2-1-2) are connected in the hollow sliding cavity (1-1-3) in a sliding manner, and the rotary threaded rod (1-1-4) is connected with the two inner end bosses (1-2-1-2) through threads; the mounting outer frame (1-3) comprises a mounting outer frame body (1-3-1), two transverse casing springs (1-3-2), two transverse pushers (1-3-3), two vertical pushers (1-3-4) and two vertical casing springs (1-3-5); the mounting outer frame body (1-3-1) comprises a body outer frame (1-3-1-1), two transverse sliding chutes (1-3-1-2), two transverse limiting blocks (1-3-1-3), four mounting cavities (1-3-1-4), two vertical sliding chutes (1-3-1-5) and two vertical limiting blocks (1-3-1-6); two transverse chutes (1-3-1-2) are respectively arranged at the left end and the right end of the installation frame body (1-3-1), two transverse limit blocks (1-3-1-3) are respectively arranged at the left end and the right end of the outer wall of the installation frame body (1-3-1), four installation cavities (1-3-1-4) are uniformly distributed at four corner edges of the body frame (1-3-1-1), two vertical chutes (1-3-1-5) are respectively arranged at the front end and the rear end of the body frame (1-3-1-1), two vertical limit blocks (1-3-1-6) are respectively arranged at the front end and the rear end of the outer wall of the body frame (1-3-1-1), and two transverse pushers (1-3-3) are respectively connected with the two transverse chutes (1-1) 3-1-2), two transverse chutes (1-3-1-2) are respectively sleeved on two transverse pushers (1-3-3), two vertical pushers (1-3-4) are respectively connected in two vertical chutes (1-3-1-5) in a sliding manner, and two vertical sleeve springs (1-3-5) are respectively sleeved on the two vertical pushers (1-3-4); a plurality of telescopic connecting rods (1-2-3) are respectively and rotatably connected in the four mounting cavities (1-3-1-4);

the air cooling structure (2) comprises an air cooling outer frame (2-1), a wind power driving rod (2-2), a bearing (2-3), a first fixed terminal (2-4), a middle-end transmission gear (2-5), a second fixed terminal (2-6), an input motor (2-7), transmission bevel teeth (2-8), a second transmission belt (2-9), a third transmission belt (2-10), a first transmission bevel tooth (2-11), a rotating shaft (2-12), a slider (2-13), a slider connecting rod (2-14), a hinged slider (2-15), a second hinged rod (2-16), a third hinged rod (2-17), input bevel teeth (2-18), a driving rod (2-19), transverse bevel teeth (2-20), a middle-end transmission bevel tooth (2-21), A second transmission bevel gear (2-22), a rotating rod (2-25) and a middle-end transmission bevel gear (2-26); the wind power driving rod (2-2) is connected with the bearing (2-3) in an interference fit manner, the bearing (2-3) is connected with the air-cooled outer frame (2-1) in an interference fit manner, the fixed terminal I (2-4) is fixedly connected with the air-cooled outer frame (2-1), the middle-end transmission gear (2-5) is rotatably connected with the air-cooled outer frame (2-1), the fixed terminal II (2-6) is fixedly connected with the air-cooled outer frame (2-1), the input motor (2-7) is fixedly connected with the air-cooled outer frame (2-1), the transmission belt II (2-9) and the transmission belt III (2-10) are connected between the rotating rod (2-25) and the two wind power driving rods (2-2), and the rotating shaft (2-12) is rotatably connected with the fixed terminal I (2-4) and the fixed terminal II (2-6), the transmission bevel gear I (2-11) is rotationally connected with the rotating shaft (2-12), the slider (2-13) is in clearance fit connection with the rotating shaft (2-12), the slider connecting rod (2-14) is hinged with the slider (2-13), the hinged slider (2-15) is hinged with the slider connecting rod (2-14), the hinged rod II (2-16) is hinged with the hinged slider (2-15), the hinged rod III (2-17) is hinged with the hinged rod II (2-16), the input bevel gear (2-18) is rotationally connected with the air-cooled outer frame (2-1), the deflector rod (2-19) is fixedly connected with the input bevel gear (2-18), the transverse bevel gear (2-20) is fixedly connected with the middle-end transmission gear (2-5), the transmission bevel gear (2-8) is engaged with the transverse bevel gear (2-20), the middle-end transmission bevel gear (2-21) is meshed with the input bevel gear (2-18), the middle-end transmission bevel gear (2-21) is fixedly connected with the rotating shaft (2-12), the transmission bevel gear II (2-22) is rotationally connected with the rotating shaft (2-12), the middle-end transmission gear (2-5) is meshed with the transmission bevel gear II (2-22) and the transmission bevel gear I (2-11), the air-cooled outer frame (2-1) is fixedly connected to the upper ends of the four side wall sliding columns (1-1-2), the rotating rod (2-25) is rotationally connected with the air-cooled outer frame (2-1), the middle-end transmission bevel gear (2-26) is fixedly connected with the rotating rod (2-25), and the middle-end transmission bevel gear (2-26) is meshed with the input bevel gear (2-18);

the water exchange box body (3) comprises an exchange box outer frame (3-1), a floater (3-2), a floater connecting rod (3-3), a vertical sliding rod (3-4), a plurality of limiting connecting rods (3-5), a vertical auxiliary rod (3-6), an intermittent terminal (3-7), a terminal connecting rod (3-8), an upper auxiliary rod (3-9) and a V-shaped rod (3-10), the device comprises inner end sliding cavities (3-11), inner end push springs (3-12), inner end sliding rods (3-13), inner hinged terminals (3-14), two communicating pipes (3-15), two communicating cavities (3-16), inner end rectangular cavities (3-17), intermittent terminal push springs (3-18), middle end push springs (3-19) and middle end sliding cavities (3-20); the float connecting rod (3-3) is fixedly connected with the float (3-2), the vertical sliding rod (3-4) is fixedly connected with the float connecting rod (3-3), the limit connecting rods (3-5) are all hinged between the float (3-2) and the exchange box outer frame (3-1), the vertical auxiliary rod (3-6) is fixedly connected with the float (3-2), the lower end of the vertical auxiliary rod (3-6) is slidably connected with the inner end of the middle-end sliding cavity (3-20), the middle-end push spring (3-19) is arranged at the lower end of the vertical auxiliary rod (3-6), the vertical sliding rod (3-4) is fixedly connected with the terminal connecting rod (3-8), the terminal connecting rod (3-8) is fixedly connected with the intermittent terminal (3-7), the intermittent terminal (3-7) is slidably connected with the inner-end rectangular cavity (3-17), the upper side auxiliary rod (3-9) is hinged with an exchange box outer frame (3-1), the upper side auxiliary rod (3-9) is hinged with a V-shaped rod (3-10) in a sliding manner, the V-shaped rod (3-10) is hinged with an inner hinged terminal (3-14), the inner hinged terminal (3-14) is connected with an inner end sliding rod (3-13) in a sliding manner, an inner end push spring (3-12) is sleeved with the inner end sliding rod (3-13), the inner end push spring (3-12), the inner end sliding rod (3-13) and the inner hinged terminal (3-14) are all arranged in an inner end sliding cavity (3-11), the upper end of a vertical auxiliary rod (3-6) is hinged with the V-shaped rod (3-10) in a sliding manner, an intermittent terminal push spring (3-18) is sleeved with a vertical sliding rod (3-4), two communicating cavities (3-16) are communicated with inner end rectangular cavities (3-17), the two communicating pipes (3-15) are communicated with the inner end rectangular cavities (3-17);

the water cooling box (4) comprises a water cooling box outer frame (4-1), a stirring blade (4-2), an upper side transmission bevel gear I (4-3), a middle end transmission bevel gear I (4-4), a middle end shaft (4-5), a transmission roller (4-6), an input bevel gear (4-7), a water cooling box motor (4-8), a threaded adjusting rod (4-9), a pressing rod assembly (4-10), a communicating pipeline (4-11), a communicating cavity I (4-12) and a communicating cavity II (4-13); the thread adjusting rod (4-9) comprises an adjusting rod body (4-9-1), thread bevel teeth (4-9-2), a middle end transfer roller (4-9-3) and a rotor (4-9-4); the adjusting rod body (4-9-1) is fixedly connected with the thread bevel gear (4-9-2), the rotor (4-9-4) is in threaded connection with the adjusting rod body (4-9-1), and the middle-end transfer roller (4-9-3) is in rotary connection with the rotor (4-9-4); the pressing rod assembly (4-10) comprises an assembly outer frame (4-10-1), an upper pressing terminal (4-10-2), a pressing spring (4-10-3), two middle-end transmission teeth (4-10-4), a main body rotating rod (4-10-5), middle-end bevel teeth (4-10-6) and lower-end bevel teeth (4-10-7); the combination body outer frame (4-10-1) is connected with the upper side pressing terminal (4-10-2) in a sliding mode, the pressing spring (4-10-3) is arranged between the upper side pressing terminal (4-10-2) and the main body rotating rod (4-10-5), two middle end transmission teeth (4-10-4) are rotatably connected with the upper side pressing terminal (4-10-2), middle end conical teeth (4-10-6) are fixedly connected with the main body rotating rod (4-10-5), lower end conical teeth (4-10-7) are fixedly connected with the main body rotating rod (4-10-5), and lower end conical teeth (4-10-7) are meshed with the two middle end transmission teeth (4-10-4); the stirring blade (4-2) is rotationally connected with a water cooling box outer frame (4-1), an upper side transmission bevel gear I (4-3) is fixedly connected with the stirring blade (4-2), the upper side transmission bevel gear I (4-3) is in meshing transmission with a middle end transmission bevel gear I (4-4), the middle end transmission bevel gear I (4-4) is fixedly connected with a middle end shaft (4-5), the middle end shaft (4-5) is rotationally connected with the water cooling box outer frame (4-1), a transmission roller (4-6) is fixedly connected with the middle end shaft (4-5), the transmission roller (4-6) is in meshing transmission with an input bevel gear (4-7), the input bevel gear (4-7) is fixedly connected with an output shaft of a water cooling box motor (4-8), the transmission roller (4-6) is in meshing transmission with a middle end transmission roller (4-9-3), the adjusting rod body (4-9-1) is rotatably connected with the water cooling box outer frame (4-1), the main body rotating rod (4-10-5) is rotatably connected with the water cooling box outer frame (4-1), the assembly outer frame (4-10-1) is fixedly connected with the water cooling box outer frame (4-1), the communicating pipeline (4-11) is communicated with the communicating cavity I (4-12) and the two communicating pipes (3-15), the communicating cavity I (4-12) is communicated with the communicating cavity II (4-13), and the bracket bottom plate body (1-1-1) is fixedly connected with the water cooling box outer frame (4-1);

the support frame assembly (5) comprises a support frame body (5-1), two emergency brake rods (5-2), two idler wheels (5-3), two middle end rods (5-4), two middle measuring springs (5-5), two middle measuring chutes (5-6), a middle end connecting rod (5-7), a middle end push spring (5-8), a middle end rectangular chute (5-9), a middle end sliding rod (5-10), a brake push rod (5-11), a push rod connecting rod (5-12), a push spring I (5-13), a push spring II (5-14), a right end chute (5-15), an inner end push spring (5-16) and an inner end rectangular sliding cavity (5-17), wherein the two emergency brake rods (5-2) are both in sliding connection with the support frame body (5-1), the two rollers (5-3) are both hinged with the support frame body (5-1) in a sliding manner, the two middle end rods (5-4) are respectively hinged between the two emergency brake rods (5-2) and the middle end connecting rod (5-7), the two middle measuring springs (5-5) are arranged at the upper ends of the inner sides of the two middle measuring chutes (5-6), the middle end push spring (5-8) is arranged in the middle end rectangular chute (5-9), the middle end sliding rod (5-10) is arranged in the middle end rectangular chute (5-9), the middle end connecting rod (5-7) is connected with the middle end sliding rod (5-10) in a sliding manner, the brake push rod (5-11) is connected with the right end chute (5-15) in a sliding manner, the push rod connecting rod (5-12), the push spring I (5-13) and the push spring II (5-14) are all arranged in the right end chute (5-15), the brake push rod (5-11) is connected with the push rod connecting rod (5-12) in a sliding mode, the push spring II (5-14) is connected with the push rod connecting rod (5-12) in a sleeved mode, the left end of the brake push rod (5-11) is arranged between the push spring I (5-13) and the push spring II (5-14), the push rod connecting rod (5-12) is connected between the brake push rod (5-11) and the emergency brake rod (5-2) in a hinged mode, the outer frame (4-1) of the water cooling box is fixedly connected with the support frame body (5-1), two inner end rectangular sliding cavities (5-17) are arranged, the two inner end rectangular sliding cavities (5-17) are arranged on the left side and the right side of the lower end of the support frame body (5-1) respectively, two inner end push springs (5-16) are arranged, and the two inner end push springs (5-16) are arranged at the inner ends of.

2. The heat dissipating device of an image processing apparatus according to claim 1, wherein: four telescopic connecting rods (1-2-3) are arranged.

3. The heat dissipating device of an image processing apparatus according to claim 1, wherein: the inner end push springs (5-16) are in a compressed state.

4. The heat dissipating device of an image processing apparatus according to claim 1, wherein: the intermittent terminal push springs (3-18) and the middle end push springs (3-19) are in a compressed state.

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