CN113294944A - Condenser - Google Patents

Abstract

The invention relates to a condenser, comprising a bottom plate, a condensation module, a heat dissipation module and a water cooling module, wherein the condensation module is arranged on the bottom plate, and the heat dissipation module and the water cooling module are arranged on the condensation module; secondly, the existing condenser has no quick heat dissipation mode, so that the heat dissipation efficiency of the condenser is low, and the use of the condenser is influenced.

Description

Condenser

Technical Field

The invention relates to the technical field of heat exchanger equipment, in particular to a condenser.

Background

A condenser, a component of a refrigeration system, belongs to a heat exchanger, and can convert gas or vapor into liquid to transfer heat in a tube to air near the tube in a quick mode. The working process of the condenser is a heat release process, so the temperature of the condenser is high, the necessity of the condenser is based on a second law of thermodynamics, according to the second law of thermodynamics, the spontaneous flowing direction of heat energy in a closed system is unidirectional, namely, the heat energy can only flow from high heat to low heat, microscopic particles bearing the heat energy can only change from order to disorder in the microscopic world, and the speed of the heat dissipation efficiency of steam is one of important standards for testing the condenser.

However, the existing condenser has the following problems in the process of radiating steam, namely, a radiating fin is mostly added on a conveying pipeline in the traditional condenser, and because the contact area between the radiating fin and air is not changed, the radiating efficiency of the radiating fin on the conveying pipeline cannot be changed, and the radiating efficiency on the conveying pipeline cannot be adjusted; secondly, the existing condenser has no quick heat dissipation mode, so that the heat dissipation efficiency of the condenser is low, and the use of the condenser is influenced.

Disclosure of Invention

Technical problem to be solved

The condenser provided by the invention can solve the problems of the condenser in the process of radiating steam.

(II) technical scheme

In order to achieve the purpose, the invention adopts the following technical scheme that the condenser comprises a bottom plate, a condensation module, a heat dissipation module and a water cooling module, wherein the condensation module is installed on the bottom plate, and the heat dissipation module and the water cooling module are installed on the condensation module.

Condensation module include U template, baffle, conveyer pipe and heating panel, the bottom plate on install the U template, the heat dissipation branch chain is installed to U template upper end, installs the conveyer pipe on the U template, and the left and right sides of conveyer pipe all passes the U template, the baffle is installed to the bottom plate rear end, and is connected between baffle and the U template, the heating panel is installed from upper end to lower extreme bilateral symmetry on the conveyer pipe outer wall.

The heat dissipation module comprises a motor, a long round rod, a positioning plate, a flat plate, a high-temperature-resistant sealing ring, a square plate, a bidirectional threaded rod, a sliding plate, a connecting plate, a pushing block, a driven block, a sliding block and a heat dissipation block, wherein the heat dissipation plate is provided with heat dissipation grooves symmetrically at the upper and lower ends, through grooves are symmetrically formed at the left and right ends of the heat dissipation groove, the heat dissipation block is arranged in the heat dissipation groove in a sliding fit manner, the sliding blocks are symmetrically arranged on the outer walls of the left and right ends of the heat dissipation block and are arranged in the through grooves in a sliding fit manner, the driven block is arranged on the outer wall of the sliding block in the through groove opposite to the heat dissipation plate, the driven block is provided with a driven groove, the middle part of the outer wall at the front end of the baffle is provided with a sliding groove, the positioning plate is arranged at the left side of the sliding groove on the outer wall at the front end of the baffle, the sliding plate is symmetrically provided with the sliding plate in a sliding fit manner, and is provided with the pushing threaded groove, a connecting plate is arranged on the sliding plate, the front end of the connecting plate is uniformly provided with a propelling block, the propelling block is arranged in the driven groove in a sliding fit mode, the outer wall of the right end of the U-shaped plate is provided with a motor, the output end of the motor penetrates through the U-shaped plate to be provided with a long round rod, the left end of the long round rod is provided with a bidirectional threaded rod, the left end of the bidirectional threaded rod is arranged on the positioning plate in a rotating fit mode, the bidirectional threaded rod is arranged in the pushing threaded groove in a threaded matching manner, the front end and the rear end of the heat dissipation plate are symmetrically provided with T-shaped grooves, the T-shaped grooves are internally provided with flat plates in a sliding matching manner, the outer walls of the flat plates are provided with high-temperature-resistant sealing rings along the circumferential direction of the flat plates, the high-temperature resistant sealing ring and the inner wall of the T-shaped groove are matched with each other for use, the flat plate is provided with a square plate, the square plate is arranged in the T-shaped groove in a sliding fit manner, the condensing efficiency of the duct is improved by increasing the contact area between the heat radiating plate and the air.

As a preferred technical scheme of the invention, the water cooling module comprises a water tank, a water pump, a connecting circular pipe, a water cooling circular pipe, a straight circular pipe, a water outlet pipe and a filter pipe, wherein the water cooling circular pipe is uniformly arranged on the conveying pipe between the inner wall of the U-shaped plate and a heat dissipation plate positioned at the right end of the conveying pipe, a hollow circular groove is arranged on the water cooling circular pipe along the circumferential direction of the water cooling circular pipe, adjacent water cooling circular pipes on the conveying pipe are connected through the straight circular pipe, two ends of the straight circular pipe are connected on the inner wall of the hollow circular groove, the water outlet pipe is arranged at the lower end of the water cooling circular pipe at the lowest end of the conveying pipe, a connecting thread groove is arranged on the outer wall of the water outlet pipe along the circumferential direction of the water outlet pipe, the filter pipe is arranged on the connecting, connect the pipe upper end and connect on being located the water-cooling pipe of the top on the conveyer pipe, through the rotation of flabellum, can accelerate the velocity of flow of the gas next door of conveyer pipe, improved the condensation efficiency of conveyer pipe to steam.

As a preferred technical scheme of the invention, the heat dissipation branched chain comprises a top plate, a rotary round bar, a second motor, a transmission gear, a chain and fan blades, wherein the upper end of a U-shaped plate is bilaterally symmetrically provided with a rotary round groove, the rotary round bar is arranged in the rotary round groove in a rotation fit mode, the fan blades are uniformly arranged on the outer wall of the lower side of the rotary round bar along the circumferential direction of the rotary round bar, the upper end of the rotary round bar is provided with the transmission gear, the transmission gears are connected with each other through the chain, the top plate is arranged on the outer wall of the front end of the baffle plate and positioned on the upper side of the U-shaped plate, the second motor is arranged on the top plate, the output end of the second motor is connected to the transmission gear on the rotary round bar positioned on the left end of the.

As a preferable technical scheme of the invention, the outer walls of the upper end and the lower end of the square plate are uniformly provided with semicircular concave surfaces, so that the contact area between the square plate and air is increased.

As a preferable technical scheme of the invention, the driven groove formed on the driven block is integrally a T-shaped inclined surface, the T-shaped inclined rod is arranged at the position, located in the driven groove, on the pushing block, and the T-shaped inclined rod and the T-shaped inclined surface on the pushing block are matched with each other for use, so that the pushing block can drive the driven block to move.

As a preferable technical scheme of the invention, the whole of the radiating groove and the radiating block is in a trapezoidal surface shape, the front side and the rear side of the radiating groove and the radiating block are respectively provided with symmetrical inclined surfaces, the inclined surfaces are mutually matched for use, the upper end surfaces of the radiating groove and the radiating block are larger than the lower end surfaces of the radiating groove and the radiating block, and the contact area between the radiating block and air can be increased.

In a preferred embodiment of the present invention, the entire delivery pipe is a serpentine pipe, so that the delivery pipe can perform a comprehensive condensation operation on the steam.

As a preferred technical scheme of the invention, the whole filtering pipe is in a hollow round table shape, and the outer wall of the lower end of the filtering pipe is uniformly provided with filtering holes, so that the filtering and collecting operation can be carried out on the returned cold water.

(III) advantageous effects

1. The invention can solve the following problems existing in the prior condenser when the steam is radiated, however, the following problems existing in the prior condenser when the steam is radiated, firstly, the traditional condenser is mostly provided with radiating fins on a conveying pipeline, and because the contact area between the radiating fins and the air is not changed, the radiating efficiency of the radiating fins on the conveying pipeline is not changed, and the radiating efficiency of the conveying pipeline cannot be adjusted; secondly, the existing condenser has no quick heat dissipation mode, so that the heat dissipation efficiency of the condenser is low, and the use of the condenser is influenced.

2. The condensation module designed by the invention carries out conveying operation on steam through the conveying pipe, and the temperature on the heat dissipation plate is raised through the steam, so that the flat plate can drive the square plate to move, the contact area of the heat dissipation plate and the air is increased, and the driven block is driven to move through the pushing block, so that the driven block drives the heat dissipation block to move through the sliding block, the contact area of the heat dissipation plate and the air is further increased, and the heat dissipation efficiency of the conveying pipe is improved.

3. The water cooling module and the radiating branch chain designed by the invention can accelerate the flow velocity of gas beside the conveying pipe and improve the condensing efficiency of the conveying pipe on steam through the rotation of the fan blades, and can quickly carry out radiating operation on the conveying pipe and improve the radiating efficiency of the conveying pipe by conveying cold water into the water cooling round pipe through the water pump.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a partial cross-sectional view (from front to back) of FIG. 1 of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 2 in accordance with the present invention;

FIG. 5 is a cross-sectional view taken along line C-C of FIG. 2 of the present invention;

FIG. 6 is an enlarged view of the M-direction portion of FIG. 2 in accordance with the present invention;

FIG. 7 is an enlarged view of the N-direction portion of FIG. 3 in accordance with the present invention;

FIG. 8 is a cross-sectional view (from the rear to the front) of the present invention;

FIG. 9 is a schematic view of a partial structure of a heat dissipation module according to the present invention;

FIG. 10 is a schematic view of a partial structure of a water cooling module according to the present invention;

FIG. 11 is a schematic view of the construction of the delivery tube of the present invention;

fig. 12 is a schematic diagram of the operation of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 12, a condenser includes a bottom plate 1, a condensation module 2, a heat dissipation module 3 and a water cooling module 4, the bottom plate 1 is provided with the condensation module 2, and the condensation module 2 is provided with the heat dissipation module 3 and the water cooling module 4.

Condensation module 2 include U template 21, baffle 22, conveyer pipe 23 and heating panel 24, bottom plate 1 on install U template 21, heat dissipation branch chain 25 is installed to U template 21 upper end, install conveyer pipe 23 on the U template 21, and the U template 21 is all passed to the left and right sides of conveyer pipe 23, baffle 22 is installed to 1 rear end of bottom plate, and is connected between baffle 22 and the U template 21, from the upper end to the lower extreme bilateral symmetry on the conveyer pipe 23 outer wall install heating panel 24.

The whole conveying pipe 23 is a snake-shaped pipe.

The heat dissipation module 3 comprises a first motor 3a, a long round rod 3b, a positioning plate 3c, a flat plate 3d, a high-temperature resistant sealing ring 3e, a square plate 3f, a bidirectional threaded rod 3g, a sliding plate 3h, a connecting plate 3i, a pushing block 3j, a driven block 3k, a sliding block 3l and a heat dissipation block 3m, wherein heat dissipation grooves are symmetrically formed in the upper and lower parts of the heat dissipation plate 24, through grooves are symmetrically formed in the left and right ends of each heat dissipation groove, the heat dissipation blocks 3m are installed in the heat dissipation grooves in a sliding fit mode, the sliding blocks 3l are symmetrically installed on the outer walls of the left and right ends of each heat dissipation block 3m, the sliding blocks 3l are installed in the through grooves in a sliding fit mode, the driven blocks 3k are installed on the outer walls of the 3l in the through grooves opposite to the sliding blocks 24, the driven grooves are formed in the driven blocks 3k, a sliding groove is formed in the middle of the outer wall of the front end of the baffle plate 22, the positioning plate 3c is installed on the left side of the sliding groove on the outer wall of the front end of the baffle plate 22, sliding plates 3h are symmetrically arranged in the sliding grooves in a bilateral mode in a sliding fit mode, a pushing thread groove is formed in each sliding plate 3h, a connecting plate 3i is arranged on each sliding plate 3h, pushing blocks 3j are evenly arranged at the front end of each connecting plate 3i, each pushing block 3j is arranged in a driven groove in a sliding fit mode, a motor 3a is arranged on the outer wall of the right end of each U-shaped plate 21, the output end of each motor 3a penetrates through each U-shaped plate 21 to be provided with a long round rod 3b, a bidirectional threaded rod 3g is arranged at the left end of each long round rod 3b, the left end of each bidirectional threaded rod 3g is arranged on a positioning plate 3c in a rotating fit mode, each bidirectional threaded rod 3g is arranged in each pushing thread groove in a thread fit mode, T-surface grooves are symmetrically formed in the front end and the rear end of each heat dissipation plate 24, a flat plate 3d is arranged in each T-surface groove in a sliding fit mode, and a high-temperature-resistant sealing ring 3e is arranged on the outer wall of each flat plate 3d in the circumferential direction, and the high-temperature-resistant sealing ring 3e and the inner wall of the T-shaped groove are matched with each other, a square plate 3f is arranged on the flat plate 3d, and the square plate 3f is arranged in the T-shaped groove in a sliding fit mode.

And semicircular concave surfaces are uniformly arranged on the outer walls of the upper end and the lower end of the square plate 3 f.

The driven groove formed in the driven block 3k is integrally a T-shaped inclined surface, a T-shaped inclined rod is arranged at the position, located in the driven groove, of the pushing block 3j, and the T-shaped inclined rod and the T-shaped inclined surface on the pushing block 3j are matched with each other for use.

The whole of radiating groove and radiating block 3m is trapezoidal, the front and back sides of radiating groove and radiating block 3m are the oblique surfaces that are symmetrical to each other, and the oblique surfaces are mutually matched for use, and the upper end surfaces of radiating groove and radiating block 3m are larger than the lower end surfaces thereof.

When the concrete during operation, after high-temperature high-pressure steam enters into conveyer pipe 23 import, make the temperature rise on the conveyer pipe 23 with the temperature promotion on the heating panel 24, the temperature promotion on the heating panel 24 makes dull and stereotyped 3d, the atmospheric pressure increase of high temperature resistant sealing washer 3e and T face inslot, make dull and stereotyped 3d move, dull and stereotyped 3d drives the motion of square plate 3f, because be provided with the semicircle concave surface on the square plate 3f, make the area of contact between square plate 3f and heating panel 24 and the air increase, accelerate the efficiency that heating panel 24 dispels the heat on to conveyer pipe 23, the thermal efficiency of giving off on conveyer pipe 23 has been improved.

When the heat dissipation efficiency on the square plate 3f is insufficient, the first motor 3a drives the long round bar 3b to rotate, the long round bar 3b drives the two-way threaded rod 3g to rotate, the two-way threaded rod 3g drives the sliding plate 3h to move oppositely through a threaded fit mode, the sliding plate 3h drives the connecting plate 3i to move oppositely, the connecting plate 3i drives the pushing block 3j to move oppositely, the pushing block 3j can drive the driven block 3k to move through the mutual matching operation between the pushing block 3j and the driven groove on the driven block 3k, the driven block 3k drives the sliding block 3l to move, the sliding block 3l drives the heat dissipation block 3m to move, the heat dissipation block 3m slides out of the heat dissipation groove, the contact area between the heat dissipation block 3m and the heat dissipation plate 24 and the air is increased, the heat dissipation efficiency of the heat dissipation plate 24 on the conveying pipe 23 is improved, and the stable heat dissipation treatment can be carried out on high-temperature and high-pressure steam, so that the high-temperature and high-pressure steam is cooled and discharged through the outlet of the delivery pipe 23.

The water cooling module 4 comprises a water tank 41, a water pump 42, a connecting circular pipe 43, a water cooling circular pipe 44, a straight circular pipe 45, a water outlet pipe 46 and a filter pipe 47, the water cooling circular pipe 44 is uniformly arranged between the inner wall of the U-shaped plate 21 and the heat dissipation plate 24 positioned at the upper right end of the conveying pipe 23 on the conveying pipe 23, a hollow circular groove is arranged on the water cooling circular pipe 44 along the circumferential direction, the adjacent water cooling circular pipes 44 positioned on the conveying pipe 23 are connected through the straight circular pipe 45, two ends of the straight circular pipe 45 are connected on the inner wall of the hollow circular groove, the water outlet pipe 46 is arranged at the lower end of the water cooling circular pipe 44 positioned at the lowest end of the conveying pipe 23, a connecting thread groove is arranged on the outer wall of the water outlet pipe 46 along the circumferential direction, the filter pipe 47 is arranged on the connecting thread groove in a thread matching mode, the water tank 41 is arranged on the left side of the inner wall of the left end of the U-shaped plate 21 on the bottom plate 1, the water pump 42 is arranged in the water tank 41, the output end of the water pump 42 is provided with a connecting circular pipe 43, and the upper end of the connecting circular pipe 43 is connected to a water-cooling circular pipe 44 positioned at the uppermost end of the conveying pipe 23.

The filtering pipe 47 is integrally in the shape of a hollow circular truncated cone, and filtering holes are uniformly formed in the outer wall of the lower end of the filtering pipe 47.

When the specific working is performed, when high-temperature and high-pressure steam in the delivery pipe 23 moves to the position of the water-cooling circular pipe 44, the water pump 42 conveys cold water in the water tank 41 to the hollow annular groove on the water-cooling circular pipe 44 through the connecting circular pipe 43, the cold water in the water-cooling circular pipe 44 is conveyed through the straight circular pipe 45, so that the cold water in the hollow annular groove in the water-cooling circular pipe 44 surrounds the cold water, so that the cold water can cool the water-cooling circular pipe 44, the water-cooling circular pipe 44 can rapidly cool the delivery pipe 23, the cold water in the water-cooling circular pipe 44 flows into the water tank 41 again through the water outlet pipe 46 and the filter pipe 47, and the cold water flowing back is filtered through the filter pipe 47, and the cold water in the water tank 41 can be recycled.

Radiating branch 25 include roof 251, rotatory round bar 252, No. two motors 253, drive gear 254, chain 255 and flabellum 256, U template 21 upper end bilateral symmetry seted up rotatory circular slot, rotatory round bar 252 is installed through normal running fit's mode in the rotatory circular slot, evenly install flabellum 256 along its circumference direction on the rotatory round bar 252 downside outer wall, drive gear 254 is installed to rotatory round bar 252 upper end, and is connected through chain 255 between the drive gear 254, just be located U template 21 upside on the baffle 22 front end outer wall and install roof 251, install No. two motors 253 on roof 251, No. two motors 253 output is connected on the drive gear 254 that is located the rotatory round bar 252 of U template 21 upper end.

During specific work, after high-temperature and high-pressure steam enters the conveying pipe 23, the second motor 253 drives the transmission gear 254 to rotate, the transmission gear 254 is mutually transmitted through the chain 255, the transmission gear 254 drives the rotary circular rod 252 to rotate, the rotary circular rod 252 drives the fan blades 256 to rotate, hot air on the conveying pipe 23 can be blown away by the fan blades 256, and the heat dissipation efficiency of the steam in the conveying pipe 23 is improved.

During operation

The first step is as follows: after high-temperature and high-pressure steam enters the inlet of the conveying pipe 23, the temperature on the conveying pipe 23 rises, the conveying pipe 23 raises the temperature on the heat dissipation plate 24, the temperature on the heat dissipation plate 24 raises the air pressure in the flat plate 3d, the high-temperature-resistant sealing ring 3e and the T-surface groove, the flat plate 3d moves, the flat plate 3d drives the square plate 3f to move, and as the semicircular concave surface is arranged on the square plate 3f, the contact area between the square plate 3f and the heat dissipation plate 24 and the air is increased, the heat dissipation efficiency of the heat dissipation plate 24 on the conveying pipe 23 is improved, and the heat dissipation efficiency on the conveying pipe 23 is improved;

the second step is that: when high-temperature and high-pressure steam in the conveying pipe 23 moves to the position of the circular water-cooling pipe 44, the water pump 42 conveys cold water in the water tank 41 into a hollow annular groove in the circular water-cooling pipe 44 through the connecting circular pipe 43, the cold water in the circular water-cooling pipe 44 is conveyed through the straight circular pipe 45, so that the hollow annular groove in the circular water-cooling pipe 44 is surrounded by the cold water, the circular water-cooling pipe 44 can perform cooling operation on the circular water-cooling pipe 44, the circular water-cooling pipe 44 can perform cooling operation on the conveying pipe 23 quickly, the cold water in the circular water-cooling pipe 44 flows into the water tank 41 again through the water outlet pipe 46 and the filter pipe 47, the returned cold water is filtered through the filter pipe 47, and the cold water in the water tank 41 can be recycled;

the third step: when high-temperature and high-pressure steam in the conveying pipe 23 moves to the position of the circular water-cooling pipe 44, the water pump 42 conveys cold water in the water tank 41 into a hollow annular groove in the circular water-cooling pipe 44 through the connecting circular pipe 43, the cold water in the circular water-cooling pipe 44 is conveyed through the straight circular pipe 45, so that the hollow annular groove in the circular water-cooling pipe 44 is surrounded by the cold water, the circular water-cooling pipe 44 can perform cooling operation on the circular water-cooling pipe 44, the temperature of the conveying pipe 23 is reduced by the circular water-cooling pipe 44, the cold water in the circular water-cooling pipe 44 flows into the water tank 41 again through the water outlet pipe 46 and the filter pipe 47, the backflow cold water is filtered through the filter pipe 47, and the cold water in the water tank 41 can be recycled;

the fourth step: after high-temperature and high-pressure steam enters the conveying pipe 23, the second motor 253 drives the transmission gear 254 to rotate, the transmission gear 254 is mutually transmitted through the chain 255, the transmission gear 254 drives the rotary circular rod 252 to rotate, the rotary circular rod 252 drives the fan blades 256 to rotate, hot air on the conveying pipe 23 can be blown away by the fan blades 256, and the heat dissipation efficiency of the steam in the conveying pipe 23 is improved.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a condenser, includes bottom plate (1), condensation module (2), heat radiation module (3) and water-cooling module (4), its characterized in that: the bottom plate (1) is provided with a condensation module (2), and the condensation module (2) is provided with a heat dissipation module (3) and a water cooling module (4); wherein:

the condensation module (2) comprises a U-shaped plate (21), a baffle (22), a conveying pipe (23) and a heat dissipation plate (24), the U-shaped plate (21) is installed on the bottom plate (1), a heat dissipation branch chain (25) is installed at the upper end of the U-shaped plate (21), the conveying pipe (23) is installed on the U-shaped plate (21), the left side and the right side of the conveying pipe (23) penetrate through the U-shaped plate (21), the baffle (22) is installed at the rear end of the bottom plate (1), the baffle (22) is connected with the U-shaped plate (21), and the heat dissipation plate (24) is symmetrically installed on the outer wall of the conveying pipe (23) from the upper end to the lower end in a left-right mode;

the heat dissipation module (3) comprises a first motor (3a), a long round rod (3b), a positioning plate (3c), a flat plate (3d), a high-temperature-resistant sealing ring (3e), a square plate (3f), a two-way threaded rod (3g), a sliding plate (3h), a connecting plate (3i), a pushing block (3j), a driven block (3k), a sliding block (3l) and a heat dissipation block (3m), wherein heat dissipation grooves are symmetrically formed in the upper end and the lower end of the heat dissipation plate (24), through grooves are symmetrically formed in the left end and the right end of each heat dissipation groove, the heat dissipation block (3m) is arranged in each heat dissipation groove in a sliding fit mode, the sliding blocks (3l) are symmetrically arranged on the outer walls of the left end and the right end of each heat dissipation block (3m), the driven blocks (3k) are arranged on the outer walls of the sliding blocks (3l) in the through grooves opposite to each heat dissipation plate (24), a driven groove is formed in the driven block (3k), a sliding groove is formed in the middle of the outer wall of the front end of the baffle plate (22), a positioning plate (3c) is arranged on the left side of the sliding groove on the outer wall of the front end of the baffle plate (22), sliding plates (3h) are symmetrically arranged in the sliding groove in a sliding fit mode, a pushing threaded groove is formed in each sliding plate (3h), a connecting plate (3i) is arranged on each sliding plate (3h), pushing blocks (3j) are uniformly arranged at the front ends of the connecting plates (3i), the pushing blocks (3j) are arranged in the driven grooves in a sliding fit mode, a first motor (3a) is arranged on the outer wall of the right end of the U-shaped plate (21), a long round rod (3b) is arranged at the output end of the first motor (3a) through the U-shaped plate (21), a bidirectional threaded rod (3g) is arranged at the left end of the long round rod (3b), and a bidirectional threaded rod (3g) is arranged on the positioning plate (3c) in a rotation fit mode, and two-way threaded rod (3g) are installed in advancing the thread groove through screw-thread fit's mode, the T face groove has been seted up to both ends symmetry around on heating panel (24), dull and stereotyped (3d) are installed through sliding fit's mode in the T face inslot, be provided with high temperature resistant sealing washer (3e) along its circumference direction on dull and stereotyped (3d) outer wall, and mutually support the use between high temperature resistant sealing washer (3e) and the T face inslot wall, install square slab (3f) on dull and stereotyped (3d), and square slab (3f) are installed at T face inslot through sliding fit's mode.

2. A condenser as claimed in claim 1, wherein: the water cooling module (4) comprises a water tank (41), a water pump (42), a connecting circular pipe (43), a water cooling circular pipe (44), a straight circular pipe (45), a water outlet pipe (46) and a filter pipe (47), wherein the water cooling circular pipe (44) is uniformly arranged on the conveying pipe (23) between the inner wall of the U-shaped plate (21) and the heat dissipation plate (24) at the upper right end of the conveying pipe (23), a hollow annular groove is formed in the water cooling circular pipe (44) along the circumferential direction of the water cooling circular pipe, the adjacent water cooling circular pipes (44) on the conveying pipe (23) are connected through the straight circular pipe (45), two ends of the straight circular pipe (45) are connected onto the inner wall of the hollow annular groove, the water outlet pipe (46) is arranged at the lower end of the water cooling circular pipe (44) at the lowest end on the conveying pipe (23), a connecting thread groove is formed in the outer wall of the water outlet pipe (46) along the circumferential direction of the water outlet pipe, the filter pipe (47) is arranged in a thread fit mode, a water tank (41) is installed on the left side of the inner wall of the left end of a U-shaped plate (21) on a bottom plate (1), a water pump (42) is installed in the water tank (41), a connecting round pipe (43) is installed at the output end of the water pump (42), and the upper end of the connecting round pipe (43) is connected to a water-cooling round pipe (44) located at the uppermost end on a conveying pipe (23).

3. A condenser as claimed in claim 1, wherein: the heat dissipation branched chain (25) comprises a top plate (251), a rotary round rod (252), a second motor (253), a transmission gear (254), a chain (255) and fan blades (256), the upper end of the U-shaped plate (21) is symmetrically provided with a rotary circular groove in a bilateral mode, a rotary circular rod (252) is arranged in the rotary circular groove in a rotating matching mode, fan blades (256) are uniformly arranged on the outer wall of the lower side of the rotary circular rod (252) along the circumferential direction of the rotary circular rod, a transmission gear (254) is arranged at the upper end of the rotary circular rod (252), and the transmission gears (254) are connected through chains (255), a top plate (251) is arranged on the outer wall of the front end of the baffle plate (22) and positioned on the upper side of the U-shaped plate (21), a second motor (253) is arranged on the top plate (251), and the output end of the second motor (253) is connected to the transmission gear (254) on the rotary round rod (252) positioned at the upper left end of the U-shaped plate (21).

4. A condenser as claimed in claim 1, wherein: and semicircular concave surfaces are uniformly arranged on the outer walls of the upper end and the lower end of the square plate (3 f).

5. A condenser as claimed in claim 1, wherein: the driven groove formed in the driven block (3k) is integrally a T-shaped inclined surface, a T-shaped inclined rod is arranged at the position, located in the driven groove, of the pushing block (3j), and the T-shaped inclined rod and the T-shaped inclined surface on the pushing block (3j) are matched with each other for use.

6. A condenser as claimed in claim 1, wherein: the whole of radiating groove and radiating block (3m) be trapezoidal face form, both sides are the oblique form face of mutual symmetry around radiating groove and radiating block (3m), and mutually support between the oblique form face and use, and the up end of radiating groove and radiating block (3m) is bigger than its lower terminal surface.

7. A condenser as claimed in claim 1, wherein: the whole conveying pipe (23) is a snake-shaped pipe.

8. A condenser as claimed in claim 2, wherein: the filtering pipe (47) is integrally in a hollow round table shape, and filtering holes are uniformly formed in the outer wall of the lower end of the filtering pipe (47).

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