CN112050478B

CN112050478B - Plate heat exchanger device

Info

Publication number: CN112050478B
Application number: CN202010822188.3A
Authority: CN
Inventors: 杨钧元
Original assignee: Jinan Huabo Heat Exchange Equipment Co ltd
Current assignee: JINAN HUABO HEAT EXCHANGE EQUIPMENT Co.,Ltd.
Priority date: 2020-08-16
Filing date: 2020-08-16
Publication date: 2021-03-26
Anticipated expiration: 2040-08-16
Also published as: CN112050478A

Abstract

The invention discloses a plate type heat exchanger device, belonging to the technical field of heat exchange, comprising a heat exchange table, wherein the top end of the heat exchange table is provided with two side plates, and the middle of the side plate is provided with three cross rods, one side of the side plate is provided with a connecting strip, and two ends of the connecting strip are provided with mounting pieces, and one side of the fin is provided with three openings, the width of each opening is larger than the diameter of the cross rod, one side of the cross rod is provided with a rectangular groove matched with the opening, the rectangular grooves are uniformly arranged on one side of the cross rod, a heating pipe and a radiating pipe are arranged in the middle of the side plate, one ends of the heating pipe and the radiating pipe are provided with a bent pipeline, and the side plate is provided with a hole matched with the heating pipe and the radiating pipe, the fin is provided with a cylinder sheet matched with the heating pipe and the radiating pipe, the outer walls of the heating pipe and the radiating pipe are tightly attached to the cylindrical sheets, and one ends of the two adjacent cylindrical sheets are attached to each other. The cylindrical sheet increases the contact area with the heating pipe and the radiating pipe, and increases the heat exchange efficiency.

Description

Plate heat exchanger device

Technical Field

The invention relates to the technical field of heat exchange, in particular to a plate type heat exchanger device.

Background

With the development of industrial technology, most of energy used by modern industry is provided by petroleum and coal, the coal and petroleum can generate a large amount of substances such as carbon dioxide and the like after being combusted, the substances are main substances causing modern greenhouse effect, and a large amount of carbon elements are released from organic matters to pollute the environment;

the development of modern new energy technology is faster and faster, wherein the nuclear reaction provides energy, but the harm of byproducts of the nuclear reaction is larger, and solar energy, tidal energy and wind energy are pollution-free energy and are also the technical field vigorously advocated by the nation;

solar energy heats water is an item that utilizes solar energy, solar energy heats water need lead a heat transfer device and is used for leading solar energy's heat into water, current heat transfer device is more troublesome when connecting the water pipe, how many screws need be installed on sending the connector to water piping connection, all need consume a lot of manpowers when dismantling the water pipe every time, a lot of operating time has been wasted to the pressure, and heat transfer device be metal product, heat transfer device's volume and weight are all bigger, so heat transfer device is just more troublesome when the transport.

Disclosure of Invention

The invention aims to provide a plate heat exchanger device aiming at the defects of the prior art, when the device is used, a servo motor drives a black heat absorbing plate to slowly rotate through a torsion rod, the torsion rod rotates in a shaft seat at the moment, the orthographic projection surface of the black heat absorbing plate faces the sun, the high temperature collected by the black heat absorbing plate is kept to be transmitted to a heat conducting plate, the heat conducting plate transmits heat out through water in a heat exchange coil, a heat exchange water pump is started for a period of time at regular time and then is closed, the water in the heat exchange coil passes through a radiating pipe, the heat is transmitted to a fin through the radiating pipe, the heating pipe on one side of the fin receives heat, the hot water pump can press the water in the heating pipe into the heating coil, the heating coil can add the water in a water tank, and the function of.

In order to solve the above problems, the present invention provides the following technical solutions: a plate type heat exchanger device comprises a heat exchange table, wherein two side plates are installed at the top end of the heat exchange table, three transverse rods are arranged in the middles of the side plates, a connecting strip is installed on one side of each side plate, installation pieces are arranged at two ends of each connecting strip, screws penetrate through the installation pieces, fins are arranged in the middles of the side plates, three openings are formed in one sides of the fins, the width of each opening is larger than the diameter of each transverse rod, rectangular grooves matched with the openings are formed in one sides of the transverse rods and are uniformly arranged on one sides of the transverse rods, heating pipes and radiating pipes are installed in the middles of the side plates, bent pipelines are arranged at one ends of the heating pipes and the radiating pipes, holes matched with the heating pipes and the radiating pipes are formed in the side plates, cylindrical plates matched with the heating pipes and the radiating pipes are arranged on the fins, the outer walls of, and one ends of two adjacent cylindrical sheets are mutually attached.

Further, the one end of heating pipe and cooling tube all is provided with the flange subassembly, and the flange subassembly includes the import, one side of import is provided with the semicircle ring, and the inboard of semicircle ring installs the connecting block, the connecting cylinder is installed to the centre of connecting block, one side of import and connecting block all is provided with the pinhole, and the connecting pin is installed to the inboard of pinhole.

Further, one side fixed mounting of platform of changing heat has the fixed plate, and the top of fixed plate is provided with the stand, the one end fixed mounting of stand has the axle bed, and one side of axle bed is provided with the black absorber plate, and one side of black absorber plate is provided with axle bed assorted torsion bar, and torsion bar and axle bed rotate to be connected, servo motor, torsion bar and servo motor's output fixed connection are installed on the top of stand.

Further, the heat-conducting plate is installed to one side of black absorber plate, and one side of heat-conducting plate installs the heat transfer coil pipe, and one side of heat-conducting plate is provided with and heat transfer coil pipe assorted recess, the both ends of heat transfer coil pipe are provided with the heat exchange tube, and all connect through flange subassembly and cooling tube of heat exchange tube, the centre of heat exchange tube is provided with the heat transfer water pump.

Further, the water tank is installed to one side of heat transfer platform, and the top of water tank is provided with the water inlet, one side of water tank is provided with two adapter sleeves, and the inboard of water tank installs heating coil, and heating coil's both ends all are connected with the adapter sleeve, advance the heat pipe all to install one side of adapter sleeve, and the one end of advancing the heat pipe all passes through flange subassembly and heating pipe connection, advance and install into the hot water pump on the heat pipe.

Further, the top of water tank is provided with accuse pressure subassembly, and accuse pressure subassembly includes airtight drum, the spring is installed to the inboard of airtight drum, and the bottom of spring installs the plunger, the top and the airtight drum fixed connection of spring, the bottom and the plunger fixed connection of spring, one side of airtight drum is provided with, sets up between the top surface of plunger and airtight drum.

Further, the bottom of heat transfer platform is provided with fixed subassembly, and fixed subassembly is including articulated piece, articulated piece is provided with four altogether, and articulated piece align to grid is in the four corners of heat transfer platform bottom, and articulated piece and heat transfer platform fixed mounting have, the rotary rod is installed to the inboard of articulated piece, rotary rod and articulated piece swivelling joint, the pipe is installed to the bottom of rotary rod, installs the gyro wheel on the pipe, gyro wheel and pipe swivelling joint, one side of pipe be provided with gyro wheel assorted flange.

Further, flexible post is installed to the equal inboard of pipe, flexible post and pipe swivelling joint, and flexible post and pipe sliding connection, the lead screw is installed to the one end of a flexible post, and the one end of another flexible post is provided with the screw hole that matches earlier with the lead screw, and the lead screw alternates in the inside of screw hole.

Further, the one end of articulated piece is provided with the circle limit, and one side of circle limit is provided with most advanced, the external diameter on circle limit is greater than the internal diameter of pipe, and one side of heat exchange platform is provided with reserves mouthful, and the width of reserving mouthful is greater than the diameter of flexible post.

The invention has the beneficial effects that:

one of the two ways is that when the device is used, the servo motor drives the black heat absorbing plate to slowly rotate through the torsion rod, the torsion rod rotates inside the shaft seat at the moment, the servo motor twists an angle every hour, the orthographic projection surface of the black heat absorbing plate faces the sun, the high temperature collected by the black heat absorbing plate is kept to be transmitted to the heat conducting plate, the heat conducting plate transmits heat out through the water inside the heat exchange coil, the heat exchange water pump is started for a period of time at regular time and then closed, the water inside the heat exchange coil passes through the radiating pipe, the radiating pipe can transmit the heat to the fin, the heating pipe on one side of the fin can receive the heat, the hot water pump can feed the water inside the heating pipe into the heating coil, the heating coil can feed the water inside the water tank, and.

Its two, can steam after the inside water of water tank is heated, the inside pressure of water tank this moment can increase, and the inside pressure of water tank can withstand the plunger upward movement, waits to the piston to cross the pressure release hole, and steam can go out from the pressure release hole, and this just can keep the inside pressure of water tank, prevents that the inside pressure of water tank is too big, keeps the intensification of certain pressure also can accelerate the inside water of water tank simultaneously.

Thirdly, the device is after the dismouting, aim at the connecting block semicircle ring and insert into, then inject the connecting pin in the pinhole, realized the flange subassembly's of being convenient for function, saved the manpower, when fixed heat transfer platform, rotatory come out from the screw hole to the lead screw, after the rotatory ninety degrees of rotary rod, flexible post can come out from reserving the mouth, flexible post this moment can erect, hammer into mud again flexible post, the fixing device of being convenient for.

Drawings

Fig. 1 is a schematic front view of a plate heat exchanger device.

Fig. 2 is a schematic side view of a plate heat exchanger device.

Fig. 3 is a schematic view of a plate heat exchanger device from a second perspective.

Fig. 4 is a schematic view of a third view of the plate heat exchanger device.

Fig. 5 is a schematic cross-sectional view of a plate heat exchanger device.

Fig. 6 is a schematic view of a fin of a plate heat exchanger device.

Fig. 7 is a schematic view of a black absorber plate of the plate heat exchanger device.

Fig. 8 is a schematic view of a plate heat exchanger device flange assembly.

Fig. 9 is a schematic view of a heat conducting plate of the plate heat exchanger device.

Fig. 10 is a schematic view of a plate heat exchanger device fixing assembly.

Fig. 11 is a schematic view of a pressure control assembly of the plate heat exchanger device.

Description of reference numerals:

1-heat exchange table, 101-reserved port, 2-water tank, 201-water inlet, 202-connecting sleeve, 203-heating coil, 3-pressure control component, 301-closed cylinder, 302-spring, 303-plunger, 304-pressure relief hole, 4-fixing plate, 401-column, 5-black heat absorbing plate, 501-torsion bar, 6-heat conducting plate, 601-heat exchange coil, 7-servo motor, 8-heat inlet pipe, 9-heat inlet water pump, 10-heat exchange water pump, 11-heat exchange pipe, 12-side plate, 13-connecting bar, 1301-mounting piece, 1302-screw, 14-heating pipe, 15-heat radiating pipe, 16-fin, 1601-cylinder piece, 1602-notch, 17-flange component, 1701-semicircular ring, 1702-inlet, 1703-connecting block, 1704-connecting cylinder, 1705-pin hole, 1706-connecting pin, 18-fixing component, 1801-hinge block, 1802-rotating rod, 1803-round tube, 1804-telescopic column, 1805-round edge, 1806-roller, 1807-baffle edge, 1808-screw rod, 1809-screw hole, 1810-tip, 19-cross bar, 1901-rectangular groove and 20-shaft seat.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Referring to fig. 1 to 11, a plate heat exchanger device includes a heat exchange table 1, two side plates 12 are mounted on a top end of the heat exchange table 1, three cross bars 19 are disposed in the middle of the side plates 12, a connecting bar 13 is mounted on one side of each side plate 12, mounting pieces 1301 are disposed at two ends of each connecting bar 13, screws 1302 are mounted on one sides of the mounting pieces 1301, the screws 1302 penetrate through the mounting pieces 1301, fins 16 are disposed in the middle of the side plates 12, three notches 1602 are disposed on one sides of the fins 16, the width of each notch 1602 is greater than the diameter of each cross bar 19, rectangular grooves 1901 matched with the notches 1602 are disposed on one sides of the cross bars 19, heating pipes 14 and radiating pipes 15 are mounted in the middle of the side plates 12, bent pipes are disposed at one ends of the heating pipes 14 and the radiating pipes 15, and openings matched with the heating pipes 14 and the radiating pipes 15 are disposed on the side plates 12, be provided with on the fin 16 with heating pipe 14 and cooling tube 15 assorted drum piece 1601, heating pipe 14 and cooling tube 15's outer wall is hugged closely to drum piece 1601, and the one end of two adjacent drum pieces 1601 laminates each other, and drum piece 1601 has increased the area of contact with heating pipe 14 and cooling tube 15, has also increased the efficiency of heat transfer, and cooling tube 15 receives the line and transmits for fin 16 on, fin 16 transmits heat for heating pipe 14 again and realizes the heat transfer, and connecting strip 13 can increase the steadiness of two curb plates 12.

The flange assembly 17 is arranged at one end of each of the heating pipe 14 and the radiating pipe 15, the flange assembly 17 comprises an inlet 1702, a semicircular ring 1701 is arranged at one side of the inlet 1702, a connecting block 1703 is arranged at the inner side of the semicircular ring 1701, a connecting cylinder 1704 is arranged in the middle of the connecting block 1703, pin holes 1705 are arranged at one sides of the inlet 1702 and the connecting block 1703, connecting pins 1706 are arranged at the inner sides of the pin holes 1705, the connecting block 1703 is inserted into the inner side of the semicircular ring 1701 from the side surface when the flange assembly 17 is connected, then the connecting pins 1706 are inserted into the pin holes 1705, the flange assembly 17 can be conveniently connected, the operation amount is saved, and the working efficiency is improved.

One side fixed mounting of platform 1 that changes heat has fixed plate 4, and the top of fixed plate 4 is provided with stand 401, the one end fixed mounting of stand 401 has axle bed 20, and one side of axle bed 20 is provided with black absorber plate 5, and one side of black absorber plate 5 is provided with axle bed 20 assorted torsion bar 501, and torsion bar 501 and axle bed 20 rotate to be connected, servo motor 7 is installed on the top of stand 401, and torsion bar 501 and servo motor 7's output fixed connection, black absorber plate 5 pass through torsion bar 501 at the inside rotation of axle bed 20, and servo motor 7 drives torsion bar 501 and begins to rotate, and servo motor 7 twists reverse an angle every hour, keeps the orthographic projection face of black absorber plate 5 to the sun, has increased the efficiency of absorbing day solar energy.

Heat-conducting plate 6 is installed to one side of black absorber plate 5, and one side of heat-conducting plate 6 installs heat exchange coil pipe 601, and one side of heat-conducting plate 6 is provided with the recess with heat exchange coil pipe 601 assorted, heat exchange coil pipe 601's both ends are provided with heat exchange tube 11, and all connect through flange subassembly 17 and cooling tube 15 of heat exchange tube 11, the centre of heat exchange tube 11 is provided with heat exchange water pump 10, and the heat of black absorber plate 5 is received the line and is transmitted for heat-conducting plate 6, and heat-conducting plate 6 is sent the heat into in cooling tube 15 through heat exchange coil pipe 601, and heat exchange water pump 10.

Water tank 2 is installed to one side of heat exchange platform 1, and the top of water tank 2 is provided with water inlet 201, one side of water tank 2 is provided with two adapter sleeves 202, and the inboard of water tank 2 installs heating coil 203, and heating coil 203's both ends all are connected with adapter sleeve 202, heat pipe 8 is all installed into to one side of adapter sleeve 202, and the one end of advancing heat pipe 8 all is connected through flange subassembly 17 and heating pipe 14, advance and install into hot-water pump 9 on the heat pipe 8, the inside hot water of heating pipe 14 enters into heating coil 203 through advancing heat pipe 8, and heating coil 203 lasts the water heating of water tank 2 inside.

The top of water tank 2 is provided with accuse pressure subassembly 3, accuse pressure subassembly 3 includes airtight drum 301, spring 302 is installed to the inboard of airtight drum 301, and plunger 303 is installed to the bottom of spring 302, the top and airtight drum 301 fixed connection of spring 302, the bottom and the plunger 303 fixed connection of spring 302, one side of airtight drum 301 is provided with pressure release hole 304, and pressure release hole 304 sets up between the top surface of plunger 303 and airtight drum 301, and the inside water of water tank 2 can produce vapor after being heated, and the inside pressure of water tank 2 can increase this moment, and the inside pressure of water tank 2 can withstand plunger 303 upward movement, waits until piston 303 crosses pressure release hole 304, and vapor can go out from pressure release hole 304, and this just can keep the inside pressure of water tank 2.

The bottom of heat exchange platform 1 is provided with fixed subassembly 18, and fixed subassembly 18 is including articulated piece 1801, articulated piece 1801 is provided with four altogether, and articulated piece 1801 align to grid is in the four corners of heat exchange platform 1 bottom, and articulated piece 1801 and heat exchange platform 1 fixed mounting have, rotary rod 1802 is installed to articulated piece 1801's inboard, rotary rod 1802 and articulated piece 1801 swivelling joint, pipe 1803 is installed to rotary rod 1802's bottom, installs gyro wheel 1806 on the pipe 1803, gyro wheel 1806 and pipe 1803 swivelling joint, one side of pipe 1803 be provided with gyro wheel 1806 assorted flange 1807, the bottom of heat exchange platform 1 is provided with gyro wheel 1806, be convenient for carry the very big device of weight, flange 1807 prevents that gyro wheel 1806 from droing.

Telescopic column 1804 is installed to the equal inboard of pipe 1803, telescopic column 1804 and pipe 1803 swivelling joint, and telescopic column 1804 and pipe 1803 sliding connection, lead screw 1808 is installed to the one end of a telescopic column 1804, the one end of another telescopic column 1804 is provided with the screw hole 1809 that matches earlier with screw hole 1808, screw pole 1808 alternates in the inside of screw hole 1809, telescopic column 1804 passes from pipe 1803, in fixing device, lead screw 1808 from screw hole 1809 rotatory out, then twist ninety degrees to rotary rod 1802, telescopic column 1804 can erect this moment.

Articulated piece 1801's one end is provided with round edge 1805, and the one side of round edge 1805 is provided with most advanced 1810, the external diameter of round edge 1805 is greater than the internal diameter of pipe 1803, and one side of heat transfer platform 1 is provided with reserved mouth 101, and the width of reserving mouth 101 is greater than the diameter of flexible post 1804, and the flexible post 1804 of erectting can follow reserved mouth 101 and come out, then smash into earth with flexible post 1804 with the hammer in, be convenient for fixed mounting or handling device.

Finally, the contact area between the cylindrical sheet 1601 and the heating pipe 14 and the radiating pipe 15 is increased, the heat exchange efficiency is also increased, the radiating pipe 15 is wound up and transferred onto the fin 16, the fin 16 transfers heat to the heating pipe 14 to realize heat exchange, the connecting strip 13 can increase the stability of the two side plates 12, when the flange assembly 17 is connected, the connecting block 1703 is inserted into the inner side of the semicircular ring 1701 from the side surface, then the connecting pin 1706 is inserted into the pin hole 1705, the flange assembly 17 can be conveniently connected, the operation amount is saved, the working efficiency is improved, the torsion rod 501 is fixedly connected with the output end of the servo motor 7, the black heat absorbing plate 5 rotates in the shaft seat 20 through the torsion rod 501, the servo motor 7 drives the torsion rod 501 to rotate, the servo motor 7 twists an angle every hour, the forward projection surface of the black heat absorbing plate 5 is kept facing the sun, and the solar energy absorption efficiency is increased, the heat of the black heat absorbing plate 5 is transferred to the heat conducting plate 6 by taking up the heat, the heat conducting plate 6 sends the heat into the radiating pipe 15 through the heat exchanging coil 601, the heat exchanging water pump 10 is opened and closed at intervals, the hot water in the heating pipe 14 enters the heating coil 203 through the heat inlet pipe 8, the heating coil 203 continuously heats the water in the water tank 2, the pressure releasing hole 304 is arranged between the plunger 303 and the top surface of the closed cylinder 301, the water in the water tank 2 generates steam after being heated, at the moment, the pressure in the water tank 2 is increased, the pressure in the water tank 2 pushes the plunger 303 to move upwards, when the piston 303 crosses the pressure releasing hole 304, the steam can go out from the pressure releasing hole 304, the pressure in the water tank 2 can be kept, the bottom end of the heat exchanging table 1 is provided with the roller 1806, the device with large weight can be conveniently carried, the flange 1807 prevents the roller 1806 from falling off, the telescopic, when the device is fixed, the screw shaft 1808 is rotated out of the screw hole 1809, then the rotating rod 1802 is twisted by ninety degrees, at the moment, the telescopic column 1804 is erected, the erected telescopic column 1804 is shot out of the reserved opening 101, and then the telescopic column 1804 is hammered into the soil by a hammer, so that the device is conveniently fixedly installed or carried.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims

1. A plate heat exchanger apparatus, characterized in that: comprises a heat exchange table (1), two side plates (12) are installed at the top end of the heat exchange table (1), three cross rods (19) are arranged in the middle of each side plate (12), a connecting strip (13) is installed on one side of each side plate (12), installation sheets (1301) are arranged at two ends of each connecting strip (13), screws (1302) are installed on one sides of the installation sheets (1301), the screws (1302) penetrate through the installation sheets (1301), fins (16) are arranged in the middle of each side plate (12), three notches (1602) are arranged on one sides of the fins (16), the width of each notch (1602) is larger than the diameter of each cross rod (19), rectangular grooves (1901) matched with the notches (1602) are arranged on one side of each cross rod (19), the rectangular grooves (1901) are uniformly arranged on one side of each cross rod (19), heating pipes (14) and radiating pipes (15) are installed in the middle of each side plate (12), one end of each of the heating pipe (14) and the radiating pipe (15) is provided with a bent pipeline, the side plate (12) is provided with a hole matched with the heating pipe (14) and the radiating pipe (15), the fin (16) is provided with a cylindrical sheet (1601) matched with the heating pipe (14) and the radiating pipe (15), the cylindrical sheet (1601) is tightly attached to the outer walls of the heating pipe (14) and the radiating pipe (15), and one end of each two adjacent cylindrical sheets (1601) is attached to each other;

one end of each of the heating pipe (14) and the radiating pipe (15) is provided with a flange assembly (17), each flange assembly (17) comprises an inlet (1702), one side of each inlet (1702) is provided with a semicircular ring (1701), the inner side of each semicircular ring (1701) is provided with a connecting block (1703), the middle of each connecting block (1703) is provided with a connecting cylinder (1704), one side of each inlet (1702) and one side of each connecting block (1703) are provided with pin holes (1705), and the inner sides of the pin holes (1705) are provided with connecting pins (1706); a fixing plate (4) is fixedly mounted on one side of the heat exchange table (1), an upright column (401) is arranged at the top end of the fixing plate (4), a shaft seat (20) is fixedly mounted at one end of the upright column (401), a black heat absorption plate (5) is arranged on one side of the shaft seat (20), a torsion rod (501) matched with the shaft seat (20) is arranged on one side of the black heat absorption plate (5), the torsion rod (501) is rotatably connected with the shaft seat (20), a servo motor (7) is mounted at the top end of the upright column (401), and the torsion rod (501) is fixedly connected with the output end of the servo motor (7); a heat conducting plate (6) is installed on one side of the black heat absorbing plate (5), a heat exchange coil (601) is installed on one side of the heat conducting plate (6), a groove matched with the heat exchange coil (601) is formed in one side of the heat conducting plate (6), heat exchange tubes (11) are arranged at two ends of the heat exchange coil (601), the heat exchange tubes (11) are connected with a radiating tube (15) through a flange assembly (17), and a heat exchange water pump (10) is arranged in the middle of each heat exchange tube (11);

a water tank (2) is installed on one side of the heat exchange table (1), a water inlet (201) is formed in the top end of the water tank (2), two connecting sleeves (202) are arranged on one side of the water tank (2), a heating coil (203) is installed on the inner side of the water tank (2), two ends of the heating coil (203) are connected with the connecting sleeves (202), a heat inlet pipe (8) is installed on one side of each connecting sleeve (202), one end of each heat inlet pipe (8) is connected with a heating pipe (14) through a flange component (17), and a heat inlet water pump (9) is installed on each heat inlet pipe (8); the top of water tank (2) is provided with accuse pressure subassembly (3), and accuse pressure subassembly (3) are including airtight drum (301), spring (302) are installed to the inboard of airtight drum (301), and plunger (303) are installed to the bottom of spring (302), the top and airtight drum (301) fixed connection of spring (302), the bottom and plunger (303) fixed connection of spring (302), one side of airtight drum (301) is provided with pressure release hole (304), and pressure release hole (304) set up between the top surface of plunger (303) and airtight drum (301).

2. A plate heat exchanger device according to claim 1, characterized in that: the bottom of heat exchange platform (1) is provided with fixed subassembly (18), and fixed subassembly (18) are including articulated piece (1801), articulated piece (1801) is provided with four altogether, and articulated piece (1801) align to grid is in the four corners of heat exchange platform (1) bottom, rotary rod (1802) are installed to the inboard of articulated piece (1801), rotary rod (1802) and articulated piece (1801) swivelling joint, pipe (1803) are installed to the bottom of rotary rod (1802), install gyro wheel (1806) on pipe (1803), gyro wheel (1806) and pipe (1803) swivelling joint, one side of pipe (1803) be provided with gyro wheel (1806) assorted flange (1807).

3. A plate heat exchanger device according to claim 2, characterized in that: flexible post (1804) is installed to pipe (1803) inboard, flexible post (1804) and pipe (1803) swivelling joint, and flexible post (1804) and pipe (1803) sliding connection, screw pole (1808) are installed to the one end of a flexible post (1804), and the one end of another flexible post (1804) is provided with screw hole (1809) that match with screw pole (1808), and screw pole (1808) alternate in the inside of screw hole (1809).

4. A plate heat exchanger device according to claim 3, characterized in that: the one end of articulated piece (1801) is provided with circle limit (1805), and one side of circle limit (1805) is provided with most advanced (1810), the external diameter of circle limit (1805) is greater than the internal diameter of pipe (1803), and one side of platform (1) of exchanging heat is provided with reserved mouth (101), and the width of reserved mouth (101) is greater than the diameter of flexible post (1804).