CN110594768A - Cold and hot balanced heat exchange device of environment-friendly - Google Patents

Abstract

In order to solve the technical problem, the invention relates to a heat exchange device, in particular to an environment-friendly cold-heat balance heat exchange device, which comprises a high-temperature waste gas collecting and purifying device, a cooling exchange device, a warm water storage device and a salt crystal treatment device, wherein the high-temperature waste gas collecting and purifying device is used for absorbing heat in waste gas and pollutant impurities capable of being adsorbed and utilized, the cooling exchange device is used for reducing the temperature of the high-temperature waste gas collecting and purifying device and then precipitating salt in saturated solution, the warm water storage device is used for storing the warm water after cooling exchange, and the salt crystal treatment device is used for further treating precipitated salt and the like, and is characterized in that: the cooling exchange device is installed and fixed on the warm water storage device, the high-temperature waste gas collecting and purifying device is installed and fixed on the cooling exchange device, and the salt crystal treatment device is installed and fixed on the cooling exchange device.

Description

Cold and hot balanced heat exchange device of environment-friendly

Technical Field

The invention relates to a heat exchange device, in particular to an environment-friendly cold-heat balance heat exchange device.

Background

Along with the improvement of the existing living conditions, resources are greatly consumed, the distribution and utilization of the resources also have great space, a great deal of heat is wasted in waste gas generated during fuel combustion, and some pollutants in the waste gas can be absorbed and reused by saline solution again, so that the environment-friendly heat-exchange device for heat and cold balance is invented.

Disclosure of Invention

The invention relates to a heat exchange device, in particular to an environment-friendly cold-heat balance heat exchange device, which has the functions of absorbing heat in waste gas and adsorbing and utilizing pollution impurities through a high-temperature waste gas collecting and purifying device, reducing the temperature of the high-temperature waste gas collecting and purifying device through a cooling exchange device, then separating out salt in saturated solution, storing the cooled and exchanged warm water through a warm water storage device, further treating the separated salt through a salt crystal treatment device and the like.

In order to solve the technical problem, the invention relates to a heat exchange device, in particular to an environment-friendly cold-heat balance heat exchange device, which comprises a high-temperature waste gas collecting and purifying device, a cooling exchange device, a warm water storage device and a salt crystal treatment device, wherein the high-temperature waste gas collecting and purifying device is used for absorbing heat in waste gas and pollutant impurities capable of being adsorbed and utilized, the cooling exchange device is used for reducing the temperature of the high-temperature waste gas collecting and purifying device and then precipitating salt in saturated solution, the warm water storage device is used for storing the warm water after cooling exchange, and the salt crystal treatment device is used for further treating precipitated salt and the like, and is characterized in that: the cooling exchange device is installed and fixed on the warm water storage device, the high-temperature waste gas collecting and purifying device is installed and fixed on the cooling exchange device, and the salt crystal treatment device is installed and fixed on the cooling exchange device.

As a further optimization of the technical scheme, the high-temperature waste gas collecting and purifying device of the environment-friendly cold-heat balance heat exchange device comprises a purifying solution cylinder, a waste gas bubbling pump, a gas guide pipe, a purifying bottom hollow pipe, a motor, an output belt wheel, a transmission belt, a driving screw, a receiving belt wheel, a driven screw, a receiving belt wheel I, a transmission belt I, a transmission gear, a fixing ring, a rotating inner gear ring, a stirring sheet, a conical filter plate, a discharge hole, a slotted hole, a movable plug and a connecting rod, wherein the gas guide pipe is fixedly arranged on the waste gas bubbling pump, the gas guide pipe is fixedly arranged on the purifying bottom hollow pipe, the purifying bottom hollow pipe is fixedly arranged inside the purifying solution cylinder, the motor is fixedly arranged on the purifying solution cylinder, the output belt wheel is fixedly arranged on the motor, the transmission belt is arranged on the output belt wheel, the transmission belt is arranged on the driving screw, and the driving, the receiving belt wheel is installed and fixed on the driving screw rod, the driven screw rod is movably installed inside the solution purifying cylinder, the receiving belt wheel is installed and fixed on the driven screw rod, the transmission belt wheel is installed on the receiving belt wheel, the transmission gear is installed and fixed on the driving screw rod, the fixing ring is installed and fixed on the solution purifying cylinder, the rotating inner gear ring is movably installed on the fixing ring, the rotating inner gear ring is meshed with the transmission gear, the stirring sheet is installed and fixed on the rotating inner gear ring, the conical filter plate is movably installed on the driving screw rod, the conical filter plate is movably installed on the driven screw rod, the conical filter plate is in threaded fit with the driving screw rod, the conical filter plate is in threaded fit with the driven screw rod, the discharge port is arranged on the solution purifying cylinder, the slotted hole is formed inside the solution purifying.

As a further optimization of the technical scheme, the cooling heat exchange device of the environment-friendly cold-heat balance heat exchange device comprises a cooling cylinder, a mounting seat, a temperature control valve pipe, a valve plate moving groove, a raft, a through hole, a spring, a connecting water pipe and a water outlet hole, wherein a solution purifying cylinder is fixedly mounted inside the cooling cylinder, a waste gas pump is fixedly mounted on the cooling cylinder, the mounting seat is fixedly mounted on the cooling cylinder, the temperature control valve pipe is fixedly mounted on the mounting seat, the valve plate moving groove is arranged inside the temperature control valve pipe, the raft is slidably mounted inside the valve plate moving groove, the through hole is formed in the raft, the spring is movably mounted on the raft, the connecting water pipe is fixedly mounted on the cooling cylinder, the connecting water pipe is fixedly mounted on the temperature control valve pipe, and the water outlet hole is formed in the cooling cylinder.

As a further optimization of the technical scheme, the warm water storage device of the environment-friendly cold-heat balance heat exchange device comprises a storage cylinder, a water inlet square pipe, a control valve body, a water through hole, a sliding groove, a fixed cylinder body, a sliding piston, a connecting rod III, a sliding water retaining block, an inner groove hole, a spring III, an annular groove, a fixed rod III, a self-locking hole, a spring IV and a self-locking ball, wherein the water inlet square pipe is fixedly arranged on the storage cylinder, the cooling cylinder is fixedly arranged on the water inlet square pipe, the control valve body is fixedly arranged on a water outlet hole, the water through hole is arranged on the control valve body, the sliding groove is arranged inside the control valve body, the fixed cylinder body is fixedly arranged inside the sliding groove, the sliding piston is slidably arranged inside the fixed cylinder body, the sliding water blocking block is arranged inside the sliding groove in a sliding mode, the sliding water blocking block is arranged on the third fixing rod in a sliding mode, the inner groove hole is formed inside the sliding water blocking block, the third spring is arranged inside the inner groove hole in a sliding mode, the annular groove is formed in the inner groove hole in a setting mode, the third fixing rod is arranged and fixed inside the sliding groove, the self-locking hole is formed in the third fixing rod, the fourth spring is arranged inside the self-locking hole in a sliding mode, and the self-locking ball is arranged inside the self-locking.

As a further optimization of the technical scheme, the salt crystal treatment device of the environment-friendly cold-heat balance heat exchange device comprises a crushing and drying cylinder, a hot air inlet pipe, a salt crystal feeding pipe, a first mounting frame, a second mounting frame, a third mounting frame, a fourth rotating shaft, a crushing knife mounting seat, a crushing knife, an internal tooth crushing cylinder, a first crushing knife, a fourth output gear, a fourth transmission gear, a jolting disc, a pushing rod, a sieve disc, a fourth connecting rod, a fourth fixing seat and a sixth spring, wherein the crushing and drying cylinder is fixedly mounted on a cooling cylinder, the hot air inlet pipe is fixedly mounted on the crushing and drying cylinder, the salt crystal feeding pipe is fixedly mounted on the crushing and drying cylinder, the first mounting frame is fixedly mounted inside the crushing and drying cylinder, the second mounting frame is fixedly mounted inside the crushing and drying cylinder, the third mounting frame is fixedly mounted inside the crushing and drying cylinder, broken sword mount pad installation is fixed on rotation axis four, broken sword installation is fixed on broken sword mount pad, the broken section of thick bamboo movable mounting of internal tooth is inside broken stoving section of thick bamboo, broken sword installation is fixed on the broken section of thick bamboo of internal tooth, output gear four installation is fixed on rotation axis four, output gear four and the meshing of drive gear four, drive gear four is through axle movable mounting on mounting bracket two, the meshing on the broken section of thick bamboo of drive gear four and internal tooth, the dish installation of jolting is fixed on rotation axis four, catch bar movable mounting is on mounting bracket three, the sieve dish installation is fixed on connecting rod four, four movable mounting of connecting rod are on fixing base four, on the fixed broken stoving section of thick bamboo of fixing base four installation, six movable mounting of.

As a further optimization of the technical scheme, the waste gas pumping pump of the high-temperature waste gas collecting and purifying device of the environment-friendly cold and heat balance heat exchange device is provided with a matched motor, the number of the driven screw rods and the number of the receiving belt wheels I are three, gas with volume which is easy to change under temperature is arranged between the slotted hole and the movable plug, and the conical filter material plate is provided with a threaded hole.

As a further optimization of the technical scheme, the environment-friendly cold and heat balance heat exchange device is characterized in that gas with volume easily changed by temperature is arranged between the fixed cylinder body and the sliding piston of the warm water storage device, and the number of the self-locking holes, the number of the springs and the number of the self-locking balls are three.

As a further optimization of the technical scheme, the salt crystal treatment device provided by the invention is characterized in that a fourth rotating shaft of the salt crystal treatment device is provided with a matched motor, nine crushing knives are provided, six crushing knives are provided, and three connecting rods, four fixing seats and six springs are provided.

The environment-friendly cold-heat balance heat exchange device has the beneficial effects that:

the invention relates to a heat exchange device, in particular to an environment-friendly cold-heat balance heat exchange device, which realizes the functions of absorbing heat in waste gas and adsorbing and utilizing pollution impurities through a high-temperature waste gas collecting and purifying device, reducing the temperature of the high-temperature waste gas collecting and purifying device by a cooling exchange device, then separating out salt in saturated solution, storing warm water after cooling exchange by a warm water storage device, further treating the separated salt by a salt crystal treatment device and the like.

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 the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a schematic structural diagram of a high-temperature exhaust gas collecting and purifying device according to the present invention.

Fig. 4 is a schematic structural diagram of a high-temperature exhaust gas collecting and purifying device of the present invention.

Fig. 5 is a third schematic structural view of the high-temperature exhaust gas collecting and purifying device of the present invention.

FIG. 6 is a first schematic structural diagram of a cooling exchange device according to the present invention.

FIG. 7 is a schematic structural diagram of a cooling exchange device according to the present invention.

FIG. 8 is a third schematic view of the cooling exchanger according to the present invention.

FIG. 9 is a fourth schematic structural diagram of the cooling exchange device of the present invention.

FIG. 10 is a schematic structural diagram of a cooling exchange device according to the present invention.

Fig. 11 is a first schematic structural diagram of the warm water storage device according to the present invention.

Fig. 12 is a schematic structural diagram of a warm water storage device according to the present invention.

Fig. 13 is a third schematic structural view of the warm water storage device of the present invention.

Fig. 14 is a fourth schematic structural view of the warm water storage device of the present invention.

FIG. 15 is a first schematic structural diagram of a salt crystal processing apparatus according to the present invention.

FIG. 16 is a schematic structural diagram of a salt crystal processing apparatus according to the present invention.

FIG. 17 is a third schematic view of the salt crystal treatment apparatus according to the present invention.

FIG. 18 is a schematic view of a salt crystal treatment apparatus according to the present invention.

FIG. 19 is a schematic view showing the structure of a salt crystal treatment apparatus according to the present invention.

FIG. 20 is a schematic view showing a sixth configuration of the salt crystal treatment apparatus according to the present invention.

In the figure: a high-temperature exhaust gas collection and purification device 1; a purified solution cylinder 1-1; waste gas is blown into a pump 1-2; 1-3 of an air duct; purifying the hollow pipe 1-4 at the bottom end; 1-5 of a motor; an output pulley 1-6; 1-7 of a transmission belt; 1-8 parts of an active lead screw; receiving belt wheels 1-9; 1-10 parts of driven screw; receiving belt wheels 1-11; 1-12 parts of a first transmission belt; transmission gears 1-13; a fixed ring 1-14; rotating the inner gear ring 1-15; 1-16 of a poking sheet; 1-17 parts of a conical filter plate; 1-18 parts of a discharge port; slots 1-19; 1-20 of a movable plug; connecting rods 1-21; a cooling exchange device 2; 2-1 of a cooling cylinder; a mounting base 2-2; 2-3 of a temperature control valve pipe; a valve plate moving groove 2-4; 2-5 of a raft plate; 2-6 of a through hole; 2-7 of a spring; connecting 2-8 water pipes; 2-9 parts of water outlet; a warm water storage device 3; a storage cylinder 3-1; 3-2 of water inlet square pipes; a control valve body 3-3; 3-4 of water through holes; 3-5 of a sliding groove; 3-6 of a fixed cylinder body; 3-7 of a sliding piston; 3-8 of a connecting rod III; 3-9 parts of a sliding water retaining block; 3-10 parts of inner slotted hole; 3-11 parts of a spring; 3-12 of annular groove; 3-13 parts of a fixing rod III; 3-14 parts of self-locking hole; a fourth spring 3-15; 3-16 of self-locking balls; a salt crystal treatment device 4; 4-1 of a crushing and drying cylinder; a hot air inlet pipe 4-2; a salt crystal feeding pipe 4-3; mounting frame I4-4; 4-5 of a second mounting frame; mounting frame III 4-6; rotating the shaft four by 4-7; 4-8 parts of a crushing knife mounting seat; 4-9 parts of a crushing knife; 4-10 parts of an internal tooth crushing cylinder; 4-11 parts of a crushing knife I; output gear four 4-12; transmission gear four 4-13; 4-14 parts of a jounce pan; 4-15 of a push rod; 4-16 of a sieve tray; connecting rod four 4-17; a fourth fixed seat 4-18; and six springs 4-19.

Detailed Description

The first embodiment is as follows:

in order to solve the above technical problems, the present invention relates to a heat exchange device, and more particularly, to an environment-friendly cold-heat balance heat exchange device, including a high-temperature exhaust gas collecting and purifying device 1, a cooling exchange device 2, a warm water storage device 3, and a salt crystal processing device 4, in which the high-temperature exhaust gas collecting and purifying device absorbs heat in exhaust gas and pollutant impurities capable of being adsorbed and utilized, the cooling exchange device reduces the temperature of the high-temperature exhaust gas collecting and purifying device and then separates out salt in a saturated solution, the warm water storage device stores the warm water after cooling exchange, and the salt crystal processing device further processes the separated salt, and is characterized in that: the cooling exchange device 2 is fixedly arranged on the warm water storage device 3, the high-temperature waste gas collecting and purifying device 1 is fixedly arranged on the cooling exchange device 2, and the salt crystal treatment device 4 is fixedly arranged on the cooling exchange device 2.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20. the present embodiment further describes the first embodiment, where the high temperature exhaust gas collecting and purifying device 1 includes a purified solution cylinder 1-1, an exhaust gas blowing pump 1-2, an air duct 1-3, a purified bottom hollow pipe 1-4, a motor 1-5, an output belt wheel 1-6, a driving belt 1-7, a driving screw 1-8, a receiving belt wheel 1-9, a driven screw 1-10, a receiving belt wheel 1-11, a driving belt 1-12, a driving gear 1-13, a fixing ring 1-14, a rotating inner toothed ring 1-15, a driving plate 1-16, a conical filter plate 1-17, A discharge port 1-18, a slotted hole 1-19, a moving plug 1-20 and a connecting rod 1-21, wherein the waste gas of the high-temperature waste gas collecting and purifying device 1 is blown into a pump 1-2 by a waste gas blowing pump to press hot waste gas into a hollow pipe 1-4 at the bottom end of the purification through a gas guide pipe 1-3, then the hot waste gas enters a salt solution of a purification solution cylinder 1-1 from a hole at the lower end to react to generate a new salt solution, the dissolution point of the salt solution can be increased along with the gradual increase of the temperature of the salt solution along with the gradual increase of the temperature of the gas entering the salt solution, when the temperature reaches a certain value, the gas in the slotted hole 1-19 pushes the moving plug 1-20 outwards, the moving plug 1-20 pushes the connecting rod 1-21 outwards, the connecting rod 1-21 pushes outwards to cool a raft 2-5 of the exchange device 2, so that the, crystals in the saturated solution are separated out, then an output belt wheel 1-6 is driven to rotate by a motor 1-5, an output belt wheel 1-6 drives a receiving belt wheel 1-9 to rotate by a transmission belt 1-7, a receiving belt wheel 1-9 drives a driving screw rod 1-8 to rotate, the driving screw rod 1-8 drives a receiving belt wheel 1-11 by a transmission belt 1-12, the receiving belt wheel 1-11 drives a driven screw rod 1-10 to rotate, the driving screw rod 1-8 and the driven screw rod 1-10 drive a conical filter plate 1-17 to ascend and then raise salt to fall on the outward bulge of a purified solution cylinder 1-1, and then when the motor 1-5 drives the conical filter plate 1-17 to fall, the driving screw rod 1-8 drives a transmission gear 1-13 to rotate, the transmission gears 1-13 drive the rotating inner gear ring 1-15 to rotate, the rotating inner gear ring 1-15 drives the shifting sheet 1-16 to rotate, the shifting sheet 1-16 pushes out salt from the discharge port 1-18, the volume of gas between the groove hole 1-19 and the moving plug 1-20 is reduced along with the reduction of the temperature of the solution, the gas guide pipe 1-3 is installed and fixed on the waste gas blast pump 1-2, the gas guide pipe 1-3 is installed and fixed on the hollow pipe 1-4 at the purifying bottom end, the hollow pipe 1-4 at the purifying bottom end is installed and fixed inside the purifying solution cylinder 1-1, the motor 1-5 is installed and fixed on the purifying solution cylinder 1-1, the output belt wheel 1-6 is installed and fixed on the motor 1-5, the transmission belt 1-7 is installed on the output belt wheel 1-6, the transmission belt 1-7 is installed on the driving screw rod 1-8, a driving screw 1-8 is movably arranged in a purified solution cylinder 1-1, a receiving belt wheel 1-9 is fixedly arranged on the driving screw 1-8, a driven screw 1-10 is movably arranged in the purified solution cylinder 1-1, a receiving belt wheel 1-11 is fixedly arranged on the driven screw 1-10, a transmission belt 1-12 is arranged on the receiving belt wheel 1-9, a transmission belt 1-12 is arranged on the receiving belt wheel 1-11, a transmission gear 1-13 is fixedly arranged on the driving screw 1-8, a fixed ring 1-14 is fixedly arranged on the purified solution cylinder 1-1, a rotating inner gear ring 1-15 is movably arranged on the fixed ring 1-14, the rotating inner gear ring 1-15 is engaged with the transmission gear 1-13, and a poking piece 1-16 is fixedly arranged on the rotating inner gear ring 1-15, the conical filter plates 1-17 are movably arranged on the driving screw rods 1-8, the conical filter plates 1-17 are movably arranged on the driven screw rods 1-10, the conical filter plates 1-17 are in threaded fit with the driving screw rods 1-8, the conical filter plates 1-17 are in threaded fit with the driven screw rods 1-10, the discharge ports 1-18 are arranged on the purified solution cylinders 1-1, the slotted holes 1-19 are arranged in the purified solution cylinders 1-1, the movable plugs 1-20 are movably arranged in the slotted holes 1-19, and the connecting rods 1-21 are fixedly arranged on the movable plugs 1-20.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, and 20, and the present embodiment further describes the present embodiment, where the cooling exchanger 2 includes a cooling cylinder 2-1, a mounting base 2-2, a temperature control valve pipe 2-3, a valve plate moving slot 2-4, a raft 2-5, a through hole 2-6, a spring 2-7, a connecting water pipe 2-8, and a water outlet hole 2-9, so that the through hole 2-6 on the raft 2-5 is communicated with the temperature control valve pipe 2-3, one end of the temperature control valve pipe 2-3 is connected to a tap water inlet pipe and one end is connected to the water pipe 2-8, and then the tap water enters the connecting water pipe 2-8 through the temperature control valve pipe 2-3 and enters the cooling cylinder 2-1, the springs 2-7 push the raft 2-5 to move upwards, the through holes 2-6 and the temperature control valve pipes 2-3 are separated and stop injecting water into the cooling cylinder 2-1, when the water in the cooling cylinder 2-1 is exchanged to a certain temperature, the purifying solution cylinder 1-1 is installed and fixed inside the cooling cylinder 2-1, the waste gas blowing pump 1-2 is installed and fixed on the cooling cylinder 2-1, the installation base 2-2 is installed and fixed on the cooling cylinder 2-1, the temperature control valve pipes 2-3 are installed and fixed on the installation base 2-2, the valve plate moving grooves 2-4 are arranged inside the temperature control valve pipes 2-3, the raft 2-5 is installed inside the valve plate moving grooves 2-4 in a sliding manner, the through holes 2-6 are arranged on the raft 2-5, the springs 2-7 are movably installed on the raft 2-5, the connecting water pipe 2-8 is fixedly arranged on the cooling cylinder 2-1, the connecting water pipe 2-8 is fixedly arranged on the temperature control valve pipe 2-3, and the water outlet hole 2-9 is arranged on the cooling cylinder 2-1.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20. the present embodiment further describes the present embodiment, wherein the warm water storage device 3 includes a storage cylinder 3-1, a water inlet square pipe 3-2, a control valve body 3-3, a water through hole 3-4, a sliding groove 3-5, a fixed cylinder 3-6, a sliding piston 3-7, a connecting rod three 3-8, a sliding water blocking block 3-9, an inner groove hole 3-10, a spring three 3-11, an annular groove 3-12, a fixing rod three 3-13, a self-locking hole 3-14, a spring four 3-15, a self-locking ball 3-16, and the gas between the fixed cylinder 3-6 and the sliding piston 3-7 of the warm water storage device 3 is expanded by the influence of temperature, when certain pressure is accumulated, the sliding piston 3-7 instantly and quickly pushes and compresses the spring III 3-11 outwards in the fixed cylinder 3-6, the fixed cylinder 3-6 pushes the connecting rod III 3-8, the connecting rod III 3-8 pushes the sliding water retaining block 3-9, the annular groove 3-12 in the sliding water retaining block 3-9 is separated from the self-locking ball 3-16 in the fixed rod III 3-13, the self-locking ball 3-16 moves in the self-locking hole 3-14 to compress the spring IV 3-15, then the warm water in the cooling cylinder 2-1 enters the water inlet square pipe 3-2 through the water through hole 3-4 and flows into the storage cylinder 3-1 for storage, when the water flow is clean, the temperature is reduced, and the sliding water retaining block 3-9 is restored to the original position in the spring III 3-11 to seal the water outlet hole 2-9, a water inlet square pipe 3-2 is fixedly arranged on a storage cylinder 3-1, a cooling cylinder 2-1 is fixedly arranged on the water inlet square pipe 3-2, a control valve body 3-3 is fixedly arranged on the water inlet square pipe 3-2, the control valve body 3-3 is fixedly arranged on a water outlet hole 2-9, a water through hole 3-4 is arranged on the control valve body 3-3, a sliding groove 3-5 is arranged inside the control valve body 3-3, a fixed cylinder body 3-6 is fixedly arranged inside a sliding groove 3-5, a sliding piston 3-7 is slidably arranged inside a fixed cylinder body 3-6, a connecting rod three 3-8 is fixedly arranged on a sliding piston 3-7, a connecting rod three 3-8 is fixedly arranged on a sliding water blocking block 3-9, the sliding water blocking block 3-9 is slidably arranged inside the sliding groove 3-5, the sliding water-retaining block 3-9 is slidably mounted on the fixing rod III 3-13, the inner groove hole 3-10 is arranged inside the sliding water-retaining block 3-9, the spring III 3-11 is slidably mounted inside the inner groove hole 3-10, the annular groove 3-12 is arranged on the inner groove hole 3-10, the fixing rod III 3-13 is fixedly mounted inside the sliding groove 3-5, the self-locking hole 3-14 is arranged on the fixing rod III 3-13, the spring IV 3-15 is slidably mounted inside the self-locking hole 3-14, the self-locking ball 3-16 is slidably mounted inside the self-locking hole 3-14, and the self-locking ball 3-16 is matched with the annular groove 3-12.

The fifth concrete implementation mode:

the salt crystal processing device 4 comprises a crushing drying cylinder 4-1, a hot air inlet pipe 4-2, a salt crystal feeding pipe 4-3, a mounting frame I4-4, a mounting frame II 4-5, a mounting frame III 4-6, a rotating shaft IV 4-7, a crushing knife mounting seat 4-8, a crushing knife 4-9, an internal tooth crushing cylinder 4-10, a crushing knife I4-11, an output gear IV 4-12, a transmission gear IV 4-13, a bumping disc 4-14, a push rod 4-15, a screen disc 4-16, a connecting rod IV 4-17, A fixed seat IV 4-18 and a spring VI 4-19, salt discharged from a discharge port 1-18 enters a crushing and drying cylinder 4-1 through a salt crystal feeding pipe 4-3, then hot air is blown into the crushing and drying cylinder 4-1 by a hot air inlet pipe 4-2 to dry the salt, a matching motor of the rotating shaft IV 4-7 drives the rotating shaft IV 4-7 to rotate, the rotating shaft IV 4-7 drives a crushing knife installation seat 4-8 to rotate, the crushing knife installation seat 4-8 drives a crushing knife 4-9 to rotate, the rotating shaft IV 4-7 drives an output gear IV 4-12 to rotate, the output gear IV 4-12 drives a transmission gear IV 4-13 to rotate, the transmission gear IV 4-13 drives an internal tooth crushing cylinder 4-10 to rotate, the internal tooth crushing cylinder 4-10 drives a crushing knife I4-11 to rotate, and the crushing knife I4-11 and the crushing knife 4-9 rotate in opposite directions to quickly crush the dried salt, the rotating shaft IV 4-7 drives the bumping disk 4-14 to rotate, the bumping disk 4-14 pushes the screen disk 4-16 to move downwards through the push rod 4-15, then the spring IV 4-19 pushes the screen disk 4-16 back to the original position through the connecting rod IV 4-17 and the fixing seat IV 4-18 to repeatedly move the screen disk 4-16 up and down continuously to filter the crushed salt, the crushing and drying cylinder 4-1 is arranged and fixed on the cooling cylinder 2-1, the hot air inlet pipe 4-2 is arranged and fixed on the crushing and drying cylinder 4-1, the salt crystal feeding pipe 4-3 is arranged and fixed on the crushing and drying cylinder 4-1, the mounting frame I4-4 is arranged and fixed inside the crushing and drying cylinder 4-1, the mounting rack II 4-5 is fixedly arranged inside the crushing and drying cylinder 4-1, the mounting rack III 4-6 is fixedly arranged inside the crushing and drying cylinder 4-1, the rotating shaft IV 4-7 is movably arranged on the mounting rack I4-4, the mounting rack II 4-5 and the mounting rack III 4-6, the crushing knife mounting seat 4-8 is fixedly arranged on the rotating shaft IV 4-7, the crushing knife 4-9 is fixedly arranged on the crushing knife mounting seat 4-8, the internal tooth crushing cylinder 4-10 is movably arranged inside the crushing and drying cylinder 4-1, the crushing knife I4-11 is fixedly arranged on the internal tooth crushing cylinder 4-10, the output gear IV 4-12 is fixedly arranged on the rotating shaft IV 4-7, the output gear IV 4-12 is meshed with the transmission gear IV 4-13, and the transmission gear IV 4-13 is movably arranged on the mounting rack II 4-5 through a shaft, a transmission gear IV 4-13 is meshed with an internal tooth crushing cylinder 4-10, a bumping disc 4-14 is fixedly arranged on a rotating shaft IV 4-7, a push rod 4-15 is movably arranged on a mounting rack III 4-6, a screen disc 4-16 is fixedly arranged on a connecting rod IV 4-17, the connecting rod IV 4-17 is movably arranged on a fixing seat IV 4-18, the fixing seat IV 4-18 is fixedly arranged on a crushing drying cylinder 4-1, and a spring VI 4-19 is movably arranged on the connecting rod IV 4-17.

The sixth specific implementation mode:

the second embodiment is further described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, and 20. the exhaust gas inflow pump 1-2 of the high-temperature exhaust gas collection and purification device 1 is provided with a matching motor, the number of the driven screw shafts 1-10 and the receiving pulleys 1-11 is three, gas whose volume is easily changed by temperature is provided between the slots 1-19 and the moving plugs 1-20, and the tapered filter plates 1-17 are provided with threaded holes.

The seventh embodiment:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, and 20, and the present embodiment further describes a fourth embodiment in which a gas whose volume is very easily changed by temperature is provided between the fixed cylinder 3-6 and the sliding piston 3-7 of the warm water storage device 3, and the number of the self-locking holes 3-14, the springs four 3-15, and the self-locking balls 3-16 is three.

The specific implementation mode is eight:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, and 20, and the present embodiment further describes the fifth embodiment, in which a rotating shaft four 4-7 of the salt crystal processing apparatus 4 is provided with a matching motor, the number of crushing knives 4-9 is nine, the number of crushing knives one 4-11 is six, and the number of connecting rods four 4-17, fixing seats four 4-18, and springs six 4-19 is three.

The working principle of the invention is as follows:

an environment-friendly cold-heat balance heat exchange device has the working principle that before the device is used, whether the connection condition between the devices meets the requirements is checked, the waste gas of a high-temperature waste gas collecting and purifying device 1 is blown into a pump 1-2 to press the hot waste gas into a hollow pipe 1-4 at the bottom end of the purification through a gas guide pipe 1-3, then the hot waste gas enters a salt solution of a purification solution cylinder 1-1 from a hole at the lower end to react to generate a new salt solution, the solution point of the salt solution is lifted along with the gradual temperature rise of the salt solution along with the temperature rise of the gas entering the salt solution, when the temperature reaches a certain value, the gas in a slotted hole 1-19 pushes a movable plug 1-20 outwards, the movable plug 1-20 pushes a connecting rod 1-21 outwards, the connecting rod 1-21 pushes a raft 2-5 of a cooling exchange device 2 outwards, so that a through hole 2-6 on the raft 2-5 is communicated with a temperature control valve pipe, one end of a temperature control valve pipe 2-3 is connected with a tap water inlet pipe and the other end is connected with a water pipe 2-8, then tap water enters a connecting water pipe 2-8 through the temperature control valve pipe 2-3 and enters a cooling cylinder 2-1, then the temperature of the solution in a purified solution cylinder 1-1 is reduced, crystals in the saturated solution are separated out, then an output belt wheel 1-6 is driven to rotate through a motor 1-5, the output belt wheel 1-6 drives a receiving belt wheel 1-9 to rotate through a transmission belt 1-7, the receiving belt wheel 1-9 drives a driving screw 1-8 to rotate, the driving screw 1-8 drives a receiving belt wheel 1-11 through a transmission belt 1-12, the receiving belt wheel 1-11 drives a driven screw 1-10 to rotate, the driving screw 1-8 and the driven screw 1-10 drive a conical filter plate 1-17 to ascend through the transmission belt 1-12 Then salt is lifted to the outward protruding part of the purified solution barrel 1-1, then when a motor 1-5 drives a conical filter plate 1-17 to fall, a driving screw 1-8 drives a transmission gear 1-13 to rotate, the transmission gear 1-13 drives a rotating inner gear ring 1-15 to rotate, the rotating inner gear ring 1-15 drives a shifting piece 1-16 to rotate, the shifting piece 1-16 pushes the salt out of a discharge port 1-18, the volume of gas between a groove hole 1-19 and a moving plug 1-20 is reduced along with the reduction of the temperature of the solution, then a spring 2-7 pushes a raft plate 2-5 to move upwards, a through hole 2-6 and a temperature control valve pipe 2-3 are separated to stop injecting water into a cooling barrel 2-1, when the water in the cooling barrel 2-1 is exchanged to a certain temperature, when certain pressure is accumulated, the sliding piston 3-7 pushes outwards and compresses the spring III 3-11 instantly and quickly in the fixed cylinder 3-6, the fixed cylinder 3-6 pushes the connecting rod III 3-8, the connecting rod III 3-8 pushes the sliding water retaining block 3-9, the annular groove 3-12 in the sliding water retaining block 3-9 is separated from the self-locking ball 3-16 in the fixing rod III 3-13, the self-locking ball 3-16 moves the compression spring IV 3-15 in the self-locking hole 3-14, then the warm water in the cooling cylinder 2-1 enters the water inlet square pipe 3-2 through the water through hole 3-4 and flows to the storage cylinder 3-1 for storage, when water flow is clean, the temperature is reduced, the sliding water retaining block 3-9 is restored to the original position at the spring III 3-11 to seal the water outlet hole 2-9, salt discharged from the discharge hole 1-18 enters the crushing and drying cylinder 4-1 through the salt crystal feeding pipe 4-3, then hot air is blown into the crushing and drying cylinder 4-1 through the hot air inlet pipe 4-2 to dry the salt, a matching motor of the rotating shaft IV 4-7 drives the rotating shaft IV 4-7 to rotate, the rotating shaft IV 4-7 drives the crushing knife mounting seat 4-8 to rotate, the crushing knife mounting seat 4-8 drives the crushing knife 4-9 to rotate, the rotating shaft IV 4-7 drives the output gear IV 4-12 to rotate, the output gear IV 4-12 drives the transmission gear IV 4-13 to rotate, the transmission gear IV 4-13 drives the crushing cylinder 4-10 to rotate, the crushing cylinder 4-10 with the internal teeth drives the crushing knife I4-11 to rotate, the crushing knife I4-11 and the crushing knife 4-9 rotate in opposite directions to quickly crush dried salt, the rotating shaft IV 4-7 drives the bumping disc 4-14 to rotate, the bumping disc 4-14 pushes the screen disc 4-16 to move downwards through the push rod 4-15, and then the spring VI 4-19 pushes the screen disc 4-16 back to the original position through the connecting rod IV 4-17 and the fixing seat IV 4-18 to repeatedly enable the screen disc 4-16 to continuously move upwards and downwards to filter the crushed salt.

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 (8)

1. The utility model provides a cold and hot balanced heat exchange device of environment-friendly, collects purifier (1), cooling exchange device (2), warm water storage device (3), salt crystal processing apparatus (4) including high temperature waste gas, its characterized in that: the cooling exchange device (2) is fixedly arranged on the warm water storage device (3), the high-temperature waste gas collecting and purifying device (1) is fixedly arranged on the cooling exchange device (2), and the salt crystal treatment device (4) is fixedly arranged on the cooling exchange device (2).

2. The environment-friendly cold-heat balance heat exchange device according to claim 1, wherein: the high-temperature waste gas collecting and purifying device (1) comprises a purification solution cylinder (1-1), a waste gas blowing pump (1-2), a gas guide pipe (1-3), a purification bottom hollow pipe (1-4), a motor (1-5), an output belt wheel (1-6), a transmission belt (1-7), a driving lead screw (1-8), a receiving belt wheel (1-9), a driven lead screw (1-10), a receiving belt wheel (1-11), a transmission belt (1-12), a transmission gear (1-13), a fixing ring (1-14), a rotating inner gear ring (1-15), a poking sheet (1-16), a conical filter plate (1-17), a discharge port (1-18), a slotted hole (1-19), a moving plug (1-20), The device comprises connecting rods (1-21), air guide pipes (1-3) are fixedly installed on a waste gas bubbling pump (1-2), the air guide pipes (1-3) are fixedly installed on hollow pipes (1-4) at the purification bottom end, the hollow pipes (1-4) at the purification bottom end are fixedly installed inside a solution purification cylinder (1-1), motors (1-5) are fixedly installed on the solution purification cylinder (1-1), output belt wheels (1-6) are fixedly installed on the motors (1-5), transmission belts (1-7) are installed on the output belt wheels (1-6), the transmission belts (1-7) are installed on driving screw rods (1-8), the driving screw rods (1-8) are movably installed inside the solution purification cylinder (1-1), and receiving belt wheels (1-9) are fixedly installed on the driving screw rods (1-8), a driven screw rod (1-10) is movably arranged in a purified solution cylinder (1-1), a receiving belt wheel (1-11) is fixedly arranged on the driven screw rod (1-10), a transmission belt (1-12) is arranged on a receiving belt wheel (1-9), the transmission belt (1-12) is arranged on the receiving belt wheel (1-11), a transmission gear (1-13) is fixedly arranged on a driving screw rod (1-8), a fixed ring (1-14) is fixedly arranged on the purified solution cylinder (1-1), a rotating inner gear ring (1-15) is movably arranged on the fixed ring (1-14), the rotating inner gear ring (1-15) is meshed with the transmission gear (1-13), a shifting sheet (1-16) is fixedly arranged on the rotating inner gear ring (1-15), the conical filter plates (1-17) are movably mounted on the driving lead screws (1-8), the conical filter plates (1-17) are movably mounted on the driven lead screws (1-10), the conical filter plates (1-17) are in threaded fit with the driving lead screws (1-8), the conical filter plates (1-17) are in threaded fit with the driven lead screws (1-10), the discharge ports (1-18) are arranged on the purified solution cylinders (1-1), the slotted holes (1-19) are arranged in the purified solution cylinders (1-1), the movable plugs (1-20) are movably mounted in the slotted holes (1-19), and the connecting rods (1-21) are fixedly mounted on the movable plugs (1-20).

3. The environment-friendly cold-heat balance heat exchange device according to claim 1, wherein: the cooling exchange device (2) comprises a cooling cylinder (2-1), a mounting seat (2-2), a temperature control valve pipe (2-3), a valve plate moving groove (2-4), a raft plate (2-5), a through hole (2-6), a spring (2-7), a connecting water pipe (2-8) and a water outlet hole (2-9), wherein a purifying solution cylinder (1-1) is fixedly arranged in the cooling cylinder (2-1), a waste gas blowing pump (1-2) is fixedly arranged on the cooling cylinder (2-1), the mounting seat (2-2) is fixedly arranged on the cooling cylinder (2-1), the temperature control valve pipe (2-3) is fixedly arranged on the mounting seat (2-2), the valve plate moving groove (2-4) is arranged in the temperature control valve pipe (2-3), the raft plates (2-5) are slidably mounted inside the valve plate moving grooves (2-4), the through holes (2-6) are formed in the raft plates (2-5), the springs (2-7) are movably mounted on the raft plates (2-5), the connecting water pipes (2-8) are fixedly mounted on the cooling cylinder (2-1), the connecting water pipes (2-8) are fixedly mounted on the temperature control valve pipes (2-3), and the water outlet holes (2-9) are formed in the cooling cylinder (2-1).

4. The environment-friendly cold-heat balance heat exchange device according to claim 1, wherein: the warm water storage device (3) comprises a storage cylinder (3-1), a water inlet square pipe (3-2), a control valve body (3-3), a water passing hole (3-4), a sliding groove (3-5), a fixed cylinder body (3-6), a sliding piston (3-7), a connecting rod III (3-8), a sliding water retaining block (3-9), an inner slotted hole (3-10), a spring III (3-11), an annular groove (3-12), a fixed rod III (3-13), a self-locking hole (3-14), a spring IV (3-15) and a self-locking ball (3-16), wherein the water inlet square pipe (3-2) is fixedly arranged on the storage cylinder (3-1), a cooling cylinder (2-1) is fixedly arranged on the water inlet square pipe (3-2), the control valve body (3-3) is fixedly arranged on the water inlet square pipe (3-2), the control valve body (3-3) is fixedly arranged on the water outlet hole (2-9), the water passing hole (3-4) is arranged on the control valve body (3-3), the sliding groove (3-5) is arranged in the control valve body (3-3), the fixed cylinder body (3-6) is fixedly arranged in the sliding groove (3-5), the sliding piston (3-7) is slidably arranged in the fixed cylinder body (3-6), the connecting rod III (3-8) is fixedly arranged on the sliding piston (3-7), the connecting rod III (3-8) is fixedly arranged on the sliding water retaining block (3-9), the sliding water retaining block (3-9) is slidably arranged in the sliding groove (3-5), and the sliding water retaining block (3-9) is slidably arranged on the fixing rod III (3-13), the inner slotted hole (3-10) is arranged inside the sliding water retaining block (3-9), the spring III (3-11) is arranged inside the inner slotted hole (3-10) in a sliding mode, the annular groove (3-12) is arranged on the inner slotted hole (3-10), the fixed rod III (3-13) is fixedly arranged inside the sliding groove (3-5), the self-locking hole (3-14) is arranged on the fixed rod III (3-13), the spring IV (3-15) is arranged inside the self-locking hole (3-14) in a sliding mode, the self-locking ball (3-16) is arranged inside the self-locking hole (3-14) in a sliding mode, and the self-locking ball (3-16) is matched with the annular groove (3-12).

5. The environment-friendly cold-heat balance heat exchange device according to claim 1, wherein: the salt crystal treatment device (4) comprises a crushing and drying cylinder (4-1), a hot air inlet pipe (4-2), a salt crystal feeding pipe (4-3), a first mounting rack (4-4), a second mounting rack (4-5), a third mounting rack (4-6), a fourth rotating shaft (4-7), a crushing knife mounting seat (4-8), a crushing knife (4-9), an internal tooth crushing cylinder (4-10), a first crushing knife (4-11), a fourth output gear (4-12), a fourth transmission gear (4-13), a jolt disc (4-14), a push rod (4-15), a sieve disc (4-16), a fourth connecting rod (4-17), a fourth fixing seat (4-18) and a sixth spring (4-19), wherein the crushing and drying cylinder (4-1) is fixedly arranged on a cooling cylinder (2-1), the hot air inlet pipe (4-2) is fixedly arranged on the crushing and drying cylinder (4-1), the salt crystal feeding pipe (4-3) is fixedly arranged on the crushing and drying cylinder (4-1), the first mounting frame (4-4) is fixedly arranged inside the crushing and drying cylinder (4-1), the second mounting frame (4-5) is fixedly arranged inside the crushing and drying cylinder (4-1), the third mounting frame (4-6) is fixedly arranged inside the crushing and drying cylinder (4-1), the fourth rotating shaft (4-7) is movably arranged on the first mounting frame (4-4), the second mounting frame (4-5) and the third mounting frame (4-6), the crushing knife mounting seat (4-8) is fixedly arranged on the fourth rotating shaft (4-7), and the crushing knife (4-9) is fixedly arranged on the crushing knife mounting seat (4-8), an internal tooth crushing cylinder (4-10) is movably arranged inside a crushing drying cylinder (4-1), a crushing cutter I (4-11) is fixedly arranged on the internal tooth crushing cylinder (4-10), an output gear IV (4-12) is fixedly arranged on a rotating shaft IV (4-7), the output gear IV (4-12) is meshed with a transmission gear IV (4-13), the transmission gear IV (4-13) is movably arranged on an installation frame II (4-5) through a shaft, the transmission gear IV (4-13) is meshed with the internal tooth crushing cylinder (4-10), a bumping disc (4-14) is fixedly arranged on the rotating shaft IV (4-7), a push rod (4-15) is movably arranged on the installation frame III (4-6), a screen disc (4-16) is fixedly arranged on a connecting rod IV (4-17), a connecting rod IV (4-17) is movably arranged on the fixed seat IV (4-18), the fixed seat IV (4-18) is fixedly arranged on the crushing drying cylinder (4-1), and a spring VI (4-19) is movably arranged on the connecting rod IV (4-17).

6. The environment-friendly cold-heat balance heat exchange device according to claim 2, wherein: the waste gas blowing-in pump (1-2) of the high-temperature waste gas collecting and purifying device (1) is provided with a matched motor, the number of the driven screw rods (1-10) and the number of the receiving belt wheels (1-11) are three, gas with the volume which is easy to change under the temperature is arranged between the slotted holes (1-19) and the moving plugs (1-20), and threaded holes are formed in the conical filter plates (1-17).

7. The environment-friendly cold-heat balance heat exchange device according to claim 4, wherein: gas with volume which is easy to change by temperature is arranged between the fixed cylinder body (3-6) and the sliding piston (3-7) of the warm water storage device (3), and the number of the self-locking holes (3-14), the number of the springs (3-15) and the number of the self-locking balls (3-16) are three.

8. The environment-friendly cold-heat balance heat exchange device according to claim 5, wherein: the salt crystal treatment device is characterized in that a hot air blowing device is arranged in a hot air inlet pipe (4-2) of the salt crystal treatment device (4), a rotating shaft four (4-7) is provided with a matched motor, nine crushing knives (4-9) are provided, six crushing knives I (4-11) are provided, and three connecting rods four (4-17), four fixing seats (4-18) and six springs (4-19) are provided.