CN111207374A - Steam forming method for adjusting inclination angle through buoyancy - Google Patents

Abstract

The invention discloses a steam forming method for adjusting an inclination angle through buoyancy, which is characterized in that air heated by solar energy is input into a heat exchanger positioned in a water storage pipe through an air pump to heat water in the water storage tank, the water is heated and then evaporated to form steam which is output from a steam output port, the water in the water storage tank is stirred through a stirrer in the heating process of the heat exchanger, a push plate in the stirrer generates inclination angle change under the action of the buoyancy of a floating ball and the tension of a spring in a matching manner so as to change the force of pushing up the water when the push plate rotates, and the change process of the inclination angle of the push plate is increased along with the increase of the liquid level in the water storage tank. The invention has the advantages of high heat exchange speed and capability of increasing the water pushing force along with the increase of the water level, and solves the problem of low heat exchange speed of the existing hot air heating steam generator.

Description

Steam forming method for adjusting inclination angle through buoyancy

Technical Field

The invention relates to the technical field of steam production, in particular to a steam forming method for adjusting an inclination angle through buoyancy.

Background

In the prior art, the vertically arranged hot air steam generator is basically formed by heating water in a water storage tank by an electric heater or fuel oil combustion to generate heat to be evaporated to form steam. In order to realize the full utilization of solar energy, the solar energy is used for heating air, then the hot air is input into a heat exchanger in a water storage tank through a pipeline, when the hot air passes through the heat exchanger, the heat is conducted to water in the water storage tank so that the water is evaporated to form steam, the air releasing the heat flows back to a solar heater to be heated by the solar energy, and the circulation is carried out. Since hot air is heated in a flowing manner, heat still flows away if the heat is not exchanged in time (while the traditional electric heating and fuel oil heating is that a heat source is always maintained in a water storage rod tank (namely static heating), the heat exchange efficiency is high and low, the heat is finally released into water, the heat exchange efficiency is affected only by a long heating time end and cannot cause excessive increase of heat loss), the heat flowing away along with the hot air is equivalent to heat loss, and the existing steam generator is heated in a static state, so that water is kept still in the heating process (because the static heating does not need water to move), and the heat exchange speed between the heat exchanger and the water is slow.

Disclosure of Invention

The invention provides a steam forming method which is high in heat exchange speed, can increase the water pushing force along with the increase of the water level, heats through hot air and adjusts the inclination angle through buoyancy, and solves the problem that the existing steam generator heated through hot air is low in heat exchange speed.

The technical problem is solved by the following technical scheme: the utility model provides a steam forming method through buoyancy angle of inclination that adjusts, its characterized in that, will utilize solar energy heating's air input to be located the heat exchanger in the water storage pipe through the air pump and heat for the water in the water storage tank, water evaporates and forms steam and export from the steam delivery outlet after being heated, the in-process of heat exchanger heating stirs the water in the water storage tank through the agitator, the stirring in-process makes the push pedal in the agitator produce the power that the inclination changes in order to change push up water when the push pedal rotates under the buoyancy of floater cooperates the pulling force effect of spring, the change process of push pedal inclination is for increasing along with the increase of the liquid level in the water storage tank.

Preferably, the buoyancy inclination angle adjusting type steam generator is realized by a buoyancy inclination angle adjusting type steam generator, the buoyancy inclination angle adjusting type steam generator comprises a water storage tank, a heat exchanger for heating water in the water storage tank and a stirrer for stirring water in the water storage tank, the water storage tank is provided with a steam outlet, the stirrer comprises a vertical rotating shaft, a motor for driving the vertical rotating shaft to rotate and a plurality of stirring paddles arranged on the vertical rotating shaft, each stirring paddle comprises a push plate, a spring, a horizontal connecting rod, one end of the horizontal connecting rod is connected with the vertical rotating shaft and is provided with a horizontal sliding cavity, one end of the horizontal connecting rod penetrates through the horizontal connecting rod in a sealing mode and is fixed at the other end of the horizontal connecting rod and penetrates through the horizontal sliding cavity, a sliding pipe part piston connected with the sliding pipe part piston in a sealing mode and is connected with the horizontal sliding pipe part piston, a supporting rod stretches out of the horizontal sliding pipe through the other end of the, the horizontal sliding cavity is internally and hermetically and slidably connected with a connecting rod part piston which is arranged on the horizontal sliding pipe in a sealing and sliding manner, the connecting rod part piston is separated into a hydraulic cavity which is positioned on one side of the connecting rod part piston away from the sliding pipe part piston in the horizontal sliding cavity, liquid is filled in the hydraulic cavity, the hydraulic cavity is communicated with the horizontal sliding pipe, the connecting rod part piston is connected with a stirrer part floating ball which is positioned in a liquid storage tank and used for driving a supporting rod to output the horizontal sliding pipe through a guy cable output by the hydraulic cavity, one end of the horizontal sliding pipe away from the connecting pipe is provided with a connecting seat, the upper end of a push plate is hinged with the connecting seat through a shaft pin, the lower end of the push plate is placed on the part of the supporting rod positioned outside the horizontal sliding pipe, the included angle between the shaft pin and the horizontal sliding pipe is smaller than 90 degrees, and the distance between the part of the supporting rod, which is in contact with the push plate, and the And increases with an increase. When the solar water heater is used, water is filled in the water storage tank, the distance between the water level and the bottom wall of the water storage tank is more than 20 centimeters, hot air heated by solar energy and stored heat flows through the heat exchanger to heat water in the water storage tank, and steam generated by evaporation of the heated water is output from the steam output port. The vertical rotating shaft is driven by the motor to rotate in the heating process, the vertical rotating shaft drives the stirring paddle to rotate, so that water is stirred, and the water in contact with the heat exchanger is quickly changed as a result of stirring the water, so that the heat exchange effect is improved. In the technical scheme, in a designed upper water level variation range, the deeper the water level is, the farther the distance between the floating ball and the stirring paddle is, the floating ball moves towards the direction of the vertical rotating shaft through the pulling rope connecting pipe part piston to reduce the volume of a hydraulic cavity, liquid in the hydraulic cavity is extruded into a horizontal smooth pipe to overcome the elasticity of a spring to drive a supporting rod to extend out, the supporting rod extends out to drive a push plate to rotate by taking the shaft pin as the shaft to increase the inclination angle, and the force of pushing water up when the push plate rotates is increased when the inclination angle is increased; therefore, according to the technical scheme, the deeper the water level is, the larger the force for pushing up the water to make the water rise is. The force pushing up water in the rotation process of the existing stirring paddle is kept unchanged, so that the water rising speed is slow when the water is deep, the slow water rising speed means that the water contacted with the heat exchanger is slow in conversion, and the slow conversion speed means that the heat exchange speed is slow, so that the influence of the water depth on the heat exchange is large when the existing stirring paddle is used for stirring of a steam generator, and the inclination angle of the push plate is increased when the water depth of the stirrer is increased, so that the force pushing up water is increased when the water depth is increased, and the influence of the water depth increase on the heat exchange speed can be reduced. In the designed water level range, when the water level is lowered to cause the inhaul cable to be loosened, the supporting rod is contracted under the action of the spring to drive liquid in the horizontal smooth pipe to enter the hydraulic cavity and drive the piston of the connecting pipe part to be far away from the vertical rotating shaft, so that the inhaul cable is kept in a tensioning state. The action point of the thrust generated by pushing the push plate by water in the rotating process is always positioned below the shaft pin.

Preferably, a through groove which extends in the vertical direction and penetrates through the stirring shaft in the horizontal direction is formed in the vertical stirring shaft, all stirring paddles share one floating ball of the stirrer portion, the floating ball of the stirrer portion is sleeved on the vertical rotating shaft, the floating ball of the stirrer portion is connected with a guy cable connecting rod which penetrates through the through groove, and the guy cable is connected to the guy cable connecting rod and is connected with the floating ball of the stirrer portion. Compact structure and reliable driving.

Preferably, a stay cable through hole is formed in the horizontal connecting rod, a fixed pulley connected with the vertical rotating shaft is further arranged on the stirring paddle, the stay cable through hole is separated from the horizontal sliding cavity through a partition plate, the stay cable extends out of the hydraulic cavity through the partition plate and the stay cable through hole, then is supported on the fixed pulley to be reversed and is connected with the stay cable connecting rod, and the stay cable and the partition plate are connected together in a sealing and sliding mode; when the inhaul cable is tensioned, the inhaul cable is disconnected with the hole wall of the inhaul cable through hole. Resistance when can reducing the cable and remove to the realization makes can drive again when the floater is less, also realizes reducing the volume of floater, and the floater is small then can reduce the floater and occupy the area of liquid level, thereby reduces the influence of floater to evaporation area.

Preferably, the shaft pin is parallel to the horizontal slide tube. The smoothness is better when the supporting rod drives the push plate to rotate.

Preferably, when the supporting rod extends out of the horizontal sliding pipe to the limit position, the inclination angle of the supporting plate is 45 degrees, and when the supporting rod is inserted into the horizontal sliding pipe to the limit position, the supporting plate is in a vertical state.

Preferably, the spring is located in the horizontal sliding tube, and the spring is located on one side of the sliding tube piston away from the holding rod. Compact structure, the overall arrangement is convenient, connects reliably.

Preferably, the shaft pin and the holding rod are both located behind the rotation direction of the pallet when the pallet is driven to rotate by the vertical rotation shaft. Preventing the components located on the push plate from interfering with the action of the push plate pushing water up.

Preferably, the stirring paddle is located below the heat exchanger. This technical scheme makes water push up water, and the temperature of lower part is low from the heat exchanger below during the stirring for the hydroenergy of contact with the heat exchanger can keep big difference in temperature between with the heat exchanger, and heat transfer speed can obtain improving.

Preferably, the motor is positioned at the top of the water storage tank, and the upper end of the vertical rotating shaft is connected with the motor and suspended in the water storage tank. The sealing is convenient.

Preferably, the inner surface of the top wall of the water storage tank is a slope, and the steam outlet is butted with the highest point of the inner surface of the top wall of the water storage tank. Can occupy the headspace of water storage tank and move the condition on the limit with steam output port at the agitator, improve the patency when steam flows out.

The technical scheme has the following advantages: the stirrer is arranged to stir the water in the water storage tank, so that the water in contact with the heat exchanger is quickly changed, and the heat exchange effect is improved; during stirring, water pushes up from the lower part of the heat exchanger, and the water temperature at the lower part is low, so that the water in contact with the heat exchanger can keep a large temperature difference with the heat exchanger, and the heat exchange speed can be improved; the deeper the water level, the greater the force of pushing up the water to cause the water to rise, if the force of pushing up the water remains constant, the slower the speed of water rise at the deeper the water, meaning the slow speed of water conversion in contact with the heat exchanger, the slower the speed of conversion meaning the slow speed of heat transfer, so the constant thrust causes the greater the influence of the water depth on the heat transfer, and the invention increases the inclination of the push plate when the water depth increases, thus realizing the increase of the force of pushing up the water when the water depth increases, thus reducing the influence of the water depth increase on the heat transfer speed.

Drawings

FIG. 1 is a cross-sectional view of a buoyancy tilt angle steam generator of the present invention;

FIG. 2 is an enlarged partial schematic view at A of FIG. 1;

FIG. 3 is a schematic view of the paddle as projected along direction B of FIG. 2;

FIG. 4 is a schematic cross-sectional view of C-C of FIG. 3.

In the figure: the water storage tank comprises a water storage tank 1, a steam outlet 2, an inner surface 3 of the top wall of the water storage tank, a water inlet pipe plate 4, a water outlet pipe plate 5, a heat exchange pipe 6, an air inlet pipe orifice 7, an air outlet pipe orifice 8, a vertical rotating shaft 9, a motor 10, a stirring paddle 11, a push plate 12, a spring 13, a horizontal sliding cavity 14, a horizontal connecting rod 15, a horizontal sliding pipe 16, a sliding pipe part piston 17, a supporting rod 18, a connecting rod part piston 19, a hydraulic cavity 20, a guy cable via hole 21, a partition plate 22, a fixed pulley 23, a guy cable connecting rod 24, a through groove 25, a stirrer part floating ball 26, a connecting strip 27, a connecting seat 28, a shaft pin 29, an inclined plane.

Detailed Description

The technical solution of the present invention is described in detail and fully with reference to the accompanying drawings.

Referring to fig. 1, 2, 3 and 4, a method for forming steam with an inclination angle adjusted by buoyancy includes inputting air heated by solar energy into a heat exchanger located in a water storage pipe through an air pump to heat water in the water storage tank, evaporating the heated water to form steam, and outputting the steam from a steam output port. The method is realized by, but not limited to, the buoyancy tilt angle adjusting type steam generator.

The buoyancy inclination angle-adjustable steam generator comprises a water storage tank 1 and a stirrer. The bottom of the water storage tank is provided with a water inlet joint 32. The water storage tank is provided with a steam outlet 2. The inner surface 3 of the top wall of the water storage tank is a bevel. The steam outlet is connected with the highest point of the inner surface of the top wall of the water storage tank. A heat exchanger is arranged in the water storage tank. The heat exchanger comprises a water inlet pipe plate 4, a water outlet pipe plate 5 and a plurality of heat exchange pipes 6 which are communicated with the water inlet pipe plate and the water outlet pipe plate. The water inlet pipe plate is provided with an air inlet pipe orifice 7 extending out of the water storage tank. The water outlet pipe plate is provided with an air outlet pipe orifice 8 extending out of the water storage tank. The stirrer comprises a vertical rotating shaft 9, a motor 10 for driving the vertical rotating shaft to rotate and a plurality of stirring paddles 11 arranged on the vertical rotating shaft. The motor is positioned at the top of the water storage tank. The upper end of the vertical rotating shaft is connected with the motor and is suspended in the water storage tank. The stirring paddle is positioned below the heat exchanger. The stirring paddle comprises a push plate 12, a spring 13, a horizontal connecting rod 15, one end of which is connected with the vertical rotating shaft and is provided with a horizontal sliding cavity 14, a horizontal sliding pipe 16, one end of which is sealed and penetrated and fixed at the other end of the horizontal connecting rod and is penetrated and arranged in the horizontal sliding cavity, a sliding pipe part piston 17, which is sealed and slidably connected in the horizontal sliding pipe, and a supporting rod 18, which is connected with the sliding pipe part piston and extends out of the horizontal sliding pipe through the other end of the horizontal sliding pipe. The spring is used for driving the holding rod to contract towards the inside of the horizontal sliding pipe. The inside of the horizontal sliding cavity is connected with a connecting rod piston 19 which is arranged on the horizontal sliding pipe in a sealing and sliding way, and the connecting rod piston is separated into a hydraulic cavity 20 which is positioned on one side of the connecting rod piston far away from the piston of the sliding pipe part in the horizontal sliding cavity. The hydraulic cavity is filled with liquid. The hydraulic cavity is communicated with the horizontal sliding pipe through an opening at the inner end of the horizontal sliding pipe. The horizontal connecting rod is internally provided with a guy cable via hole 21. The cable 31 via is separated from the horizontal sliding chamber by the partition plate 22. The stirring paddle is also provided with a fixed pulley 23 connected with the vertical rotating shaft. One end of the stay cable is connected with the piston of the connecting rod part, and the other end of the stay cable extends out of the hydraulic cavity through the partition plate and the stay cable via hole and then is supported on the fixed pulley to be reversed and is connected with the stay cable connecting rod 24. The stay cable is connected with the clapboard in a sealing and sliding way; when the inhaul cable is tensioned, the inhaul cable is disconnected with the hole wall of the inhaul cable through hole. A through groove 25 which extends along the vertical direction and runs through the stirring shaft along the horizontal direction is arranged in the vertical stirring shaft. All paddles share a common agitator section float 26. The floating ball of the stirrer is sleeved on the vertical rotating shaft. The stay cable connecting rod is arranged in the through groove in a penetrating way. The two ends of the guy cable connecting rod are connected with the floating ball of the stirrer part, so that the guy cable is connected with the floating ball of the stirrer part. A spring is located within the horizontal tube. The spring is positioned on one side of the piston of the sliding pipe part, which is far away from the holding rod. The end of the shaft horizontal sliding pipe far away from the connecting pipe is connected with a connecting seat 28 through a connecting strip 27. The upper end of the push plate is hinged with the connecting seat through a shaft pin 29, and the lower end of the push plate is placed on the part of the holding rod positioned outside the horizontal smooth pipe. The included angle between the shaft pin and the horizontal sliding pipe is smaller than 90 degrees, specifically parallel to 0 degree. The pin and the supporting rod are positioned behind the rotating direction of the supporting plate when the supporting plate is driven to rotate by the vertical rotating shaft. The distance between the contact part of the supporting rod and the push plate and the vertical plane passing through the axis of the shaft pin is increased along with the increase of the distance of the supporting rod from the horizontal smooth pipe, in particular to the inclined plane 30 formed by gradually reducing the thickness of the supporting rod in the horizontal direction from one end connected with the piston of the smooth pipe part to the other end. The inclined plane is positioned at one side of the supporting rod in the horizontal direction for supporting the push plate. The inclination angle of the supporting plate is 45 degrees when the supporting rod extends out of the horizontal smooth pipe to the limit position, and the supporting plate is in a vertical state when the supporting rod is inserted into the horizontal smooth pipe to the limit position.

When the solar water heater is used, water is filled in the water storage tank, the water submerges the heat exchanger, the distance between the liquid level 33 and the bottom wall of the water storage tank is more than 20 centimeters, hot air heated by solar energy and stored heat flows through the heat exchanger to heat water in the water storage tank, and steam generated by evaporation of the heated water is output from the steam output port. The vertical rotating shaft is driven by the motor to rotate in the heating process, the vertical rotating shaft drives the stirring paddle to rotate, so that water is stirred, and the water in contact with the heat exchanger is quickly changed as a result of stirring the water, so that the heat exchange effect is improved. This technical scheme is in the last water level fluctuation range of design, the water level is deepened then the floater is far away more apart from the distance of stirring rake (the water level surpasss the water level maximum value of design then the floater can not continue to rise under the hindrance of hydraulic pressure intracavity part), the floater is drawn connecting pipe portion piston through the cable and is removed towards perpendicular pivot place orientation and make the volume in hydraulic pressure chamber diminish, the liquid in the hydraulic pressure intracavity is extruded in the water level smooth pipe and overcome the elasticity drive holding rod of spring and stretch out, holding rod stretches out then the drive push pedal and uses the pivot to rotate and increase inclination as the axle, the power increase of push pedal push-up water when the inclination increase then push pedal rotates. In the designed water level range, when the water level is lowered (when the water level exceeds the minimum water level value in the design, the spring drives the piston of the sliding pipe part to move to the limit position, and the guy cable is always in a loose state) so as to cause the guy cable to be loose, the holding rod is contracted under the action of the spring to drive the liquid in the horizontal sliding pipe to enter the hydraulic cavity and drive the piston of the connecting pipe part to be far away from the vertical rotating shaft, so that the guy cable is kept in a tensioned state.

Claims (9)

1. The utility model provides a steam forming method through buoyancy angle of inclination that adjusts, its characterized in that, will utilize solar energy heating's air input to be located the heat exchanger in the water storage pipe through the air pump and heat for the water in the water storage tank, water evaporates and forms steam and export from the steam delivery outlet after being heated, the in-process of heat exchanger heating stirs the water in the water storage tank through the agitator, the stirring in-process makes the push pedal in the agitator produce the power that the inclination changes in order to change push up water when the push pedal rotates under the buoyancy of floater cooperates the pulling force effect of spring, the change process of push pedal inclination is for increasing along with the increase of the liquid level in the water storage tank.

2. The steam forming method according to claim 1, wherein the steam generator is implemented by a buoyancy tilt angle adjusting steam generator, the buoyancy tilt angle adjusting steam generator comprises a water storage tank, a heat exchanger for heating water in the water storage tank, and a stirrer for stirring water in the water storage tank, the water storage tank is provided with a steam outlet, the stirrer comprises a vertical rotating shaft, a motor for driving the vertical rotating shaft to rotate, and a plurality of stirring paddles arranged on the vertical rotating shaft, the stirring paddles comprise a push plate, a spring, a horizontal connecting rod with a horizontal sliding cavity and one end connected with the vertical rotating shaft, a horizontal sliding tube with one end sealed and fixed at the other end of the horizontal connecting rod and penetrating into the horizontal sliding cavity, a sliding tube part piston connected with the horizontal sliding tube part piston in a sealing and sliding manner, and a supporting rod extending out of the horizontal sliding tube through the other end of the horizontal sliding tube, the spring is used for driving the supporting rod to contract towards the inside of the horizontal sliding pipe, a connecting rod part piston arranged on the horizontal sliding pipe in a sealing and sliding connection mode is arranged in the horizontal sliding cavity in a sealing and sliding connection mode, a hydraulic cavity located on one side, far away from the piston of the sliding pipe part, of the connecting rod part piston is isolated in the horizontal sliding cavity, liquid is filled in the hydraulic cavity, the hydraulic cavity is communicated with the horizontal sliding pipe, the connecting rod part piston is connected with a stirrer part floating ball of the driving supporting rod output horizontal sliding pipe located in a liquid storage tank through a pull rope output through the hydraulic cavity, a connecting seat is arranged at one end, far away from the connecting pipe, of the horizontal sliding pipe, the upper end of the push plate is hinged with the connecting seat through a shaft pin, the lower end of the push plate is placed on the part, located outside the horizontal sliding pipe, of the supporting rod, the included angle between the shaft, the distance between the contact part of the supporting rod and the push plate and the vertical plane passing through the axis of the shaft pin is increased along with the increase of the distance of the supporting rod from the horizontal smooth pipe.

3. The steam generating method according to claim 2, wherein a through groove extending in a vertical direction and penetrating through the stirring shaft in a horizontal direction is formed in the vertical stirring shaft, all the stirring paddles share one floating ball of the stirrer portion, the floating ball of the stirrer portion is sleeved on the vertical rotating shaft, the floating ball of the stirrer portion is connected to a guy cable connecting rod penetrating through the through groove, and the guy cable is connected to the guy cable connecting rod and connected to the floating ball of the stirrer portion.

4. The steam forming method for adjusting the inclination angle through buoyancy as claimed in claim 3, wherein a stay cable through hole is formed in the horizontal connecting rod, the stirring paddle is further provided with a fixed pulley connected with the vertical rotating shaft, the stay cable through hole is separated from the horizontal sliding cavity through a partition plate, the stay cable extends out of the hydraulic cavity through the partition plate and the stay cable through hole, then is supported on the fixed pulley for reversing and is connected with the stay cable connecting rod, and the stay cable and the partition plate are connected together in a sealing and sliding manner; when the inhaul cable is tensioned, the inhaul cable is disconnected with the hole wall of the inhaul cable through hole.

5. The method of claim 2, wherein the shaft pin is parallel to the horizontal slide tube.

6. The method of claim 2, wherein the angle of inclination of the pallet is 45 ° when the support rod extends out of the horizontal slide pipe to the limit position, and the pallet is in a vertical state when the support rod is inserted into the horizontal slide pipe to the limit position.

7. The method of claim 2, wherein the spring is located within the horizontal conduit on a side of the spool portion piston away from the holding rod.

8. The method of claim 2, wherein the shaft pin and the support rod are located behind the rotation direction of the pallet when driven by the vertical rotation shaft.

9. The method of claim 2, wherein the paddle is located below the heat exchanger.

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