CN113994834A

CN113994834A - Humidification type radiator for greenhouse

Info

Publication number: CN113994834A
Application number: CN202111494761.3A
Authority: CN
Inventors: 胡子良
Original assignee: Individual
Current assignee: Beijing Siliang Technology Co ltd
Priority date: 2021-12-08
Filing date: 2021-12-08
Publication date: 2022-02-01
Anticipated expiration: 2041-12-08
Also published as: CN113994834B

Abstract

The invention belongs to the field of heating equipment, and relates to a humidifying radiator for a greenhouse, which comprises a rectangular radiator, wherein supporting legs are fixedly arranged at the bottom of the radiator, a water inlet module is fixedly arranged on one side of the radiator, which is narrower than the supporting legs, close to the supporting legs, a water outlet module is fixedly arranged on one side of the radiator, which is opposite to the water inlet module, close to the supporting legs, and a gas release module is fixedly arranged on one side of the water inlet module, which is opposite to the water inlet module, on the radiator. According to the invention, the liquid flow in the heating pipeline is reduced when the indoor temperature is higher through the water inlet module, so that the temperature regulation is controlled, and meanwhile, the indoor humidity regulation is increased. According to the invention, when the heating effect of the heating radiator is poor, air is automatically discharged from the heating radiator through the air release module, so that the heating effect of the heating radiator is improved. The invention designs a structure for removing water scale in the heater, and simultaneously separates the removed water scale through the water outlet module and recovers and cleans the water scale uniformly.

Description

Humidification type radiator for greenhouse

Technical Field

The invention belongs to the field of heating equipment, and particularly relates to a humidifying radiator for a greenhouse.

Background

Winter in the north is cold, and is very unfavorable to the growth of vegetables melon and fruit that the big-arch shelter was planted, needs constantly to heat in the big-arch shelter, and the heating mainly adopts electric power electric fan heater or all kinds of diesel oil electric fan heaters in the conventional big-arch shelter, and the cost that not only needs is higher, also can generate more poisonous and harmful gas simultaneously, influences the growth of the vegetables melon and fruit of planting. Consequently need design a warmhouse booth with humidification type radiator, utilize the heating equipment commonly used in winter in the north, heat in to the big-arch shelter to solve following several problems:

firstly, the liquid flow in the heating pipeline is reduced when the indoor temperature is higher through the water inlet module, so that the temperature regulation is controlled, and meanwhile, the indoor humidity regulation is increased.

Secondly, when the heating effect of the heating radiator is poor, air is automatically exhausted from the heating radiator through the air release module, and the heating effect of the heating radiator is improved.

And thirdly, a structure for removing the water scale in the heater is designed, and the removed water scale is separated through the water outlet module and is recycled and cleaned uniformly.

Disclosure of Invention

The invention aims to provide a humidifying radiator for a greenhouse aiming at the problems in the prior art. The liquid flow in the heating pipeline is reduced when the indoor temperature is higher through the water inlet module, so that the temperature is controlled to be adjusted, and meanwhile, the indoor humidity is adjusted. When the heating effect of the heating radiator is poor, the air is automatically discharged from the heating radiator through the air release module, and the heating effect of the heating radiator is improved. The structure of cleaing away of incrustation scale in the radiator has been designed, and the incrustation scale that will clear away simultaneously separates and retrieves unified clearance through going out water module.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a warmhouse booth is with humidification type radiator, includes the radiator of cuboid shape, radiator bottom fixed mounting is equipped with the supporting legs, keep away from the narrower one side fixed mounting of supporting legs direction on the radiator and be equipped with into water module, be close to the supporting legs direction on the radiator and be equipped with out water module with the module syntropy one side fixed mounting that intakes, it is equipped with the module of disappointing with the relative one side fixed mounting of the module of intaking to intake the module to be located on the radiator.

Preferably, the heating radiator comprises a sealed heating radiator shell covered by an external wrapping body and having better heat conductivity, a water inlet pipeline communicated with a water inlet module and a gas release module is arranged in the heating radiator shell, a transmission groove is formed in the position, above the water inlet pipeline, in the heating radiator shell, a transmission shaft vertically and upwards penetrating into the transmission groove is fixedly installed in the water inlet pipeline, an impeller is fixedly installed in the position, above the transmission shaft, of the transmission shaft, a fixed gear is fixedly installed on the transmission shaft, and a plurality of transmission gears are arranged on the fixed gear in the direction of the transmission groove through tooth connection; be equipped with a plurality of vertical decurrent heating installation water pipes, every under being located every drive gear along the inlet channel direction in the radiator casing drive gear is located heating installation water pipe internal fixation and is equipped with the transfer line, be located heating installation water intraductal a plurality of scraper blade that is equipped with along transfer line axial direction on the transfer line, heating installation water pipe below is equipped with the outlet conduit who communicates the module that goes out water in the radiator casing.

Preferably, the water inlet module comprises a water inlet shell, a humidifying groove is formed above the water inlet shell, a humidifying block which floats up and down in the humidifying groove and has good heat conductivity is arranged in the humidifying groove, a movable block is fixedly arranged below the humidifying block, and a movable spring is arranged below the humidifying block and in the water inlet shell; a water inlet buffer groove is formed in the water inlet shell below the movable block, and a water inlet pipe communicated with a heating pipeline is arranged on one side of the water inlet buffer groove, which is back to the heating plate; the utility model discloses a humidification water inlet, including inlet casing, humidification water inlet, temperature-sensing pump, inlet casing top fixed mounting is equipped with the humidification water inlet that communicates to water supply line, be equipped with the humidification inlet tube that lets in the humidification groove in the humidification water inlet, the humidification inlet tube is located humidification water inlet below fixed mounting and is equipped with the temperature sensing pump of response external environment temperature, the temperature sensing pump is located humidification water inlet below and is equipped with the pneumatic valve, the opening has been seted up on the pneumatic valve, the pneumatic valve is located humidification water inlet below casing internal fixation and is connected and be equipped with the pneumatic valve spring.

Preferably, the water outlet module comprises a water outlet shell, a water filtering groove communicated with a water outlet pipeline is formed in the water outlet shell and close to the direction of the heating plate, a movable plate moving up and down in the water filtering groove is arranged in the water filtering groove, a plurality of filtering ports are formed in the movable plate, a telescopic rod is arranged below the movable plate, and a torsion spring is connected between the telescopic rod and the movable plate; a sewage discharge groove with a sealed sewage discharge outlet is arranged in the water outlet shell in the direction away from the heating plate, a sewage discharge outlet is arranged between the sewage discharge groove and the water filtering groove, a movable door with a telescopic spring is arranged below the movable plate at the sewage discharge outlet, and a limiting block is fixedly arranged on the water outlet shell at one side of the lower part of the movable plate back to the direction of the movable door; a buffer tank is arranged in the water outlet shell below the water filtering tank, and the buffer tank is provided with a water outlet pipe communicated with a return pipe of a heating pipeline.

Preferably, the air release module comprises an air release shell, an air release pipeline communicated with the water inlet pipeline is arranged in the air release shell and close to the radiator, a sliding valve is arranged in the air release shell and close to the water inlet pipeline, and a sliding valve spring is arranged in the air release shell and positioned in the air release shell; an air release groove is formed below the air release pipeline and in the air release shell, a drainage pipeline communicated with a heating water pipe is arranged in the air release groove and close to the heating radiator, and a one-way water outlet valve is arranged in the drainage pipeline and close to the heating water pipe; the radiator is characterized in that an air release pipe is arranged in the air release groove back to the radiator, a piston is arranged in the air release pipe, the piston is fixedly connected with a piston spring in the air release pipe, the air release pipe is arranged in the air release shell and is provided with an air outlet, and the outlet of the air outlet is provided with activated carbon.

Advantageous effects

The invention provides a humidifying radiator for a greenhouse through improvement, and compared with the prior art, the humidifying radiator has the following improvements and advantages:

1. according to the invention, the liquid flow in the heating pipeline is reduced when the indoor temperature is higher through the water inlet module, so that the temperature regulation is controlled, and meanwhile, the indoor humidity regulation is increased.

2. According to the invention, when the heating effect of the heating radiator is poor, air is automatically discharged from the heating radiator through the air release module, so that the heating effect of the heating radiator is improved.

3. The invention designs a structure for removing water scale in the heater, and simultaneously separates the removed water scale through the water outlet module and recovers and cleans the water scale uniformly.

Drawings

Fig. 1 is an isometric schematic of the present invention.

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

Fig. 3 is an enlarged view of a structure a in fig. 2.

Fig. 4 is an enlarged view of the structure at B in fig. 2.

Fig. 5 is an enlarged view of the structure at C in fig. 2.

In the figure, 10, a radiator shell; 11. a water outlet pipe; 12. a sewage draining groove; 13. a water filtering tank; 14. a buffer tank; 15. a water outlet shell; 16. a humidifying water inlet; 17. a water inlet pipe; 18. a transmission groove; 19. a heating water pipe; 20. a temperature sensing pump; 21. a pneumatic valve; 22. a port; 23. a humidifying water inlet pipe; 24. a pneumatic valve spring; 25. a humidifying tank; 26. a humidifying block; 27. a movable block; 28. a movable spring; 29. a water inlet pipe; 30. a water inlet buffer tank; 31. a drive shaft; 32. fixing a gear; 33. a transmission gear; 34. an impeller; 35. a transmission rod; 36. a squeegee; 37. a slide valve; 38. a slide valve spring; 39. an air escape duct; 40. a water discharge pipeline; 41. a one-way water outlet valve; 42. a gas release groove; 43. an air escape pipe; 44. a piston; 45. a piston spring; 46. an air outlet; 47. activated carbon; 48. a sewage draining outlet; 49. a movable door; 50. a movable plate; 51. a filter port; 52. a torsion spring; 53. a telescopic rod; 54. a limiting block; 55. a water outlet pipeline; 56. a water inlet housing; 81. heating radiators; 82. supporting legs; 83. a water outlet module; 84. a water inlet module; 85. and the air leakage module.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

As shown in fig. 1-5, a humidifying radiator for a greenhouse comprises a rectangular radiator 81, a supporting leg 82 is fixedly installed at the bottom of the radiator 81, a water inlet module 84 is fixedly installed on the narrower side of the radiator 81 away from the supporting leg 82, a water outlet module 83 is fixedly installed on the side of the radiator 81 close to the supporting leg 82 and in the same direction with the water inlet module 84, and a gas release module 85 is fixedly installed on the side of the radiator 81 opposite to the water inlet module 84.

Further, the radiator 81 comprises a sealed radiator shell 10 which is wrapped and covered by the outside and has good heat conductivity, a water inlet pipeline 17 which is communicated with a water inlet module 84 and a gas release module 85 is arranged in the radiator shell 10, a transmission groove 18 is arranged above the water inlet pipeline 17 and in the radiator shell 10, a transmission shaft 31 which vertically penetrates upwards into the transmission groove 18 is fixedly arranged in the water inlet pipeline 17, an impeller 34 is fixedly arranged in the transmission shaft 31 and in the water inlet pipeline 17, a fixed gear 32 is fixedly arranged on the transmission shaft 31, and the fixed gear 32 is provided with a plurality of transmission gears 33 through tooth connection along the direction of the transmission groove 18; a plurality of vertical downward heating water pipes 19 are arranged under each transmission gear 33 in the radiator shell 10 along the direction of the water inlet pipeline 17, each transmission gear 33 is fixedly connected with a transmission rod 35 in the heating water pipe 19, a plurality of scraping plates 36 are arranged on the transmission rod 35 in the heating water pipe 19 along the axial direction of the transmission rod 35, and a water outlet pipeline 55 communicated with a water outlet module 83 is arranged below the heating water pipe 19 in the radiator shell 10.

Further, the water inlet module 84 comprises a water inlet shell 56, a humidifying groove 25 is formed above the water inlet shell 56, a humidifying block 26 with good heat conductivity and capable of floating up and down in the humidifying groove 25 is arranged in the humidifying groove 25, a movable block 27 is fixedly arranged below the humidifying block 26, and a movable spring 28 is arranged below the humidifying block 26 and positioned in the water inlet shell 56; a water inlet buffer groove 30 is arranged in the water inlet shell 56 below the movable block 27, and a water inlet pipe 29 communicated with a heating pipeline is arranged on one side of the water inlet buffer groove 30, which is back to the heating plate 81; the humidification water inlet 16 that feeds through to the water supply pipeline is equipped with to the fixed mounting in 56 tops of the casing of intaking, be equipped with the humidification inlet pipe 23 that lets in humidification groove 25 in the humidification water inlet 16, humidification inlet pipe 23 is located humidification water inlet 16 below fixed mounting and is equipped with the temperature sensing pump 20 of response external environment temperature, temperature sensing pump 20 is located humidification water inlet 16 below and is equipped with pneumatic valve 21, the last opening 22 of having seted up of pneumatic valve 21, pneumatic valve 21 is located humidification water inlet 16 below casing fixed connection and is equipped with pneumatic valve spring 24.

Further, the water outlet module 83 includes a water outlet housing 15, a water filtering tank 13 communicated with the water outlet pipeline 55 is arranged in the water outlet housing 15 and close to the direction of the heating plate 81, a movable plate 50 moving up and down in the water filtering tank 13 is arranged in the water filtering tank 13, a plurality of filtering ports 51 are arranged on the movable plate 50, a telescopic rod 53 is arranged below the movable plate 50, and a torsion spring 52 is connected between the telescopic rod 53 and the movable plate 50; a sewage discharge groove 12 with a sealed sewage discharge outlet is arranged in the water outlet shell 15 in the direction away from the heating radiator 81, a sewage discharge outlet 48 is arranged between the sewage discharge groove 12 and the water filtering groove 13, the sewage discharge outlet 48 is positioned below the movable plate 50, a movable door 49 with a telescopic spring is arranged below the movable plate 50, and a limit block 54 is fixedly arranged on the water outlet shell 15 at one side of the lower part of the movable plate 50 back to the direction of the movable door 49; a buffer tank 14 is arranged below the water filtering tank 13 and in the water outlet shell 15, and the buffer tank 14 is provided with a water outlet pipe 11 communicated with a return pipe of a heating pipeline.

Further, the air release module 85 comprises an air release casing, an air release pipeline 39 communicated with the water inlet pipeline 17 is arranged in the air release casing in the direction close to the radiator 81, a slide valve 37 is arranged in the air release casing in the direction close to the water inlet pipeline 17 of the air release pipeline 39, and a slide valve spring 38 is arranged in the air release casing of the slide valve 37; an air release groove 42 is arranged in the air release shell below the air release pipeline 39, a drainage pipeline 40 communicated with the heating water pipe 19 is arranged in the air release groove 42 and close to the heating radiator 81, and a one-way water outlet valve 41 is arranged in the drainage pipeline 40 and close to the heating water pipe 19; an air release pipe 43 is arranged in the air release groove 42 and back to the direction of the heating radiator 81, a piston 44 is arranged in the air release pipe 43, the piston 44 is fixedly connected and arranged in the air release pipe 43 and is provided with a piston spring 45, the air release pipe 43 is arranged in the air release shell and is provided with an air outlet 46, and the outlet of the air outlet 46 is provided with activated carbon 47.

Principle of operation

Before the humidifying radiator for the greenhouse is installed, a plurality of proper positions are selected in the greenhouse, so that the influence on the normal growth of crops caused by overhigh local temperature in the greenhouse in the working process is prevented. After the humidifying radiator for the greenhouse is installed and adjusted, the humidifying radiator for the greenhouse supplies heat to the interior of the greenhouse, and at the moment, the liquid in the water inlet pipeline 17 pushes the sliding valve 37 to seal the inlet of the air escape pipeline 39.

In the heating process of the humidifying radiator for the greenhouse, when liquid enters the water inlet pipeline 17 from the water inlet buffer groove 30, the liquid flow drives the impeller 34 to rotate, the transmission shaft 31 and the fixed gear 32 are driven to start rotating, the transmission gear 33 connected with the transmission shaft is driven to start rotating at the same time, the transmission gear 33 drives the transmission rod 35 fixedly connected with the transmission shaft to rotate in the heating water pipe 19 when rotating, and the scraper 36 continuously scrapes off scale generated in the heating water pipe 19 and simultaneously washes away the scale through the liquid to the water outlet module 83. The scale solids continuously introduced into the water filtering tank 13 through the outlet pipe 55 are continuously accumulated on the movable plate 50, so that the telescopic rod 53 supporting the movable plate 50 is continuously pressed downward, and at the same time, the movable door 49 is moved downward to open the drain outlet 48. When the movable plate 50 is blocked by the stopper 54, the movable plate 50 is tilted toward a side close to the sewage draining exit 48, the scale on the movable plate 50 is washed into the sewage draining tank 12 by the accompanying liquid, and the movable plate 50 returns to the original position.

When the heating effect of the humidifying radiator for the greenhouse is poor, air in the radiator is more, the liquid flow in the water inlet pipeline 17 close to the air leakage pipeline 39 is smaller, the sliding valve 37 is rebounded by the sliding valve spring 38, air carrying a small amount of liquid enters the air leakage groove 42 from the air leakage pipeline 39, the air entering the air leakage pipeline 39 pushes the piston 44 in the air leakage pipe 43 to move upwards, the air outlet 46 is opened, and the air is discharged from the air outlet 46 through the activated carbon 47. At the same time, the liquid in the relief groove 42 is discharged into the heating water pipe 19 through the one-way outlet valve 41 via the water discharge pipe 40 under the influence of the gas pressure. When the air is gradually discharged, the flow rate of the liquid in the inlet pipe 17 increases, and the liquid in the inlet pipe 17 pushes the sliding valve 37 to seal the inlet of the air escape pipe 39, and the piston 44 is restored to seal the air outlet 46.

When the temperature is higher in the big-arch shelter, temperature sensing pump 20 senses that indoor temperature is higher, the start work promotes pneumatic valve 21 and moves towards pneumatic valve spring 24 direction for the water in humidification water inlet 16 passes through the opening 22 and is flowed into the flow increase in humidification groove 25 by humidification inlet tube 23, along with the water in humidification groove 25 constantly increases, humidification piece 26 is constantly pushed down with movable block 27, make the flow that inlet tube 29 intake constantly reduce, the liquid flow that gets into in radiator 81 simultaneously also reduces thereupon. Meanwhile, the water in the humidifying tank 25 is continuously heated and evaporated to humidify the greenhouse.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a warmhouse booth is with humidification type radiator, includes radiator (81) of cuboid shape, radiator (81) bottom fixed mounting is equipped with supporting legs (82), its characterized in that: keep away from the narrower one side fixed mounting of supporting legs (82) direction on radiator (81) and be equipped with into water module (84), be close to supporting legs (82) direction on radiator (81) and be equipped with out water module (83) with module (84) syntropy one side fixed mounting that intakes, module (84) of intaking is located radiator (81) and is equipped with out-of-air module (85) with the relative one side fixed mounting of module (84) of intaking.

2. A humidifying radiator for a greenhouse as claimed in claim 1, wherein: the radiator (81) comprises a sealed radiator shell (10) covered by an external wrapping body and having good heat conductivity, a water inlet pipeline (17) communicated with a water inlet module (84) and an air leakage module (85) is arranged in the radiator shell (10), a transmission groove (18) is formed in the radiator shell (10) above the water inlet pipeline (17), a transmission shaft (31) vertically and upwards penetrating into the transmission groove (18) is fixedly installed in the water inlet pipeline (17), an impeller (34) is fixedly installed in the transmission shaft (31), a fixed gear (32) is fixedly installed on the transmission shaft (31), and a plurality of transmission gears (33) are arranged on the fixed gear (32) in the direction of the transmission groove (18) through tooth connection; be equipped with a plurality of vertical decurrent heating installation water pipes (19), every along inlet channel (17) direction under every drive gear (33) in radiator casing (10) drive gear (33) are located heating installation water pipe (19) internal fixed connection and are equipped with transfer line (35), be equipped with a plurality of scraper blade (36) along transfer line (35) axial direction in heating installation water pipe (19) on transfer line (35), heating installation water pipe (19) below is equipped with outlet conduit (55) of communicateing out water module (83) in radiator casing (10).

3. A humidifying radiator for a greenhouse as claimed in claim 1, wherein: the water inlet module (84) comprises a water inlet shell (56), a humidifying groove (25) is formed above the water inlet shell (56), a humidifying block (26) which floats up and down in the humidifying groove (25) and has good heat conductivity is arranged in the humidifying groove (25), a movable block (27) is fixedly arranged below the humidifying block (26), and a movable spring (28) is arranged below the humidifying block (26) and positioned in the water inlet shell (56); a water inlet buffer groove (30) is formed in the water inlet shell (56) below the movable block (27), and a water inlet pipe (29) communicated with a heating pipeline is arranged on one side, back to the heating radiator (81), of the water inlet buffer groove (30); the utility model discloses a humidification water supply device, including inlet housing (56), humidification water inlet pipe (16), humidification water inlet pipe (23) that are equipped with in humidification water inlet (16) and let in humidification groove (25), humidification water inlet pipe (23) are located humidification water inlet (16) below fixed mounting and are equipped with temperature sensing pump (20) of response external environment temperature, temperature sensing pump (20) are located humidification water inlet (16) below and are equipped with pneumatic valve (21), opening (22) have been seted up on pneumatic valve (21), pneumatic valve (21) are located humidification water inlet (16) below casing internal fixation and are connected and are equipped with pneumatic valve spring (24).

4. A humidifying radiator for a greenhouse as claimed in claim 1, wherein: the water outlet module (83) comprises a water outlet shell (15), a water filtering groove (13) communicated with a water outlet pipeline (55) is formed in the water outlet shell (15) in a direction close to the heating plate (81), a movable plate (50) moving up and down in the water filtering groove (13) is arranged in the water filtering groove (13), a plurality of filtering ports (51) are formed in the movable plate (50), a telescopic rod (53) is arranged below the movable plate (50), and a torsion spring (52) is connected between the telescopic rod (53) and the movable plate (50); a sewage discharge groove (12) with a sealed sewage discharge outlet is formed in the water outlet shell (15) in the direction away from the heating plate (81), a sewage discharge outlet (48) is formed between the sewage discharge groove (12) and the water filtering groove (13), a movable door (49) with a telescopic spring is arranged below the movable plate (50) of the sewage discharge outlet (48), and a limiting block (54) is fixedly arranged on the water outlet shell (15) on one side of the lower part of the movable plate (50) back to the direction of the movable door (49); a buffer tank (14) is arranged in the water outlet shell (15) below the water filtering tank (13), and the buffer tank (14) is provided with a water outlet pipe (11) communicated with a return pipe of a heating pipeline.

5. A humidifying radiator for a greenhouse as claimed in claim 1, wherein: the air leakage module (85) comprises an air leakage shell, an air leakage pipeline (39) communicated with the water inlet pipeline (17) is arranged in the air leakage shell in the direction close to the heating radiator (81), a sliding valve (37) is arranged in the air leakage shell in the direction close to the water inlet pipeline (17) of the air leakage pipeline (39), and a sliding valve spring (38) is arranged in the air leakage shell of the sliding valve (37); an air release groove (42) is formed in the air release shell below the air release pipeline (39), a drainage pipeline (40) communicated with a heating water pipe (19) is arranged in the air release groove (42) and close to the heating radiator (81), and a one-way water outlet valve (41) is arranged in the drainage pipeline (40) and close to the heating water pipe (19); air release groove (42) inside back of the body radiator (81) direction is equipped with disappointing pipe (43), be equipped with piston (44) in disappointing pipe (43), piston (44) are located disappointing pipe (43) internal fixation and are connected and are equipped with piston spring (45), it is equipped with gas outlet (46) that disappointing pipe (43) are located the casing of disappointing, gas outlet (46) exit is equipped with active carbon (47).