CN116857703A - Energy configuration equipment for industrial park - Google Patents

Abstract

The invention discloses energy configuration equipment for an industrial park, which comprises a heat pump device, a preheating box and energy equipment, wherein a first filter layer and a second filter layer are arranged in the preheating box. The water pump is started to pump underground water into the interior of the preheating box, and the underground water is heated by the first electric heating wire and then is sent into the interior of the heat pump device for use; the groundwater in the preheating tank is preheated, so that most scale in the groundwater can be removed; the scale is kept apart in the inside of preheating cabinet by first filter layer and second filter layer, can not get into heat pump device's inside, has avoided hungry the phenomenon that the scale blocks up the pipeline for heating equipment life increases to some extent.

Description

Energy configuration equipment for industrial park

Technical Field

The invention relates to the field of heat pump devices, in particular to energy configuration equipment for an industrial park.

Background

The heat supply device is used as a common energy configuration device in an industrial park, can be used for heating a workshop, is usually used in colder weather, and the energy used by the heat supply device in the prior art generally comprises geothermal energy, electric energy, solar energy and the like. When geothermal energy is used for supplying heat to heat supply equipment, groundwater with a certain temperature is pumped to the ground, and then the groundwater is heated to reach a specified temperature, so that the groundwater is supplied to a room, and the groundwater contains more impurities, a large amount of scale is generated during heating, and the water supply pipeline is easily blocked by the scale, so that the heat supply equipment is easily damaged.

Therefore, it is necessary to propose an energy allocation apparatus for an industrial park to solve the above-mentioned problems.

Disclosure of Invention

The invention aims to provide energy configuration equipment for an industrial park, which aims to solve the problems that when geothermal energy is used for supplying heat to heat supply equipment, groundwater with a certain temperature is pumped to the ground, and then the groundwater is heated to reach a specified temperature so as to be supplied to a room, and the groundwater contains more impurities, a large amount of scale is generated during heating, and the water supply pipe is easily blocked by the scale, so that the heat supply equipment is easily damaged.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an energy configuration equipment for industrial park, includes heat pump device, preheating cabinet and energy equipment, the inside bottom surface of preheating cabinet is fixed to be provided with vertical baffle, form the water channel between the top of vertical baffle and the inside top surface of preheating cabinet, one side of vertical baffle is fixed to be provided with horizontal baffle, horizontal baffle separates the lower extreme inside of preheating cabinet into the backward flow cavity, the bottom intercommunication of backward flow cavity is provided with groundwater drainage pipeline, the rear intercommunication of backward flow cavity is provided with backward flow connecting pipeline, the top of horizontal baffle is provided with the second filter layer, be provided with out water connecting pipeline on the second filter layer, go out water connecting pipeline's upper end and run through the upper surface of preheating cabinet, go out water connecting pipeline's lower extreme and extend to the below of second filter layer, the one side laminating that the vertical baffle kept away from the second filter layer is provided with first filter layer, the first filter layer is of a rectangular block structure, an exhaust pipe is arranged above the first filter layer, the exhaust pipe is fixedly arranged on the upper surface of the preheating box, a rotating plate and first electric heating wires are arranged below the first filter layer, two ends of each first electric heating wire are connected to the inner wall of the preheating box through fixing seats, the first electric heating wires are provided with a plurality of first electric heating wires which are equidistantly arranged, the rotating plate is arranged on one side, far away from the vertical partition, of each first electric heating wire, the rotating plate is fixedly sleeved on the outer ring of the rotating sleeve, the rotating plate is provided with a plurality of rotating sleeves, the rotating sleeves are rotatably sleeved on the outer ring of the supporting shaft, the supporting shaft is fixedly connected to the inner wall of the preheating box, the rotating plate is provided with gas separation holes, each gas separation hole comprises a first round hole and a second round hole, the utility model discloses a preheating box, including first electric heating wire, first round hole, second round hole, first round hole sets up in the both ends of first round hole, the second round hole is loudspeaker opening structure, and the diameter of first round hole is less than loudspeaker opening structure maximum opening diameter, the second round hole runs through the surface of rotor plate, first round hole sets up in the inside of rotor plate, the side of preheating box is provided with the water pump, be connected with groundwater suction pipe on the water pump, the water pump communicates with the inside of preheating box, and the water pump is corresponding to the rotor plate one side of keeping away from first electric heating wire with the inside intercommunication of preheating box.

Preferably, the front side of heat pump device is provided with the flabellum cover, heat pump device's inside fixed mounting has the motor fixing base, and fixed mounting has the motor on the motor fixing base, fixedly connected with flabellum in the pivot of motor, heat pump device's trailing flank installs metal heat exchange pipeline, heat pump device's a side an organic whole is provided with business turn over water connecting seat, is provided with first water pipe and second water pipe on the business turn over water connecting seat, be connected through the inlet channel between first water pipe and the play water connecting pipeline, be connected through outlet pipeline between backward flow connecting pipeline and the second water pipe.

Preferably, the metal heat exchange pipeline is the pipeline structure of making a round trip to buckle, form the ventilation clearance between the adjacent pipeline, the one end of metal heat exchange pipeline is provided with the working tank, be provided with switching mechanism in the working tank, switching mechanism includes electric putter, switch plate, second soft pipeline and first soft pipeline, fixed welding has fixed support plate on the upper end inner wall of working tank, electric putter's vertical layout, electric putter's upper end fixed mounting is in fixed support plate's bottom surface, and electric putter's lower extreme fixed mounting has the removal backup pad, switch plate fixed welding is in the bottom surface of removal backup pad, from the top down has set gradually the first connecting port that runs through switch plate both sides face simultaneously, second connector, third connector and fourth connector on the switch plate, all be provided with switching solenoid valve in first connecting port, second connector, third connector and the fourth connector, second soft pipeline detachable and the one end of metal heat exchange pipeline are connected, first soft pipeline detachable and the other end connection of metal heat exchange pipeline, first soft pipeline and second soft pipeline keep away from the first soft pipeline and the second soft pipeline sets up the bottom surface of metal pipeline, and the first connecting port, the second soft pipeline and the second soft pipeline is connected with two water inlet connection ports of two first connecting ports, two connecting ports and second connecting port, two water inlet connection port, two soft pipeline and second connecting port are connected to the first connecting port, two water inlet connection pipeline and second connecting port, respectively The fourth connecting port is correspondingly arranged.

Preferably, a water channel is arranged in the metal heat exchange pipeline, a second electric heating wire is arranged in the middle of the water channel, and the second electric heating wire is distributed along the trend of the metal heat exchange pipeline.

Preferably, the inside of metal heat transfer pipeline is provided with the scale removal subassembly, the scale removal subassembly includes removal ring, connecting strip, clearance tooth supporting ring and power blade, the middle part of removal ring is provided with the circular cone groove, and removal ring is annular structure, and the fixed elastic ring that is provided with in outer lane department of removal ring, the elastic ring activity laminating is on the inner circle wall of water channel, the middle part of circular cone groove is passed in the activity of second electric heating wire, the fixed welding of connecting strip is at the one end face of removal ring, the fixed welding of power blade is at the other end face of removal ring, one side that the connecting strip kept away from the removal ring is fixed to be provided with clearance tooth supporting ring, the clearance tooth supporting ring is kept away from the one side of connecting strip and is close to the fixed clearance tooth that is provided with of clearance tooth supporting ring outer fringe, the clearance tooth is provided with a plurality ofly, and a plurality of clearance teeth are equiangular along clearance tooth supporting ring's axis distribution, power blade is provided with a plurality of equiangular distributions along the axis of removal ring.

Preferably, the scale cleaning assembly further comprises a net barrel and filtering holes, the net barrel is of a cylindrical structure, one end of the cylindrical structure is opened, the opening is communicated with the conical groove, the net barrel is fixed on one surface of the movable ring, which is far away from the connecting strip, the filtering holes penetrate through the inner wall and the outer wall of the net barrel at the same time, the filtering holes are formed in a plurality of positions, and reserved round holes for the second electric heating wires to movably penetrate through are formed in the middle of one surface of the net barrel, which is far away from the movable ring.

Preferably, the energy equipment comprises a supporting rod, blades and a solar panel, wherein a base is fixedly arranged on the bottom surface of the supporting rod, the base is fixed on the ground or a roof through screws, an energy conversion box is arranged at the upper end of the supporting rod, the blades are arranged on one side of the energy conversion box, a mounting frame is fixedly arranged at the outer ring of the middle section of the supporting rod, and the solar panel is fixedly arranged on the mounting frame.

Preferably, the inside of energy conversion case is provided with solar energy conversion equipment and battery, be connected with power generation facility in the pivot of blade, power generation facility still is connected with the battery, solar energy conversion equipment's one end is connected with the power generation facility who is connected on the solar panel, and solar energy conversion equipment's the other end is connected with the battery, the output of battery is connected with first electric heater strip, second electric heater strip.

Preferably, the underground water discharge pipeline and the underground water suction pipeline are connected with water diversion pipelines, and one ends of the water diversion pipelines, which are far away from the underground water discharge pipeline and the underground water suction pipeline, are deep into an underground water source.

The water pump is started to pump underground water into the interior of the preheating box, and the underground water is heated by the first electric heating wire and then is sent into the interior of the heat pump device for use; the groundwater in the preheating tank is preheated, so that most scale in the groundwater can be removed; the scale is kept apart in the inside of preheating cabinet by first filter layer and second filter layer, can not get into heat pump device's inside, has avoided hungry the phenomenon that the scale blocks up the pipeline for heating equipment life increases to some extent. Meanwhile, when groundwater is pumped into the preheating tank through the water pump, the groundwater just impacts the side surface of the rotating plate, and the groundwater pushes the rotating plate to rotate, so that gas in the groundwater is fully discharged, and the gas is discharged into the upper end of the preheating tank and then is discharged through the exhaust pipe, thereby avoiding the phenomenon that the heating efficiency is reduced and the inner wall of the pipeline is easy to oxidize when water containing a large amount of gas is conveyed into the heat pump device for heating, and correspondingly reducing the generation of scale.

Drawings

Fig. 1 is a schematic structural view of an energy allocation apparatus for an industrial park according to the present invention.

Fig. 2 is a schematic structural view of a preheating tank in the present invention.

Fig. 3 is a schematic structural view of the preheating tank according to another view of the present invention.

Fig. 4 is a cross-sectional view of the preheating tank in the present invention.

Fig. 5 is a cross-sectional view of a preheating tank according to the present invention from another perspective.

Fig. 6 is a schematic structural view of a rotating plate according to the present invention.

Fig. 7 is a schematic perspective view of a heat pump apparatus according to the present invention.

Fig. 8 is a rear view of the heat pump apparatus of the present invention.

Fig. 9 is a perspective sectional view of a heat pump apparatus according to the present invention.

Fig. 10 is a schematic structural view of an energy device according to the present invention.

Fig. 11 is a schematic structural view of another view of the energy device according to the present invention.

Fig. 12 is an enlarged schematic view of the structure at a in fig. 8.

Fig. 13 is a schematic perspective view of a metal heat exchange tube according to the present invention.

Fig. 14 is a cross-sectional view of a metal heat exchange tube in accordance with the present invention.

Fig. 15 is an enlarged schematic view of the structure at B in fig. 14.

FIG. 16 is a schematic view of the scale cleaning assembly according to the present invention.

FIG. 17 is a schematic view of a scale cleaning assembly according to another aspect of the present invention.

Fig. 18 is a schematic view showing the internal structure of the working tank in the present invention.

In the figure: 1. a heat pump device; 2. a preheating box; 3. an energy source device; 4. a water inlet pipe; 5. a water outlet pipe; 6. a groundwater discharge pipe; 7. a groundwater suction pipe; 8. a water pump; 9. a water outlet connecting pipe; 10. a return connection pipe; 11. a water passage groove; 12. a first filter layer; 13. a second filter layer; 14. a transverse partition; 15. a reflow chamber; 16. a vertical partition; 17. a first electric heating wire; 18. a rotating plate; 19. a gas separation hole; 20. a rotating sleeve; 21. a support shaft; 22. a first round hole; 23. a second round hole; 24. a water inlet and outlet connecting seat; 25. a fan blade cover; 26. a working box; 27. a metal heat exchange pipeline; 28. a ventilation gap; 29. a first water pipe; 30. a second water pipe; 31. a fan blade; 32. a motor fixing seat; 33. a motor; 34. a blade; 35. an energy conversion box; 36. a support rod; 37. a solar panel; 38. a mounting frame; 39. a base; 40. a water passage; 41. a second electric heating wire; 42. a moving ring; 43. an elastic ring; 44. a connecting strip; 45. cleaning a tooth support ring; 46. cleaning teeth; 47. a conical groove; 48. a power blade; 49. a net drum; 50. a filter hole; 51. reserving a round hole; 52. a fixed support plate; 53. an electric push rod; 54. a movable support plate; 55. a switching board; 56. a first connection port; 57. a second connection port; 58. a third connection port; 59. a fourth connection port; 60. switching on and off the electromagnetic valve; 61. a first flexible conduit; 62. a second flexible conduit; 63. and an exhaust pipe.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention provides energy configuration equipment for an industrial park as shown in fig. 1-18, which comprises a heat pump device 1, a preheating box 2 and energy equipment 3, wherein the heat pump device 1 is a heat pump device common in the prior art, groundwater is pumped into the preheating box 2 for heating and then is introduced into the heat pump device 1 for use, heat is transferred to a workshop through the heat pump device 1, heating is realized, and the energy equipment 3 uses various energy sources for providing electric energy, such as: wind and solar energy; natural resources are reasonably utilized, and energy is saved.

The specific structure of the energy device 3 comprises a supporting rod 36, a blade 34 and a solar panel 37, wherein a base 39 is fixedly arranged on the bottom surface of the supporting rod 36, the base 39 is fixed on the ground or a roof through screws, an energy conversion box 35 is installed at the upper end of the supporting rod 36, the blade 34 is arranged on one side of the energy conversion box 35, a mounting frame 38 is fixedly arranged at the outer ring of the middle section of the supporting rod 36, and the solar panel 37 is fixedly installed on the mounting frame 38; the inside of the energy conversion box 35 is provided with solar energy conversion equipment and a storage battery, the rotating shaft of the blade 34 is connected with power generation equipment, the power generation equipment is also connected with the storage battery, one end of the solar energy conversion equipment is connected with the power generation equipment connected with the solar panel 37, the other end of the solar energy conversion equipment is connected with the storage battery, and the storage battery is connected with the heat pump device 1 and a heating mechanism inside the preheating box 2 to realize energy supply.

The working principle of the energy source equipment 3 in the invention is as follows: when the blades 34 are blown by wind power, the rotating shafts on the blades 34 are driven to rotate, and when the rotating shafts on the blades 34 rotate, mechanical energy is output into electric energy through the power generation equipment, and the electric energy is stored in the storage battery and is used by a heating mechanism; when the sun irradiates the solar panel 37, heat energy is generated, and the heat energy is converted into electric energy by the solar energy conversion device and stored in the storage battery.

It should be noted that, the power generation device, the solar energy conversion device, the storage battery, etc. are all existing common power generation mechanisms, and are not described herein.

The invention aims to solve the problems that when geothermal energy is used for supplying heat to heat supply equipment, groundwater with a certain temperature is pumped to the ground, and then the groundwater is heated to a specified temperature so as to be supplied to a room, and the groundwater contains more impurities, a large amount of scale is generated during heating, and the water pipe is easily blocked by the scale, so that the heat supply equipment is easily damaged; the inside bottom surface at preheating cabinet 2 is fixed and is provided with vertical baffle 16, form the water channel 11 between the top of vertical baffle 16 and the inside top surface of preheating cabinet 2, one side of vertical baffle 16 is fixed and is provided with horizontal baffle 14, horizontal baffle 14 separates the lower extreme inside of preheating cabinet 2 into backward flow cavity 15, the bottom intercommunication of backward flow cavity 15 is provided with groundwater exhaust pipe 6, the rear intercommunication of backward flow cavity 15 is provided with backward flow connecting pipe 10, the top of horizontal baffle 14 is provided with second filter layer 13, be provided with water outlet connecting pipe 9 on the second filter layer 13, the upper end of water outlet connecting pipe 9 runs through the upper surface of preheating cabinet 2, the lower extreme of water outlet connecting pipe 9 extends to the below of second filter layer 13, the one side laminating that vertical baffle 16 kept away from second filter layer 13 is provided with first filter layer 12, first filter layer 12 is rectangular block structure, the below of first filter layer 12 is provided with rolling plate 18 and first electric heater strip 17, the both ends of first electric heater strip 17 all are connected on the inner wall of preheating cabinet 2 through the fixing base, first electric heater strip 17 is provided with a plurality of first electric heater strip 17, a plurality of first electric heater strip 17 are provided with water pump 7 and water inlet channel 7 are connected to groundwater pump 7, water inlet 7 and water inlet channel 7 are connected to groundwater exhaust pipe 7, water inlet 7 are connected to groundwater pump 7, water inlet 7 is connected to groundwater pipeline is in the water inlet channel is connected to groundwater pipeline is in the water inlet 7, water inlet 7 is connected to groundwater pipeline is connected to water inlet 7.

When the heat pump device works, the water pump 8 starts to pump underground water into the preheating tank 2, and the underground water is heated by the first electric heating wire 17 and then is sent into the heat pump device 1 for use; the groundwater in the preheating tank 2 is preheated, so that most scale in the groundwater can be removed; the scale is isolated in the preheating box 2 by the first filter layer 12 and the second filter layer 13, and cannot enter the heat pump device 1, so that the phenomenon that the scale blocks a pipeline is avoided, and the service life of the heating equipment is prolonged.

Further, the first filter layer 12 top is provided with blast pipe 63, blast pipe 63 is fixed to be set up in the upper surface of preheating tank 2, the rotor plate 18 sets up in the one side that vertical baffle 16 was kept away from to first electric heater strip 17, the fixed cover of rotor plate 18 is established in the outer lane department of rotor sleeve 20, rotor plate 18 is provided with a plurality of, rotor sleeve 20 rotates the cover and establishes in the outer lane department of back shaft 21, back shaft 21 fixed connection is on the inner wall of preheating tank 2, be provided with gas separation hole 19 on the rotor plate 18, gas separation hole 19 includes first round hole 22 and second round hole 23, second round hole 23 sets up in the both ends of first round hole 22, second round hole 23 is loudspeaker opening structure, the diameter of first round hole 22 is less than loudspeaker opening structure maximum opening diameter, the surface of rotor plate 18 is run through to the second round hole 23, first round hole 22 sets up in the inside of rotor plate 18, the inside of water pump 8 and preheating tank 2 inside intercommunication's position corresponds to rotor plate 18 one side of keeping away from first electric heater strip 17, when groundwater just in time assaults side at rotor plate 18 through water pump 8 to preheating tank 2 inside, be provided with gas separation hole 19, gas separation hole 19 includes first round hole 22 and second round hole 23, the diameter is less than the air pump opening structure, the inside the exhaust pipe is discharged through the exhaust pipe 1 has been reduced, the exhaust gas is exhausted through the corresponding air pump 1, the inside has been avoided and the inside the exhaust pipe has been exhausted the inside the device to the well, the well has been exhausted the well air has been reduced, and has been exhausted the well when the device has been compared to the device has been compared the air has been compared to the device has been compared and has been compared to the well to the air has been compared the device has been compared.

It should be noted that, when passing through the gas separation hole 19 on the rotating plate 18, the groundwater passes through the second round hole 23 and the first round hole 22 in sequence, and because the groundwater flows at a high speed, the groundwater enters the first round hole 22 after passing through the second round hole 23 with a larger caliber, and is compressed, and the groundwater discharged after passing through the first round hole 22 is released again, so that the gas contained in the groundwater is released better, and the gas content in the groundwater is reduced to a great extent.

It should be noted that, the electromagnetic valve is provided in the exhaust pipe 63, and the electromagnetic valve is periodically opened, so that the gas accumulated in the upper end of the preheating tank 2 is discharged, and the mode of periodically opening replaces the mode of normally opening the exhaust pipe 63, so that the phenomenon that the heat in water is directly discharged from the exhaust pipe 63 is reduced.

In the device, the first filter layer 12 and the second filter layer 13 can use the composite filter layer structures such as the active carbon filter layer, the PP cotton layer and the filter cotton layer, so that the groundwater is filtered when passing through the first filter layer 12 and the second filter layer 13, and the device is particularly suitable for areas such as industrial parks where the groundwater is polluted, not only utilizes the heat in the groundwater, but also has the purifying effect on the groundwater, and is energy-saving and environment-friendly.

The front side of the heat pump device 1 is provided with a fan blade cover 25, the inside of the heat pump device 1 is fixedly provided with a motor fixing seat 32, a motor 33 is fixedly arranged on the motor fixing seat 32, a fan blade 31 is fixedly connected to a rotating shaft of the motor 33, the rear side of the heat pump device 1 is provided with a metal heat exchange pipeline 27, the metal heat exchange pipeline 27 is of a pipeline structure which is bent back and forth, a ventilation gap 28 is formed between adjacent pipelines, one side of the heat pump device 1 is integrally provided with a water inlet and outlet connecting seat 24, the water inlet and outlet connecting seat 24 is provided with a first water pipe 29 and a second water pipe 30, the first water pipe 29 is connected with a water outlet connecting pipeline 9 through a water inlet pipeline 4, and a backflow connecting pipeline 10 is connected with the second water pipe 30 through a water outlet pipeline 5; groundwater in the preheating tank 2 is heated and then is sent into the metal heat exchange pipeline 27, when the motor 33 is started, the fan blades 31 are driven to rotate, and when the fan blades 31 rotate, wind power passes through the ventilation gaps 28 to take away heat on the surface of the metal heat exchange pipeline 27, and the heat is supplied into a factory building through the fan blade covers 25 along with the wind power, so that heat is supplied into the factory building.

The inside at metal heat transfer pipeline 27 is provided with water channel 40, and water channel 40's middle part is provided with second electric heater strip 41, and the output of battery is connected with first electric heater strip 17, second electric heater strip 41, and second electric heater strip 41 distributes along metal heat transfer pipeline 27's trend, and second electric heater strip 41 can heat the water that circulates in the water channel 40, realizes the heating purpose to water.

The inside of the metal heat exchange pipeline 27 is provided with a scale cleaning component, the scale cleaning component comprises a movable ring 42, a connecting strip 44, a cleaning tooth supporting ring 45 and power blades 48, a conical groove 47 is formed in the middle of the movable ring 42, the movable ring 42 is of an annular structure, an elastic ring 43 is fixedly arranged at the outer ring of the movable ring 42, the elastic ring 43 is movably attached to the inner ring wall of the water channel 40, a second electric heating wire 41 movably penetrates through the middle of the conical groove 47, the connecting strip 44 is fixedly welded on one end face of the movable ring 42, the power blades 48 are fixedly welded on the other end face of the movable ring 42, a cleaning tooth supporting ring 45 is fixedly arranged on one side, away from the movable ring 42, of the connecting strip 44, cleaning teeth 46 are fixedly arranged at positions, close to the outer edges of the cleaning tooth supporting ring 45, of the cleaning teeth 46 are distributed along the axis of the cleaning tooth supporting ring 45 at equal angles, the power blades 48 are distributed along the axis of the movable ring 42 at equal angles; when groundwater passes through the inside of the water channel 40, the power blades 48 are pushed, so that the power blades 48 rotate, the movable ring 42 synchronously rotates when the power blades 48 rotate, the cleaning teeth 46 on the cleaning teeth support ring 45 are utilized to scrape the inner wall of the metal heat exchange pipeline 27 when the movable ring 42 rotates, the cleaning teeth support ring 45 rotates and simultaneously utilizes the cleaning teeth 46 to scrape the inner wall of the metal heat exchange pipeline 27, and scale adhered on the metal heat exchange pipeline 27 can be removed, so that the purpose of removing scale on the inner wall of the pipeline is realized, and the problem that the scale on the inner wall of the pipeline is difficult to clean is solved.

It should be noted that, in actual use, the cleaning teeth 46 on the cleaning teeth support ring 45 are attached to the inner wall of the metal heat exchange tube 27, so that the scale on the inner wall of the metal heat exchange tube 27 can be completely scraped off by the cleaning teeth 46 during the rotation of the moving ring 42, and the elastic ring 43 disposed on the outer ring of the moving ring 42 can be elastically deformed, so that water can smoothly push the moving ring 42 through the corner of the metal heat exchange tube 27.

Considering that the metal heat exchange pipeline 27 is longer in pipeline and more scales are cleaned, the scale cleaning assembly further comprises a net barrel 49 and a filtering hole 50, wherein the net barrel 49 is of a cylindrical structure, one end of the cylindrical structure is opened, the opening is communicated with the conical groove 47, the net barrel 49 is fixed on one surface of the movable ring 42 far away from the connecting strip 44, the filtering hole 50 penetrates through the inner wall and the outer wall of the net barrel 49 at the same time, the filtering hole 50 is provided with a plurality of holes, and a reserved round hole 51 for the second electric heating wire 41 to movably penetrate through is formed in the middle of one surface of the net barrel 49 far away from the movable ring 42; when the movable ring 42 moves along the inside of the metal heat exchange pipeline 27, the cleaned scale can be collected through the conical groove 47 and enter the inside of the net drum 49, so that the purpose of collecting the scale is achieved, the scale is collected on the inner wall of the net drum 49 in a concentrated manner and cannot remain in the metal heat exchange pipeline 27, and the underground water can smoothly enter and exit the net drum 49 through the filtering holes 50, so that the use is convenient.

When in actual use, the outer diameter of the net cylinder 49 is smaller than the outer diameter of the movable ring 42, and the length of the net cylinder 49 is controlled reasonably, so that the net cylinder 49 and the movable ring 42 can smoothly pass through the corner of the metal heat exchange pipeline 27, and the net cylinder 49 can also be made of stainless steel net material with certain elasticity, so that the net cylinder 49 can smoothly pass through the corner of the metal heat exchange pipeline 27.

When the scale in the net drum 49 is fully collected, the metal heat exchange pipeline 27 can be removed, the net drum 49 and the movable ring 42 are taken out integrally, and the scale is cleaned; specific: a working box 26 is arranged at one end of the metal heat exchange pipeline 27, a switching mechanism is arranged in the working box 26, the switching mechanism comprises an electric push rod 53, a switching plate 55, a second soft pipeline 62 and a first soft pipeline 61, a fixed support plate 52 is fixedly welded on the inner wall of the upper end of the working box 26, the electric push rod 53 is vertically arranged, the upper end of the electric push rod 53 is fixedly arranged on the bottom surface of the fixed support plate 52, a movable support plate 54 is fixedly arranged at the lower end of the electric push rod 53, the switching plate 55 is fixedly welded on the bottom surface of the movable support plate 54, a first connecting port 56, a second connecting port 57, a third connecting port 58 and a fourth connecting port 59 which simultaneously penetrate through two side surfaces of the switching plate 55 are sequentially arranged on the switching plate 55 from top to bottom, switching electromagnetic valves 60 are arranged in the first connecting port 56, the second connecting port 57, the third connecting port 58 and the fourth connecting port 59, the second flexible pipe 62 is detachably connected with one end of the metal heat exchange pipe 27, the first flexible pipe 61 is detachably connected with the other end of the metal heat exchange pipe 27, two branch pipes are respectively arranged at one ends of the first flexible pipe 61 and the second flexible pipe 62 far away from the end of the metal heat exchange pipe 27, the two branch pipes on the second flexible pipe 62 are respectively connected with the second connecting port 57 and the third connecting port 58, the two branch pipes on the first flexible pipe 61 are respectively connected with the first connecting port 56 and the fourth connecting port 59, the end parts of the first water pipe 29 and the second water pipe 30 extend into the working box 26, one ends of the first water pipe 29 and the second water pipe 30 extending into the working box 26 are movably attached to one surface of the switching plate 55 far away from the metal heat exchange pipe 27, the first water pipe 29 is correspondingly arranged with the third connecting port 58 and the first connecting port 56, and the second water pipe 30 and the second connecting port 57, the fourth connection port 59 is provided correspondingly.

When the water pump 8 is started, groundwater is pumped into the preheating tank 2 through the groundwater suction pipeline 7, the groundwater is discharged through the water outlet connecting pipeline 9 after being filtered by the first filtering layer 12 and the second filtering layer 13 in sequence, the groundwater discharged through the water outlet connecting pipeline 9 flows into the metal heat exchanging pipeline 27 through the water inlet pipeline 4, the first water pipe 29, the third connecting port 58 and the second soft pipeline 62 in sequence, the groundwater entering the metal heat exchanging pipeline 27 is discharged through the other end of the metal heat exchanging pipeline 27, and the groundwater is discharged into the ground through the first soft pipeline 61, the fourth connecting port 59, the second water pipe 30, the water outlet pipeline 5, the backflow chamber 15 and the groundwater discharging pipeline 6 in sequence when being discharged from the other end of the metal heat exchanging pipeline 27.

When the scale in the net drum 49 is cleaned, the second soft pipeline 62 at the end part of the metal heat exchange pipeline 27 is removed, then the net drum 49 is taken out for cleaning, and considering that the scale cleaning component can only move along one direction in the metal heat exchange pipeline 27 and can not return, the switching component is arranged in the invention, when the electric push rod 53 is started, the switching plate 55 is pushed to descend, the first connecting port 56 is in butt joint with the first water pipe 29, the second water pipe 30 is in butt joint with the second connecting port 57, at the moment, the groundwater entering the metal heat exchange pipeline 27 can move reversely, thereby pushing the scale cleaning component to return, the aim of circulating movement of the scale cleaning component in the metal heat exchange pipeline 27 is realized, and impurities such as the scale in the metal heat exchange pipeline 27 can be better impacted into the net drum 49 for collection when the groundwater pushes the scale cleaning component to return.

In practical use, the sealing rings are disposed at the ends of the first water pipe 29 and the second water pipe 30 near the switching plate 55 to ensure the tightness of the pipe connection when the first connection port 56, the second connection port 57, the third connection port 58 and the fourth connection port 59 are switched, and when the first water pipe 29 and the second water pipe 30 are in butt joint with the corresponding first connection port 56, the second connection port 57, the third connection port 58 and the fourth connection port 59, the switching solenoid valve 60 in the corresponding first connection port 56, the second connection port 57, the third connection port 58 and the fourth connection port 59 is opened to realize the purpose of flowing underground water, and the corresponding switching solenoid valve 60 in the empty first connection port 56, the second connection port 57, the third connection port 58 or the fourth connection port 59 is closed to avoid leakage of underground water.

The interval distance between the two water diversion pipelines is more than 20 meters, so that the discharged water and the entered water are not easy to mix, and the underground water is fully recycled and purified.

Claims (9)

1. Energy configuration equipment for industrial park, comprising a heat pump device (1), a preheating box (2) and energy equipment (3), characterized in that: the utility model discloses a preheating box, including preheating box (2), including inside bottom surface, the inside bottom surface of preheating box (2) is fixed to be provided with vertical baffle (16), form water channel (11) between the top of vertical baffle (16) and the inside top surface of preheating box (2), one side of vertical baffle (16) is fixed to be provided with horizontal baffle (14), the lower extreme inside of preheating box (2) is separated into backward flow cavity (15) horizontal baffle (14), the top of horizontal baffle (14) is provided with second filter layer (13), be provided with out water connecting pipe (9) on second filter layer (13), the lower extreme of water connecting pipe (9) extends to the below of second filter layer (13), one side laminating that vertical baffle (16) kept away from second filter layer (13) is provided with first filter layer (12), the below of first filter layer (12) is provided with rolling stock (18) and first electric wire (17), rolling stock (18) fixed cover is established in the outer lane department of rolling stock (20), rolling stock (20) rolling stock is established in the back axle (21), the backing axle (21) is located in the backing axle (21), separating gas (19) are located on second round hole (19), the utility model discloses a preheating box, including first electric heating wire (17), first round hole (22), second round hole (23) set up in the both ends of first round hole (22), and second round hole (23) are loudspeaker opening structure, and the diameter of first round hole (22) is less than loudspeaker opening structure maximum opening diameter, the side of preheating box (2) is provided with water pump (8), be connected with groundwater suction pipe (7) on water pump (8), water pump (8) and the inside intercommunication of preheating box (2), and the position of water pump (8) and the inside intercommunication of preheating box (2) corresponds to one side that rotating plate (18) kept away from first electric heating wire (17).

2. An energy configuration apparatus for an industrial park according to claim 1, wherein: the utility model discloses a heat pump device, including heat pump device (1), heat pump device, first filter layer (12) top is provided with blast pipe (63), blast pipe (63) are fixed to be set up at the upper surface of preheating cabinet (2), the leading flank of heat pump device (1) is provided with flabellum cover (25), the inside fixed mounting of heat pump device (1) has motor fixing base (32), fixed mounting has motor (33) on motor fixing base (32), fixedly connected with flabellum (31) in the pivot of motor (33), metal heat exchange pipeline (27) are installed to the trailing flank of heat pump device (1), a side of heat pump device (1) is integrative to be provided with business turn over water connecting seat (24), is provided with first water pipe (29) and second water pipe (30) on business turn over water connecting seat (24), be connected through inlet channel (4) between first water pipe (29) and the outlet connection pipeline (9), the bottom intercommunication of backward flow cavity (15) is provided with groundwater discharge pipeline (6), backward flow connection pipeline (10) are provided with in the rear intercommunication of backward flow cavity (15), through outlet (5) between backward flow connection pipeline (10).

3. An energy configuration apparatus for an industrial park according to claim 2, wherein: the utility model discloses a heat exchange device, including metal heat exchange pipeline (27), work box (26), changeover mechanism, fixed support board (52) are fixed welding on the upper end inner wall of work box (26), fixed support board (52) are fixed to upper end of electric putter (53), vertical layout, fixed support board (54) are fixed to the upper end of electric putter (53) at the bottom surface of fixed support board (52), fixed support board (54) are fixed to the lower extreme of electric putter (53), fixed welding is in the bottom surface of movable support board (54) in changeover board (55), changeover board (55) are last to have set gradually from the top down and run through first connecting port (56), second connecting port (57), third connecting port (58) and fourth connecting port (59) of changeover board (55) both sides face simultaneously, first connecting port (56), second connecting port (57), third connecting port (58) and fourth connecting port (59) in the second connecting port (62) all have the solenoid valve (27) to dismantle heat exchange connection with the second pipeline (60), the utility model discloses a heat exchange device, including first soft pipeline (61), second soft pipeline (62), first soft pipeline (61) and second soft pipeline (62) are connected with the other end of metal heat exchange pipeline (27), first soft pipeline (61) detachable and the other end of metal heat exchange pipeline (27), first soft pipeline (61) and second soft pipeline (62) are kept away from the one end of metal heat exchange pipeline (27) tip all are provided with two minutes pipelines, two minutes pipelines on second soft pipeline (62) are connected with second connector (57) and third connector (58) respectively, two minutes pipelines on first soft pipeline (61) are connected with first connector (56) and fourth connector (59) respectively, the tip of first water pipe (29) and second water pipe (30) all stretches into the inside of work box (26), and first water pipe (29) and second water pipe (30) stretch into the one end activity laminating of work box (26) inside in switch plate (55) and keep away from the one side of metal heat exchange pipeline (27), first water pipe (29) and third connector (58), first connector (56) correspond setting, second water pipe (30) and fourth connector (57) correspond setting.

4. An energy configuration apparatus for an industrial park according to claim 2, wherein: the inside of metal heat transfer pipeline (27) is provided with water channel (40), and the middle part of water channel (40) is provided with second electric heating wire (41), second electric heating wire (41) are along the trend distribution of metal heat transfer pipeline (27).

5. An energy configuration apparatus for an industrial park according to claim 4, wherein: the inside of metal heat transfer pipeline (27) is provided with the scale removal subassembly, the scale removal subassembly includes removal ring (42), connecting strip (44), clearance tooth support ring (45) and power blade (48), the middle part of removal ring (42) is provided with circular cone groove (47), and removal ring (42) are annular structure, and the fixed elastic ring (43) that is provided with in outer lane department of removal ring (42), elastic ring (43) movable fit is on the inner circle wall of water channel (40), the middle part of circular cone groove (47) is passed in second electric heater strip (41) activity, connecting strip (44) fixed welding is at one end face of removal ring (42), power blade (48) fixed welding is at the other end face of removal ring (42), one side that connecting strip (44) kept away from removal ring (42) is fixedly provided with clearance tooth support ring (45), the one side that removal tooth support ring (45) kept away from connecting strip (44) and be close to clearance tooth support ring (45) outer fringe position fixedly provided with clearance tooth (46), clearance tooth (46) are provided with a plurality of equiangular distribution (48) are along removal tooth (48) are equiangular distribution, and a plurality of power blade (48) are equiangular distribution and are provided with the removal ring (48) and are along the removal axis.

6. An energy configuration apparatus for an industrial park according to claim 5, wherein: the scale cleaning assembly further comprises a net barrel (49) and filtering holes (50), the net barrel (49) is of a cylindrical structure, one end of the cylindrical structure is open, the opening is communicated with the conical groove (47), the net barrel (49) is fixed on one surface of the movable ring (42) far away from the connecting strip (44), the filtering holes (50) penetrate through the inner wall and the outer wall of the net barrel (49) simultaneously, the filtering holes (50) are formed in a plurality of parts, and a reserved round hole (51) for the second electric heating wire (41) to movably penetrate through is formed in the middle of one surface of the net barrel (49) far away from the movable ring (42).

7. An energy configuration apparatus for an industrial park according to claim 4, wherein: the energy equipment (3) comprises a supporting rod (36), blades (34) and a solar panel (37), a base (39) is fixedly arranged on the bottom surface of the supporting rod (36), the base (39) is fixed on the ground or a roof through screws, an energy conversion box (35) is arranged at the upper end of the supporting rod (36), the blades (34) are arranged on one side of the energy conversion box (35), a mounting frame (38) is fixedly arranged at the outer ring of the middle section of the supporting rod (36), and the solar panel (37) is fixedly mounted on the mounting frame (38).

8. An energy configuration apparatus for an industrial park according to claim 7, wherein: the inside of energy conversion case (35) is provided with solar energy conversion equipment and battery, be connected with power generation facility in the pivot of blade (34), power generation facility still is connected with the battery, solar energy conversion equipment's one end is connected with power generation facility who is connected on solar panel (37), and solar energy conversion equipment's the other end is connected with the battery, the output of battery is connected with first electric heater strip (17), second electric heater strip (41).

9. An energy configuration apparatus for an industrial park according to claim 1, wherein: the underground water discharge pipeline (6) and the underground water suction pipeline (7) are connected with water diversion pipelines, and one ends of the water diversion pipelines, which are far away from the underground water discharge pipeline (6) and the underground water suction pipeline (7), are deep into an underground water source.