CN112626819A - Waste heat utilization system of electric heating steam generator - Google Patents

Abstract

The application relates to the field of steam equipment in the garment processing industry, in particular to a waste heat recovery system of an electric heating steam generator. It includes electrical heating steam generator, delivery pipe, first water pump, play steam pipe, exhaust pipe, discharge valve and heat preservation storage water tank, electrical heating steam generator includes box, inner bag and heater, the inner bag sets up in the box, the heater sets up in the inner bag, the delivery pipe connects gradually heat preservation storage water tank, first water pump and inner bag, other end connection ironing device are connected to play steam pipe one end, discharge pipe one end is connected with steam iron, the other end and heat preservation storage water tank intercommunication, discharge valve sets up on the roof of heat preservation storage water tank. The method and the device have the effect of reducing the waste of resources.

Description

Waste heat utilization system of electric heating steam generator

Technical Field

The application relates to the field of steam equipment in the garment processing industry, in particular to a waste heat recovery system of an electric heating steam generator.

Background

An electric heating steam generator, namely an electric steam generator, is a miniature steam device which automatically and continuously generates low-pressure steam and can provide necessary pure steam for a steam box, a steam iron and a steam ironing and clamping machine.

In the tailoring trade, electric heating steam generator is connected with steam iron usually, and steam iron irones cloth and dress, and at the ironing process, for the effect of guaranteeing to iron, the staff can adjust steam generating capacity to steam iron, causes the unnecessary steam that comes out from electric heating steam generator, discharges in the air from another pipeline of steam iron, has caused the waste of resource.

Disclosure of Invention

In order to utilize, reduce the waste of resource the waste of electrical heating steam generator's waste heat, this application provides an electrical heating steam generator's waste heat utilization system.

The application provides an electrical heating steam generator's waste heat utilization system adopts following technical scheme:

the utility model provides an electrical heating steam generator's waste heat utilization system, includes delivery pipe, electrical heating steam generator, first water pump, play steam pipe, exhaust pipe, discharge valve and heat preservation storage water tank, electrical heating steam generator includes box, inner bag and heater, the inner bag sets up in the box, the heater sets up in the inner bag, the delivery pipe connects gradually heat preservation storage water tank, first water pump and inner bag, the inner bag is connected to play steam pipe one end, and ironing device is connected to the other end, exhaust pipe one end is connected with steam iron, and the other end communicates with the heat preservation storage water tank, discharge valve sets up on the roof of heat preservation storage water tank.

Through adopting above-mentioned technical scheme, the heater heats the water in the inner bag, and make water produce steam, steam supplies vapour for ironing device through a steam outlet pipe, the exhaust pipe is leading-in to the heat preservation storage water tank with unnecessary steam that unnecessary ironing device discharged out, cold water to in the heat preservation storage water tank preheats, after the steam condensation becomes liquid water, enter into the inner bag through first water pump and delivery pipe together along with the water after preheating, the realization is carried out recycle to the unnecessary steam that the heating steam generator came out, shorten the heat time of heater, practice thrift the environmental protection, reduce the waste of resource.

Preferably, the heat-preserving water tank further comprises a heat exchange assembly and a condensate water tank, wherein the heat exchange assembly is arranged in the heat-preserving water tank and is communicated with the steam exhaust pipe, and the heat exchange assembly is communicated with the condensate water tank.

By adopting the technical scheme, the preheating recovery assembly is arranged and used for prolonging the distance of steam in the heat preservation water storage tank and increasing the heat exchange area so as to improve the heat exchange efficiency; a condensate tank is provided for collecting water after the steam has cooled.

Preferably, heat exchange assembly includes first condensing coil and second condensing coil, first condensing coil and second condensing coil upwards extend and first exhaust pipe intercommunication, first condensing coil and second condensing coil downwardly extending to in the condensate tank.

Through adopting above-mentioned technical scheme, set up first condensing coil and second condensing coil for further increase heat transfer area.

Preferably, the lower part of the heat preservation water storage tank is provided with a vent pipe, one end of the vent pipe extends out of the heat preservation water storage tank, and the other end of the vent pipe extends to the upper part of the condensed water tank.

Through adopting above-mentioned technical scheme, set up the breather pipe for the atmospheric pressure in the condensate water tank is balanced.

Preferably, still including the comdenstion water recovery subassembly, the comdenstion water recovery subassembly includes second water pump and wet return, wet return one end and heat preservation storage water tank intercommunication, the other end and condensate tank intercommunication, the second water pump sets up on the wet return.

Through adopting above-mentioned technical scheme, set up the comdenstion water recovery subassembly for in leading-in to the heat preservation storage water tank with the water in the condensate tank, can not only the using water wisely, improve the utilization ratio of water, the water after the condensation is the waste heat in addition, further improves the utilization ratio of waste heat.

Preferably, the electric heating steam generator, the heat preservation water storage tank and the condensed water tank are all arranged on the movable frame.

By adopting the technical scheme, the movable frame is arranged and is not only used for placing the electric heating steam generator, the heat preservation water storage tank and the condensed water tank together, shortening the lengths of the water supply pipe and the steam exhaust pipe, reducing the heat loss and improving the utilization rate of the waste heat; and the electric heating steam generator, the heat preservation water storage tank and the condensate water tank are convenient to move, and when the electric heating steam generator, the heat preservation water storage tank and the condensate water tank are used, the electric heating steam generator is directly moved to a specified place, the lengths of the air inlet pipe and the steam exhaust pipe are shortened, the heat loss is reduced, and the resource waste is reduced.

Preferably, a hydraulic lifting table is arranged on the moving frame, and the electric heating steam generator, the heat preservation water storage tank and the condensed water tank are all arranged on the hydraulic lifting table.

Through adopting above-mentioned technical scheme, set up hydraulic pressure lift platform for after removing electrical heating steam generator, heat preservation storage water tank and condensate tank to the assigned position, according to the height that irones the operation panel, rationally adjust electrical heating steam generator and heat preservation storage water tank apart from the height of operation panel, to a certain extent, reduce the length of admission pipe and steam exhaust pipe.

Preferably, the exhaust pipe is sleeved with a heat preservation pipe, and heat preservation cotton is arranged in the heat preservation pipe.

Through adopting above-mentioned technical scheme, set up the insulating tube for keep warm to the exhaust pipe, reduce thermal scattering and disappearing, improve the utilization ratio of waste heat.

Preferably, a floating ball water level controller is arranged at a water inlet of the heat preservation water storage tank.

By adopting the technical scheme, the floating ball water level controller is arranged and used for monitoring the water level in the heat preservation water storage tank and replenishing water in the heat preservation water storage tank in time, so that the low utilization rate of the steam waste heat caused by insufficient water is reduced.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the steam exhaust pipe is used for guiding redundant steam discharged by the ironing device into the heat preservation water storage tank and preheating cold water in the heat preservation water storage tank, so that the redundant steam discharged by the heating steam generator is recycled, the heating time of the heater is shortened, the environment is protected, and the waste of resources is reduced;

2. the movable frame is arranged, the electric heating steam generator, the heat preservation water storage tank and the condensed water tank are all arranged on the movable frame, the length of a water supply pipe and a water return pipe is shortened, heat loss is reduced, and the utilization rate of waste heat is improved;

3. be provided with hydraulic pressure lift platform in this application, can shorten the length of admission pipe and exhaust pipe according to the height of ironing operation platform adjustment electrical heating steam generator and heat preservation storage water tank, reduce thermal scattering and disappearing to a certain extent, reduce the waste of resource.

Drawings

Fig. 1 is a schematic structural diagram of a waste heat utilization system of an electrically heated steam generator according to embodiment 1 of the present application.

Fig. 2 is a schematic view of another perspective structure of a waste heat utilization system of an electrically heated steam generator according to embodiment 1 of the present application.

Fig. 3 is a schematic structural diagram of a waste heat utilization system of an electrically heated steam generator according to embodiment 2 of the present application.

Fig. 4 is a schematic view of another perspective structure of a waste heat utilization system of an electrically heated steam generator according to embodiment 2 of the present application.

Fig. 5 is a schematic structural diagram of the inside of the thermal insulation water storage tank provided in embodiment 2 of the present application.

Description of reference numerals:

1. a water supply pipe; 2. an electrically heated steam generator; 21. a box body; 22. an inner container; 23. a heater; 3. a first water pump; 4. a steam outlet pipe; 5. a steam exhaust pipe; 6. an exhaust valve; 7. a heat preservation water storage tank; 8. a heat exchange assembly; 81. a first condenser coil; 82. a second condenser coil; 9. a condensed water tank; 10. a condensate recovery assembly; 101. a second water pump; 102. a water return pipe; 11. a breather pipe; 12. a movable frame; 13. a hydraulic lifting platform; 14. a heat preservation pipe; 15. a floating ball water level controller; 16. an ironing device.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses an electric heating steam generator's waste heat utilization system.

Example 1

Referring to fig. 1 and 2, the waste heat utilization system of the electric heating steam generator is composed of a water supply pipe 1, an electric heating steam generator 2, a first water pump 3, a steam outlet pipe 4, a steam exhaust pipe 5, an exhaust valve 6, a heat preservation water storage tank 7 and the like. For convenience of description, in the drawings, the states of the electric heating steam generator 2 and the heat preservation water storage tank 7 in use are taken as the standard, the surface of the electric heating steam generator 2 and the heat preservation water storage tank 7 adjacent to the ground is a bottom wall, the surface opposite to the ground is a top wall, and the rest surfaces are side walls.

Referring to fig. 1 and 2, the electric heating steam generator 2 includes a box body 21, an inner container 22 and a heater 23, a fixing seat is welded in the box body 21, the inner container 22 is clamped and fixed on the fixing seat, a heating end of the heater 23 penetrates through a side wall of the inner container 22 and is hermetically installed in the inner container 22, a steam connector is arranged on a top surface of the box body 21, a lower end of the steam connector extends downwards to be hermetically connected with a thread of the inner container 22, one end of a steam outlet pipe 4 is in threaded connection with the steam connector, and the other end of the steam outlet pipe is in threaded connection with a steam inlet of an ironing device 16, in.

Referring to fig. 1 and 2, one end of the steam exhaust pipe 5 is in threaded connection with a steam exhaust port of the ironing device 16, the other end of the steam exhaust pipe is connected with a steam inlet of the heat preservation water storage tank 7 through a pipeline joint, and the steam inlet of the heat preservation water storage tank 7 is formed in the lower portion of the side wall of the heat preservation water storage tank 7, so that cold water in the heat preservation water storage tank 7 can fully condense steam and absorb waste heat of the steam. In addition, the steam exhaust pipe 5 is sleeved with a heat preservation pipe 14, and heat preservation cotton is adhered in the heat preservation pipe 14, so that heat preservation can be performed on the steam exhaust pipe 5, and heat loss is reduced.

Referring to fig. 1 and 2, for further guaranteeing the condensation to steam, the water inlet has been seted up at heat preservation storage water tank 7 top, and the floater water level controller 15 is installed to the water inlet play screw thread, and floater water level controller 15 is connected with the inlet tube, and the inlet tube communicates with outside water source, and when the water level in heat preservation storage water tank 7 was lower, floater water level controller 15 can in time be to make up water in the heat preservation storage water tank 7, and the reduction is not enough because of water, and the steam waste heat's that leads to utilization ratio is.

Referring to fig. 1 and 2, a water supply pipe 1 is connected with a water inlet of an inner container 22 through one end of a pipe joint, and is connected with a water outlet of a heat preservation water storage tank 7 through the other end of the pipe joint, a first water pump 3 is installed on the water supply pipe 1 through a flange plate, wherein the water inlet of the inner container 22 is arranged at the lower part of the inner container 22, and the water outlet of the heat preservation water storage tank 7 is arranged at the lower part of the side wall close to the electric heating.

Referring to fig. 1 and 2, when steam enters the heat preservation water storage tank 7, the steam is condensed into liquid water when encountering cold, the heat absorption temperature of cold water in the heat preservation water storage tank 7 is increased, so that the air pressure in the heat preservation water storage tank 7 is changed, the service life of the heat preservation water storage tank 7 is prolonged for balancing the balance between the air pressure in the heat preservation water storage tank 7 and the external air pressure, and an exhaust valve 6 is installed on the top wall of the heat preservation water storage tank 7 in a threaded manner.

To understand the embodiment of the present application, as described in connection with the practical application, the heater 23 heats the water in the inner container 22 to generate steam, the steam supplies steam to the ironing device through the steam outlet pipe 4, the steam exhaust pipe 5 guides the redundant steam discharged from the ironing device into the heat preservation water storage tank 7 to preheat the cold water in the heat preservation water storage tank 7, and then the steam is condensed into liquid water and enters the inner container 22 through the first water pump 3 and the water supply pipe 1 along with the preheated water.

Referring to fig. 1 and fig. 2, for further improving this application embodiment, electric heating steam generator 2's waste heat utilization rate, still including removing frame 12, electric heating steam generator 2, the equal security protection of heat preservation storage water tank 7 and condensate tank 9 is on removing frame 12, in the in-service use, not only be convenient for remove electric heating steam generator 2, heat preservation storage water tank 7 and condensate tank 9 to the position of ironing operation platform, and can shorten the length of delivery pipe 1 and exhaust pipe 5, reduce thermal scattering and disappearing, further reduce the waste of resource.

Referring to fig. 1 and 2, a hydraulic lifting table 13 is arranged on the movable frame 12, the electric heating steam generator 2, the heat preservation water storage tank 7 and the condensate water tank 9 are all placed on the hydraulic lifting table 13 and used for reasonably adjusting the height of the electric heating steam generator 2 and the heat preservation water storage tank 7 from the operating table according to the height of the ironing operating table after the electric heating steam generator 2, the heat preservation water storage tank 7 and the condensate water tank 9 are moved to specified positions, and to a certain extent, the lengths of the steam inlet pipe and the steam exhaust pipe 5 are reduced, and the loss of heat is reduced.

The implementation principle of the embodiment 1 is as follows: the frame 12 is removed in the drive, place electrical heating steam generator 2, heat preservation storage water tank 7 and condensate tank 9 in the assigned position, start first water pump 3, heat preservation storage water tank 7 carries out the water injection through delivery pipe 1 in to inner bag 22, later start heater 23 and heat the water in inner bag 22, the steam that produces supplies steam to ironing device 16 through the admission pipe, ironing device 16 irones the surface fabric or dress business turn over, in the in-process of ironing, adjust ironing device 16's steam use amount according to the demand, unnecessary steam is leading-in to heat preservation storage water tank 7 in from exhaust pipe 5, preheat the cold water in the heat preservation storage water tank 7, water after the steam condensation mixes with the water after preheating, continue to make up water to inner bag 22 behind first water pump 3, so realize the closed loop, improve electrical heating steam generator 2's waste heat utilization ratio, reduce the waste of resource.

Example 2

Referring to fig. 3 and 4, the present embodiment is different from embodiment 1 in that the present embodiment further includes a condensed water tank 9, the condensed water tank 9 is located below the heat-preserving water tank, and the condensed water tank 9 is communicated with the heat-preserving water tank.

Referring to fig. 5, the heat exchange device further comprises a heat exchange assembly 8, and the heat exchange assembly 8 is located in the heat preservation water storage tank 7. Heat exchange assembly 8 includes first condenser coil 81 and second condenser coil 82, and first condenser coil 81 and second condenser coil 82 upwards extend through a pipe connection head and first exhaust pipe 5 intercommunication, and first condenser coil 81 and second condenser coil 82 pass the heat preservation storage water tank 7 diapire downwards and extend to in the condensate tank 9.

The first condensing coil 81 and the second condensing coil 82 not only extend the path of the steam in the heat preservation water storage tank 7, increase the heat exchange area and improve the heat exchange efficiency, but also can ensure that the temperature of the water in the heat preservation water storage tank is relatively uniform; the water after the steam condensation flows into the condensation water tank 9, so that the influence of the steam condensation on the air pressure in the heat-preservation water tank is weakened to a certain extent, and the service life of the heat-preservation water tank is prolonged.

Referring to fig. 5, in order to reduce the influence of insufficient steam condensation on the cold water tank, an air pipe 11 is hermetically inserted into the lower portion of the heat-preservation water tank 7, one end of the air pipe 11 extends out of the heat-preservation water tank 7, and the other end extends to the upper portion of the condensed water tank 9, so as to balance the air pressure in the condensed water tank 9. Therefore, the exhaust valve 6 may not be provided on the top wall of the holding water tank in this embodiment.

Referring to fig. 4 and 5, the system further comprises a condensed water recovery assembly 10, wherein the condensed water recovery assembly 10 comprises a second water pump 101 and a water return pipe 102, one end of the water return pipe 102 is communicated with the heat preservation water storage tank 7 through a pipeline joint, the other end of the water return pipe 102 is communicated with the condensed water tank 9 through a pipeline joint, and the second water pump 101 is installed on the water return pipe 102 through a flange plate; the second water pump 101 guides the condensed water into the heat preservation water storage tank 7, so that water can be saved, the utilization rate of the water is improved, the condensed water also has waste heat, and the utilization rate of the waste heat is further improved. In addition, in order to improve the utilization rate of the space of the hydraulic lifting platform, shorten the lengths of the water return pipe 102 and the water supply pipe 1 and reduce the heat dissipation of the water return pipe 102 and the heat exchange component 8, the heat preservation water storage tank 7 is fixed on the top wall of the condensed water through bolts.

The implementation principle of the embodiment 2 is as follows: the steam generated by the electric heating steam generator 2 supplies steam to the ironing device through the steam inlet pipe, the ironing device irones the fabric or the clothes in and out, in the ironing process, the steam using amount of the ironing device is adjusted according to the requirement, redundant steam is guided into the first condensing coil 81 and the second condensing coil 82 from the steam exhaust pipe 5, the first condensing coil 81 and the second condensing coil 82 preheat cold water in the heat preservation water storage tank 7, after the steam is condensed by the first condensing coil 81 and the second condensing coil 82, enters the condensed water tank 9 in a liquid state, then starts the second water pump 101 to lead the water in the condensed water tank 9 into the heat preservation water storage tank 7, then enters the inner container 22 after passing through the first water pump 3, and water is continuously supplemented into the inner container 22, so that a closed loop is realized, the waste heat utilization rate of the electric heating steam generator 2 is improved, and the waste of resources is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides an electrical heating steam generator's waste heat utilization system which characterized in that: including delivery pipe (1), electric heating steam generator (2), first water pump (3), play steam pipe (4), exhaust pipe (5), discharge valve (6) and heat preservation storage water tank (7), electric heating steam generator (2) include box (21), inner bag (22) and heater (23), inner bag (22) set up in box (21), heater (23) set up in inner bag (22), delivery pipe (1) connects gradually heat preservation storage water tank (7), first water pump (3) and inner bag (22), inner bag (22) are connected to play steam pipe (4) one end, and ironing device (16) are connected to the other end, exhaust pipe (5) one end is connected with steam iron, and the other end communicates with heat preservation storage water tank (7), discharge valve (6) set up on the roof of heat preservation storage water tank (7).

2. The heat recovery system of an electrically heated steam generator of claim 1, further comprising: still including heat exchange assembly (8) and condensate tank (9), heat exchange assembly (8) set up in heat preservation storage water tank (7), just heat exchange assembly (8) and exhaust pipe (5) intercommunication, just heat exchange assembly (8) and condensate tank (9) intercommunication.

3. The heat recovery system of an electrically heated steam generator of claim 2, further comprising: heat exchange assemblies (8) include first condensing coil (81) and second condensing coil (82), upwards extend with first exhaust pipe (5) intercommunication first condensing coil (81) and second condensing coil (82), first condensing coil (81) and second condensing coil (82) downwardly extending to in condensation water tank (9).

4. A heat recovery system of an electrically heated steam generator as set forth in claim 3 wherein: the lower part of the heat preservation water storage tank (7) is provided with an air pipe (11), one end of the air pipe (11) extends out of the heat preservation water storage tank (7), and the other end of the air pipe extends to the upper part of the condensed water tank (9).

5. The heat recovery system of an electrically heated steam generator of claim 1, further comprising: still including comdenstion water recovery subassembly (10), comdenstion water recovery subassembly (10) include second water pump (101) and wet return (102), wet return (102) one end and heat preservation storage water tank (7) intercommunication, the other end and condensate tank (9) intercommunication, second water pump (101) set up on wet return (102).

6. The heat recovery system of an electrically heated steam generator of claim 1, further comprising: the electric heating steam generator is characterized by further comprising a moving frame (12), wherein the electric heating steam generator (2), the heat preservation water storage tank (7) and the condensation water tank (9) are all arranged on the moving frame (12).

7. An electrically heated steam generator waste heat utilization system as claimed in claim 6, further comprising: the movable rack (12) is provided with a hydraulic lifting platform (13), and the electric heating steam generator (2), the heat preservation water storage tank (7) and the condensate water tank (9) are all arranged on the hydraulic lifting platform (13).

8. The heat recovery system of an electrically heated steam generator of claim 1, further comprising: the heat-insulating pipe (14) is sleeved on the steam exhaust pipe (5), and heat-insulating cotton is arranged in the heat-insulating pipe (14).

9. The heat recovery system of an electrically heated steam generator of claim 1, further comprising: and a floating ball water level controller (15) is arranged at a water inlet of the heat preservation water storage tank (7).

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