CN205443650U - Utensil heat recovery's energy -conserving dyeing machine - Google Patents

Abstract

The utility model provides an utensil heat recovery's energy -conserving dyeing machine, includes a trunk body, a dye liquor supply unit, a dye liquor heating unit and a dye liquor cooling unit that is equipped with directly -heated type heat exchanger to a series pipe is connected with directly -heated type heat exchanger, wherein, trunk body outer fringe is equipped with a coating section of thick bamboo wall, make to form an annular heating chamber between its and the trunk body, and directly -heated type heat exchanger's exhaust outlet is equipped with a waste gas conveyer pipe and annular heating chamber intercommunication, borrow this dye liquor to use serial -type directly -heated type heat exchanger to heat up, save multichannel time thermal energy conversion procedure, effectively solve the problem of the meaningless consume of the energy. Further with directly -heated type heat exchanger's hot waste gas, carry out heating again to the dye liquor in the trunk body, make the waste heat can use and can exert the greatest benefit of heat energy.

Description

The energy-saving dyeing machine of tool energy recovery

Technical field

This utility model is relevant a kind of staining machine structure, and espespecially a kind of application direct-heating-type heat exchanger carries out dye liquor intensification, and heated the dye liquor in trunk body further by its hot waste gas, to play the energy-saving dyeing machine structure of heat energy benefit.

Background technology

As it is shown in figure 1, the structure of general fabric dyeing machine generally comprises: a trunk body 110, it is provided with cloth wheel 113 and a nozzle 114 in having a head 111 and a cloth storage trough 112, and this head 111；One dye liquor feed unit 120, main pump 121 dye liquor dosing pump 123 aspirated from medicine-adding bin 122, send into heat exchanger 130 through transfer pipeline 124 and deliver to this nozzle 114 again；One cloth guide tube 140, is picked out the tail to trunk body 110 by this nozzle 114, forms a loop contaminated for cloth 141 circulation with this trunk body 110.

Secondary person, the heat exchanger 130 of general fabric dyeing machine connects vapour inlet 131, cooling water inlet 132, coolant outlet 133, condensation-water drain 134 and manual drainage mouth 135, and is provided steam and dye liquor to carry out heat exchange by boiler (not shown)；Wherein, owing to heat energy produced by burning fuel borrowed by boiler, allow water form steam, then be delivered to heat exchanger 130 and carry out heat exchange with dye liquor；Therefore, the heat energy of fuel via the converse routine of the multiple tracks such as boiler → water → steam → heat exchanger, must could produce the effect of heating to dye liquor, the most necessarily has the conversion loss of heat energy, adds the conveyance loss of steam, causes the meaningless consume of the energy.

Furthermore, for the problem improving heat energy conversion loss, the dealer of staining machine heat exchanger field has been developed in a kind of direct-heating-type heat exchanger, fuel is sent into its heating chamber and is burnt to produce steam by it, and directly apply this steam to heat dye liquor, and save the energy converse routine of the multiple tracks such as heat energy → water → steam → heat exchange, the problem that therefore can effectively solve the meaningless consume of the energy.

But, the steam of direct-heating-type heat exchanger complete with dye liquor heat exchange after, its waste gas is the most directly discharged, because waste gas still has surplus heat, if failing to greatly utilize, dyeing machine system will be unable to play heat energy greatest benefit.

Utility model content

Technical problem underlying to be solved in the utility model is, overcome the drawbacks described above that prior art exists, and a kind of energy-saving dyeing machine having energy recovery is provided, application direct-heating-type heat exchanger carries out the energy-saving dyeing machine structure of dye liquor intensification, to solve the problem that prior art causes the meaningless consume of the energy；Waste hot gas is heated further the energy-saving dyeing machine structure of dye liquor so that it is waste heat is applied and can be played the greatest benefit of heat energy.

This utility model solves its technical problem and be the technical scheme is that

A kind of energy-saving dyeing machine having energy recovery, including: a trunk body, its side is provided with a dye liquor input port to connect a dye liquor input pipe, opposite side is provided with a dye liquor delivery outlet to connect a dye liquor outlet tube, its outer rim is provided with a clad barrel, making to form an annular-heating room between itself and trunk body, and this side, annular-heating room is provided with an air inlet, opposite side is provided with a floss hole；One dye liquor feed unit, is arranged at outside this trunk body, and it has a pump to be pressurizeed by dye liquor, and a port of export is to connect an outlet pipeline, and an entrance point is to connect this dye liquor outlet tube；One dye liquor heating unit, it is arranged at outside this trunk body, closes at this dye liquor feed unit, it includes that a direct-heating-type heat exchanger is in order to heat dye liquor, this direct-heating-type heat exchanger is provided with dye liquor first entrance in order to connect this outlet pipeline, one dye liquor first exports to connect this dye liquor input pipe, one series pipe, is connected to this dye liquor first and exports；One waste gas outlet is in order to discharge hot waste gas, and a waste gas pipeline is to link this waste gas outlet and the air inlet of this annular-heating room so that it is hot waste gas gets enter into the annular-heating room of this trunk body outer rim；And a dye liquor temperature reducing unit, it is arranged at outside this trunk body, closes at this dye liquor heating unit, it includes that a heat exchanger is in order to lower the temperature dye liquor, this heat exchanger is provided with a cooling water inlet with a cooling water inlet valve in order to be connected a cooling water pipeline, one coolant outlet and a coolant outlet valve are in order to discharge cooling water, one dye liquor the second entrance is in order to connect this series pipe, and a dye liquor second exports to connect this dye liquor input pipe；

Whereby, when dye liquor heats up, close this cooling water inlet valve, dye liquor enters from the outlet pipeline of this dye liquor feed unit after heating in this direct-heating-type heat exchanger, make the dye liquor that gradually sequence heats, this dye liquor temperature reducing unit is first flowed through by this series pipe, trunk body is sent into again through this dye liquor input pipe, completing heat exchange in this direct-heating-type heat exchanger with dye liquor and still have the hot waste gas of suitable heat energy then to enter this annular-heating room through this waste gas pipeline, the dye liquor in this trunk body will be heated by this hot waste gas again；Again when dye liquor is lowered the temperature, open this cooling water inlet valve, by this dye liquor from the outlet pipeline of dye liquor feed unit, flow through this direct-heating-type heat exchanger but do not heat, after cooling down in being entered this heat exchanger by this series pipe again, make the dye liquor of gradually sequence cooling, send into trunk body through this dye liquor input pipe.

According to front taking off feature, in this utility model, this trunk body also includes the trunk body of horizontal type staining machine and vertical trunk body.

According to front taking off feature, in this utility model, the trunk body of this horizontal type staining machine has a head and a cloth storage trough, and in this head, it is provided with a cloth wheel and a nozzle connected with this dye liquor input port, one cloth guide tube, picked out the tail to this trunk body by this nozzle, become a loop soaked for cloth circulation dye with this trunk figure.

According to front taking off feature, in this utility model, this vertical trunk body also includes the trunk body of the trunk body for vertical type staining machine and yarn dyeing machine.

According to front taking off feature, in this utility model, this direct-heating-type heat exchanger includes: an internal layer barrel, is a heating chamber inside it, and its side forms an internal layer hot gas inlet；One interlayer barrel, is arranged at the outside of this internal layer barrel, and separates out an annular heat switch room with this internal layer barrel, and this dye liquor first entrance exports with this dye liquor first and communicates with this annular heat switch room respectively；One outer layer barrel, it is arranged at the outside of this interlayer barrel, and separates out an annular vent room with this interlayer barrel, between itself and this heating chamber, be formed with several intercommunicating pore, and this internal layer hot gas inlet is formed with an outer layer hot gas inlet relatively, and this waste gas outlet communicates with this annular vent room；And a heating unit, it is arranged at the outer layer hot gas inlet of this outer layer barrel, and fuel is sent into the burning of this heating chamber and produces heat energy.

By front taking off feature, direct-heating-type heat exchanger of the present utility model, produces steam by fuel heating, and directly applies this steam to heat dye liquor, save the energy converse routine of the multiple tracks such as heat energy → water → steam → heat exchange, the problem that therefore can effectively solve the meaningless consume of the energy.Furthermore, this utility model further by the hot waste gas of this direct-heating-type heat exchanger, carries out heating again to the dye liquor in trunk body, makes waste heat be applied and can play the greatest benefit of heat energy.

The beneficial effects of the utility model are, application direct-heating-type heat exchanger carries out the energy-saving dyeing machine structure of dye liquor intensification, to solve the problem that prior art causes the meaningless consume of the energy；Waste hot gas is heated further the energy-saving dyeing machine structure of dye liquor so that it is waste heat is applied and can be played the greatest benefit of heat energy.

Accompanying drawing explanation

With embodiment, this utility model is further illustrated below in conjunction with the accompanying drawings.

Fig. 1 is the structural representation of existing general fabric dyeing machine.

Fig. 2 is the structural representation that this utility model is applied to horizontal type staining machine.

Fig. 3 is the trunk body cut-away view that this utility model is applied to horizontal type staining machine.

Fig. 4 is direct-heating-type heat converter structure schematic diagram of the present utility model.

Fig. 5 is the stream schematic diagram that this utility model horizontal type staining machine dye liquor heats up.

Fig. 6 is the stream schematic diagram of this utility model horizontal type staining machine dye liquor cooling.

Fig. 7 is the structural representation that this utility model is applied to vertical trunk body.

Label declaration in figure:

10: trunk body

10A: the trunk body of horizontal type staining machine

10B: vertical trunk body

11: head

12: cloth storage trough

13: cloth wheel

14: nozzle

15: clad barrel

16: annular-heating room

17: air inlet

18: floss hole

19: tail

20: dye liquor feed unit

21: pump

22: the port of export

23: entrance point

24: dye liquor outlet tube

25: outlet pipeline

30: dye liquor heating unit

31: direct-heating-type heat exchanger

32: dye liquor the first entrance

33: dye liquor first exports

34: waste gas outlet

35: series pipe

36: waste gas pipeline

40: cloth guide tube

41: dye liquor input port

42: dye liquor input pipe

43: dye liquor delivery outlet

51: outer layer barrel

512: outer layer hot gas inlet

52: interlayer barrel

53: internal layer barrel

531: internal layer hot gas inlet

532: intercommunicating pore

54: heating unit

55: annular vent room

56: annular heat switch room

57: heating chamber

61: cooling water inlet valve

62: coolant outlet valve

70: dye liquor temperature reducing unit

71: heat exchanger

72: cooling water inlet

73: cooling water pipeline

74: coolant outlet

75: dye liquor the second entrance

76: dye liquor second exports

100: Horizontal energy-saving fabric dyeing machine

C: cloth

G: hot waste gas

L: dye liquor

W: cooling water

Detailed description of the invention

First, refer to shown in Fig. 2, the structural representation of horizontal type staining machine 100 it is applied to for this utility model, this horizontal type staining machine 100 one possible embodiments includes: a trunk body 10, it has head 11 and a cloth storage trough 12, cloth wheel 13 and a nozzle 14 it is provided with in this head 11, a dye liquor input port 41 it is provided with to connect a dye liquor input pipe 42 on the upside of this trunk body 10, downside is provided with a dye liquor delivery outlet 43 to connect a dye liquor outlet tube 24, and this dye liquor input port 41 connects with this nozzle 14, one cloth guide tube 40, the tail 19 to this trunk body 10 is picked out by this nozzle 14, a loop person soaked for cloth C circulation dye is formed with this trunk body 10；But, more than constitute and belong to prior art (priorart), the purpose of non-this patent, hold and do not repeat.

Of the present utility model it is characterized mainly in that: this trunk body 10 outer rim is provided with a clad barrel 15 so that it is and between trunk body 10, form an annular-heating room 16, and this side, annular-heating room 16 is provided with air inlet 17 opposite side and is provided with a floss hole 18.

One dye liquor feed unit 20, is arranged at this trunk body 10 outside, and it has a pump 21 to be pressurizeed by dye liquor L, and a port of export 22 is to connect an outlet pipeline 25, and an entrance point 23 is to connect this dye liquor outlet tube 24.

One dye liquor heating unit 30, it is arranged at this trunk body 10 outside, it includes that a direct-heating-type heat exchanger 31 is in order to heat dye liquor L, this direct-heating-type heat exchanger 31 is provided with dye liquor first entrance 32 in order to connect this outlet pipeline 25, and one dye liquor first export 33 in order to will heating after dye liquor L output, one series pipe 35, is connected to this dye liquor first and exports 33；One waste gas outlet 34 is in order to discharge hot waste gas G, and a waste gas pipeline 36 is to link the air inlet 17 of this waste gas outlet 34 and this annular-heating room 16 so that it is hot waste gas G gets enter into the annular-heating room 16 of trunk body 10 outer rim.

One dye liquor temperature reducing unit 70, it is arranged at this trunk body 10 outside, closes at this dye liquor heating unit 30, it includes that a heat exchanger 71 is in order to lower the temperature dye liquor L, this heat exchanger 71 is provided with a cooling water inlet 72 with a cooling water inlet valve 61 in order to be connected a cooling water pipeline 73, one coolant outlet 74 and a coolant outlet valve 62 are in order to discharge cooling water W, one dye liquor the second entrance 75 is in order to connect this series pipe 35, and a dye liquor second exports 76 in order to connect this dye liquor input pipe 42.

Shown in Fig. 3, trunk body 10A cut-away view for this utility model horizontal type staining machine, it is wherein cloth storage trough 12 below this trunk body 10, in place of cloth C dye leaching, this trunk body 10 outer rim arranges a clad barrel 15, formed between itself and trunk body 10 and on the upside of an annular-heating room 16, and this annular-heating room 16, be provided with an air inlet 17；After hot waste gas G is discharged by direct-heating-type heat exchanger 31, carry through waste gas pipeline 36 and enter in this annular-heating room 16 from this air inlet 17, owing to hot waste gas G still has waste heat, can heat dye liquor L further, this hot waste gas G then discharges from this floss hole 18 after completing heat exchange with dye liquor L.

Further referring to shown in Fig. 4, for direct-heating-type heat exchanger 31 structural representation of the present utility model, including: an internal layer barrel 53, is a heating chamber 57 inside it, and its side forms an internal layer hot gas inlet 531；One interlayer barrel 52, is arranged at the outside of this internal layer barrel 53, and separates out an annular heat switch room 56 with this internal layer barrel 53, and this dye liquor first entrance 32 exports 33 with this dye liquor first and communicates with this annular heat switch room 56 respectively；One outer layer barrel 51, it is arranged at the outside of this interlayer barrel 52: and separate out an annular vent room 55 with this interlayer barrel 52, it is formed with several intercommunicating pore 532 between itself and this heating chamber 57, and this internal layer hot gas inlet 531 is formed with an outer layer hot gas inlet 512 relatively, and this waste gas outlet 34 communicates with this annular vent room 55；And a heating unit 54, it is arranged at the outer layer hot gas inlet 512 of this outer layer barrel 51, burns generation heat energy in order to fuel to be sent into this heating chamber 57.

Shown in Fig. 5, it is applied to the stream schematic diagram that horizontal type staining machine dye liquor heats up, when dye liquor L to heat up, it is necessary to first start this direct-heating-type heat exchanger 31 for this utility model, even if also this heating unit 54 action, burn generation heat energy in order to fuel to be sent into heating chamber 57；Continue, then close the valve of this dye liquor temperature reducing unit 70 periphery, including cooling water inlet valve 61, coolant outlet valve 62, then dye liquor heats entering in this direct-heating-type heat exchanger 31 from the outlet pipeline 25 of dye liquor feed unit 20, after making dye liquor L gradually sequence heating, first flowed through this dye liquor temperature reducing unit 70 by this series pipe 35, then send into the nozzle 14 in trunk body 10 through this dye liquor input pipe 42, in cloth guide tube 40 flows into cloth storage trough 12；And this direct-heating-type heat exchanger 31 completes with dye liquor L heat exchange and still has the hot waste gas G of suitable heat energy, then enter this annular-heating room 16 through this waste gas pipeline 36, the dye liquor L in this trunk body 10 is heated again.

Shown in Fig. 6, the stream schematic diagram of horizontal type staining machine dye liquor cooling it is applied to for this utility model, when dye liquor L to lower the temperature, must first start the heat exchanger 71 of this dye liquor temperature reducing unit 70, that is open cooling water inlet valve 61, coolant outlet valve 62, make cooling water W enter in heat exchanger 71 from cooling water pipeline 73；Continue, then close this dye liquor heating unit 30, then dye liquor is by from the outlet pipeline 25 of dye liquor feed unit 20, after flowing through this direct-heating-type heat exchanger 30, entered this heat exchanger 71 by this series pipe 35 again to cool down, after making the cooling of dye liquor L gradually sequence, then send into the nozzle 14 in trunk body 10 through this dye liquor input pipe 42, in cloth guide tube 40 flows into cloth storage trough 12.

Shown in Fig. 7, being applied to the structural representation of vertical trunk body 10B for this utility model, wherein this vertical trunk body 10B includes the trunk body of the trunk body for vertical type staining machine and yarn dyeing machine；This structure includes: a trunk body 10, and its side is provided with a dye liquor input port 41 to connect a dye liquor input pipe 42, and opposite side is provided with a dye liquor delivery outlet 43 to connect a dye liquor outlet tube 24；This trunk body 10 outer rim is provided with a clad barrel 15 so that it is and between trunk body 10, form an annular-heating room 16, and this side, annular-heating room 16 is provided with an air inlet 17, and opposite side is provided with a floss hole 18；Furthermore, including dye liquor feed unit 20, dye liquor heating unit 30 and a dye liquor temperature reducing unit 70, its structure and composition are all same as the structure of the horizontal type staining machine 100 shown in Fig. 2, do not repeat them here.

Owing to this utility model applies this direct-heating-type heat exchanger 31, fuel is sent into its heating chamber 57 burn to produce steam, and directly apply this steam to heat dye liquor L, save the energy converse routine of the multiple tracks such as heat energy → water → steam → heat exchange, therefore the problem that can effectively solve the meaningless consume of the energy, and there is energy-conservation effect.Furthermore, this utility model further arranges a clad barrel 15 in trunk body 10 outer rim of fabric dyeing machine, make between itself and trunk body 10, to form an annular-heating room 16, again by the hot waste gas G after this direct-heating-type heat exchanger 31 its heating dye liquor L, in waste gas pipeline 36 sends into this annular-heating room 16, dye liquor L in trunk body 10 is carried out heating again, makes this utility model fully be applied waste heat, thus play the greatest benefit of heat energy.

The above, it it is only preferred embodiment of the present utility model, not this utility model is made any pro forma restriction, every any simple modification, equivalent variations and modification made above example according to technical spirit of the present utility model, all still falls within the range of technical solutions of the utility model.

In sum, this utility model designs in structure, uses in practicality and cost benefit, needed for complying fully with industry development, and disclosed structure is also to have unprecedented innovative structure, there is novelty, creativeness, practicality, meet the regulation about new patent important document, therefore mention application in accordance with the law.

Claims (5)

1. the energy-saving dyeing machine having energy recovery, it is characterised in that including:

One trunk body, its side is provided with a dye liquor input port to connect a dye liquor input pipe, opposite side is provided with a dye liquor delivery outlet to connect a dye liquor outlet tube, its outer rim is provided with a clad barrel, make between itself and trunk body, to form an annular-heating room, and this side, annular-heating room is provided with an air inlet, opposite side is provided with a floss hole；

One dye liquor feed unit, is arranged at outside this trunk body, and it has a pump to be pressurizeed by dye liquor, and a port of export is to connect an outlet pipeline, and an entrance point is to connect this dye liquor outlet tube；

One dye liquor heating unit, it is arranged at outside this trunk body, closes at this dye liquor feed unit, it includes that a direct-heating-type heat exchanger is in order to heat dye liquor, this direct-heating-type heat exchanger is provided with dye liquor first entrance in order to connect this outlet pipeline, one dye liquor first exports, in order to by the dye liquor output after heating, a series pipe, to be connected to this dye liquor first and to export；One waste gas outlet is in order to discharge hot waste gas, and a waste gas pipeline is to link this waste gas outlet and the air inlet of this annular-heating room so that it is hot waste gas gets enter into the annular-heating room of this trunk body outer rim；And

One dye liquor temperature reducing unit, it is arranged at outside this trunk body, closes at this dye liquor heating unit, it includes that a heat exchanger is in order to lower the temperature dye liquor, this heat exchanger is provided with a cooling water inlet with a cooling water inlet valve in order to be connected a cooling water pipeline, one coolant outlet and a coolant outlet valve are in order to discharge cooling water, one dye liquor the second entrance is in order to connect this series pipe, and a dye liquor second exports to connect this dye liquor input pipe；

Whereby, when dye liquor heats up, close this cooling water inlet valve, dye liquor enters from the outlet pipeline of this dye liquor feed unit after heating in this direct-heating-type heat exchanger, make the dye liquor that gradually sequence heats, this dye liquor temperature reducing unit is first flowed through by this series pipe, trunk body is sent into again through this dye liquor input pipe, completing heat exchange in this direct-heating-type heat exchanger with dye liquor and still have the hot waste gas of suitable heat energy then to enter this annular-heating room through this waste gas pipeline, the dye liquor in this trunk body will be heated by this hot waste gas again；Again when dye liquor is lowered the temperature, open this cooling water inlet valve, by this dye liquor from the outlet pipeline of dye liquor feed unit, flow through this direct-heating-type heat exchanger but do not heat, after cooling down in being entered this heat exchanger by this series pipe again, make the dye liquor of gradually sequence cooling, send into trunk body through this dye liquor input pipe.

The energy-saving dyeing machine of tool energy recovery the most according to claim 1, it is characterised in that described trunk body comprises the trunk body of horizontal type staining machine and vertical trunk body.

The energy-saving dyeing machine of tool energy recovery the most according to claim 2, it is characterized in that, the trunk body of described horizontal type staining machine has a head and a cloth storage trough, and in this head, it is provided with a cloth wheel and a nozzle connected with this dye liquor input port, one cloth guide tube, picked out the tail to this trunk body by this nozzle, become a loop soaked for cloth circulation dye with this trunk figure.

The energy-saving dyeing machine of tool energy recovery the most according to claim 2, it is characterised in that described vertical trunk body includes the trunk body of the trunk body for vertical type staining machine and yarn dyeing machine.

The energy-saving dyeing machine of tool energy recovery the most according to any one of claim 1 to 4, it is characterised in that described direct-heating-type heat exchanger includes:

One internal layer barrel, is a heating chamber inside it, and its side forms an internal layer hot gas inlet；

One interlayer barrel, is arranged at the outside of this internal layer barrel, and separates out an annular heat switch room with this internal layer barrel, and this dye liquor first entrance exports with this dye liquor first and communicates with this annular heat switch room respectively；

One outer layer barrel, it is arranged at the outside of this interlayer barrel, and separates out an annular vent room with this interlayer barrel, between itself and this heating chamber, be formed with several intercommunicating pore, and this internal layer hot gas inlet is formed with an outer layer hot gas inlet relatively, and this waste gas outlet communicates with this annular vent room；And

One heating unit, is arranged at the outer layer hot gas inlet of this outer layer barrel, and fuel is sent into the burning of this heating chamber and produces heat energy.