CN110345618A - A kind of heat reclaiming system - Google Patents

Abstract

The present invention provides a kind of heat reclaiming systems, belong to technical field of energy recovery, and the heat reclaiming system includes fresh air system, air return system, dedusting heat reclaiming system, filtration system；The fresh air system includes fresh air humidity tester, fresh air temperature measuring device and new air regulator volume damper；The air return system includes primary retirn air device and secondary return air device；The dedusting heat reclaiming system includes dust removal unit, dedusting heat generating temperature tester, dedusting thermal energy humidity tester and dedusting thermal energy volume damper；The filtration system includes by-pass filtration system and secondary filtration system, the present invention is by carrying out mixing pretreatment for fresh air system, dedusting heat reclaiming system air quantity, it is handled with after air return system carry out table cold treatment into air conditioning chamber's refrigeration or heating after filtration system filters, extra thermal energy is sent in air return system by air supply duct, heat circulation is sent in return wind transom again by air return system, reaches the recoverable purpose of heat.

Description

A kind of heat reclaiming system

Technical field

The invention belongs to technical field of energy recovery, and in particular to a kind of heat reclaiming system.

Background technique

With Chinese Urbanization, industrialized fast development, industrial energy consumption is higher, and energy utilization rate is lower, wherein weaving Industry is one of main energy consumption industry in China, and energy waste phenomenon is serious, how energy shortage, the cost of raw material not It is disconnected to improve, under the situation that competitive pressure increasingly increases, selects reasonable efficient energy-conserving and emission-cutting technology to be applied to workshop, reduce The energy of enterprise is paid wages, and so that the energy is utilized effectively, it appears particularly important.

In textile production process, due to the difference of production technology and production equipment, it often will appear different workshop heats Unbalance situation, it is generally the case that in card room since its heat-producing device is less, and dedusting air draft heat loss is larger, heat Amount is directly discharged to the outdoor loss that will cause energy, is easy to cause the temperature in winter workshop relatively low, can only reach reluctantly To the requirement for maintaining production, the air in dedusting air draft after filtering relatively is cleaned, thermal energy with higher, therefore dedusting is arranged The thermal energy of wind is recycled, and can reduce air conditioning energy consumption, is reduced heat-energy losses, is haved the function that effective energy-saving and emission-reduction.

In the prior art, at present in the design of the air-conditioning system of textile mills and dust pelletizing system, often can all there be the energy The phenomenon that using unreasonable, energy waste, partial weave factory are being weaved using the thermal energy of dust pelletizing system by hot wind transfer techniques Workshop air-conditioning is rationally utilized, but the discharge of air-conditioning wind energy does not carry out air return system design, be easy to cause energy loss, also has Textile mills devise air-returning system device, but are not recycled the thermal energy in dust pelletizing system, cause in dust pelletizing system Thermal energy direct losses fall.

China Patent Publication No. CN201510356128.6, a kind of entitled weaving produced on-site garbage collection processing System, which can carry out centralized collection to dust, textile fabric, the waste material etc. generated in weaving site environment, thus effectively Improvement weave work on the spot environment, simultaneously, equipment runnability stability is high, and overhauls and troubleshooting is easy, but It is disadvantage is that the thermal energy that centralized collection dust, textile fabric, waste material generate is not recycled.

Therefore, be badly in need of to design it is a kind of by dedusting heat reclaiming system and by air-conditioning system thermal energy carry out return air The system and device of processing reaches the recoverable purpose of heat.

Summary of the invention

To solve not to be used to thermal energy in above-mentioned traditional textile factory air-conditioning system and Design of Dust-removing System, but The case where being directly discharged in atmosphere, not only exacerbating greenhouse effects and cause environmental pollution, but also cause energy dissipation, this hair Improving eyesight is the provision of a kind of heat reclaiming system, by mixing fresh air system, dedusting heat reclaiming system air quantity Pretreatment, the present invention are filtered by the way that fresh air system, dedusting heat reclaiming system air quantity are carried out mixing pretreatment through filtration system You enter air conditioning chamber's refrigeration after carrying out table cold treatment with wind energy in air return system afterwards or heating processing, extra thermal energy pass through air-supply Pipeline is sent in air return system, is again sent to heat circulation by primary retirn air device in air return system and secondary return air device In return wind transom, reach the recoverable purpose of heat.

A kind of heat reclaiming system, including fresh air system, air return system, dedusting heat reclaiming system, filtration system and sky Adjusting system；Five systems are communicated by volume damper and access, by adjusting fresh air system air quantity, air return system air quantity, removing Dirt heat reclaiming system air quantity, wind energy is after fresh air system and the mixing preheating of dedusting heat reclaiming system, into filtration system mistake Filter is mixed into air-conditioning system with air return system wind energy after filtering, air-conditioning system completes refrigeration or is divided into two-way after heating, and one Road is sent to air return system, is sent to indoor completion refrigeration or heating all the way.

Further, the fresh air system includes that fresh air humidity tester, fresh air temperature measuring device and new air regulator air quantity are adjusted Valve, fresh air system carries out humidity and temperature test analysis by fresh air humidity tester, fresh air temperature measuring device, new by adjusting Air regulator volume damper adjusts air quantity and enters new air regulator by fresh air pipeline.

Further, the air return system includes primary retirn air device and secondary return air device.

Further, primary retirn air device includes return air duct, primary retirn air volume damper in the air return system, once Return air duct and primary retirn air window, return air duct are connect by return air air quantity regulating three-way valve with primary retirn air pipeline, primary to return Air piping is connect with primary retirn air window by primary retirn air volume damper, adjusts one by adjusting primary retirn air volume damper Secondary return air heat energy makes thermal energy enter primary retirn air window by primary retirn air pipeline.

Further, in the air return system secondary return air device include secondary return air volume damper, secondary return air pipeline, Secondary returning air regulator, return air duct are connect by return air air quantity regulating three-way valve with secondary return air pipeline, secondary return air pipeline and two Secondary return wind transom is connected by secondary return air volume damper, adjusts secondary return air thermal energy by adjusting secondary return air volume damper Thermal energy is set to enter secondary returning air regulator by secondary return air pipeline.

Further, the dedusting heat reclaiming system includes that dust removal unit, dedusting heat generating temperature tester, dedusting thermal energy are wet Spend tester and dedusting thermal energy volume damper；After the dedusting heat reclaiming system is dusted operation by dust removal unit, Thermal energy after dedusting is subjected to temperature and humidity test point by dedusting heat generating temperature tester, dedusting thermal energy humidity tester Analysis adjusts dedusting thermal energy volume damper by dedusting wind-power pipeline and enters dedusting thermal energy return wind transom.

Further, the new air regulator, dedusting thermal energy return wind transom are connect with mixing preheating chamber, and mixing preheating chamber is equipped with pre- hot wind Machine after dust removal unit is dusted operation, can generate a large amount of thermal energy, by the thermal energy after dedusting by being mixed with fresh air system after, The pre-heat treatment is carried out in mixing preheating chamber, can be damaged by effectively reducing the electric energy of preheating fan using the thermal energy generated after dedusting Consumption saves preheating time.

Further, the filtration system includes by-pass filtration system and secondary filtration system, the mixing preheating chamber outlet Place is connected with by-pass filtration system and secondary filtration system, and wherein by-pass filtration system and secondary filtration system are connected by series connection It connects.

Further, the by-pass filtration system material is gauze, and being used for will be through new air regulator, primary retirn air window, dedusting thermal energy The dusty gas of return wind transom carries out by-pass filtration by boll hull, dust, sandy soil impurity of the by-pass filtration system residual on gauze Processing；The secondary filtration system material is bag filter or dry electrostatic filter of the non-woven fabrics as filtrate, and being used for will It does not filter complete impurity after by-pass filtration system filtration treatment and carries out secondary filter processing.

Further, the steam that the thermal energy that the air conditioning chamber completes to generate after refrigeration or heating operation is generated by blower is with row Steam pipe discharge, the thermal energy of generation is divided into two-way, and thermal energy is discharged to interior with air supply duct and is freezed or heated, return air duct all the way It is connect side by side with air supply duct, thermal energy enters return air duct and enters primary retirn air by return air air quantity regulating three-way valve all the way Device and secondary return air device.

The operation principle of the present invention is that:

Fresh air wind energy carries out humidity and temperature test point through fresh air humidity tester, fresh air temperature measuring device in fresh air system Analysis enters new air regulator by fresh air pipeline by adjusting new air regulator volume damper adjusting air quantity；Dust removal unit is dusted behaviour After work, the thermal energy after dedusting is subjected to temperature and humidity survey by dedusting heat generating temperature tester, dedusting thermal energy humidity tester Examination analysis adjusts dedusting thermal energy volume damper by dedusting wind-power pipeline and enters dedusting thermal energy return wind transom；New air regulator and dedusting Thermal energy return wind transom enters mixing preheating chamber, is preheated by thermal energy in dedusting thermal energy return wind transom and preheating fan to fresh air wind energy It handles, the biggish cotton-wool of particle and dust particles in fresh air system is removed through by-pass filtration system after the pre-heat treatment, through second level mistake Filter system removes in fresh air system and does not filter complete fine particle；After secondary filter with primary retirn air thermal energy in air return system Be mixed into a cold house Ci Biao carry out hot and humid area, carry out cooling humidity reduction processing, Jing Yici table cold house processing after with secondary return air Enter secondary instrument cold house after thermal energy mixing and carry out hot and humid area, carry out cooling humidity reduction processing, into air conditioning chamber by spray chamber, The water of spray chamber by pond temperature measuring set test pools temperature by water pump adjust water regulating valve pass water through air-conditioning into Waterpipe enters spray chamber and carries out refrigeration or heating processing, send the wind energy of generation to room with air supply duct all the way by blower It is interior, it send with return air duct to air return system progress thermal energy recycle again all the way.

Beneficial effect

(1) present invention is in fabrication processes, and more in the preceding dust-removing process for spinning part, the air quantity that dedusting generates is larger, leads to It crosses and is collected the thermal energy that dedusting generates air quantity, fresh air system is pre-processed, it is possible to reduce system is handled needed for fresh air Energy, the load of air-conditioner set is effectively reduced, reaches the recoverable purpose of heat.

(2) present invention by the design of the air quantity air-exhausting duct that generates dedusting close to air conditioning chamber, convenient for return air with it is shortest away from From air conditioning chamber is entered, the loss of heat source is reduced, achievees the purpose that efficiently use thermal energy.

(3) present invention takes dedusting to pre-process fresh air, since cotton-wool dust is more near textile mills, by using Grade one filter removes the biggish cotton-wool of particle and dust particles in fresh air system, is then removed in fresh air using secondary filter Complete fine particle is not filtered by grade one filter, fresh wind port can be reduced by handling by two-stage filter dust removal by filtration Dust avoids entering inside air-conditioning because of air-conditioning cotton-wool dust particles, influences the service life of air-conditioning, while air-conditioning can be improved and go out The air quality in air port avoids indoor cotton-wool dust particles exceeded, plays the purpose of purification air.

(4) present invention uses secondary return air system in air return system design, compared to primary-air recirculating system, Ke Yiti The utilization rate of high wind energy reduces the loss of air-conditioning energy in refrigeration or heating operations, effectively reduces and take cold heat circulation Operation of air conditioner load is reduced, operating cost is saved, air conditioning air exhaust heat can be recycled, reduces energy consumption.

Detailed description of the invention

Fig. 1 is the recoverable schematic diagram of present invention heat；

Fig. 2 is that dedusting thermal energy of the present invention recycling thermal energy flows to schematic diagram；

Fig. 3 is that secondary return air thermal energy flows to schematic diagram in the present invention.

In figure: 1, dust removal unit；2, dedusting heat generating temperature tester；3, dedusting thermal energy humidity tester；4, dedusting thermal energy Volume damper；5, dedusting wind-power pipeline；6, pond temperature measuring set；7, pond；8, water pump；9, water regulating valve；10, air-conditioning Water inlet line；11, gland steam exhauster；12, fresh air humidity tester；13, fresh air temperature measuring device；14, fresh air pipeline；15, new air regulator Volume damper；16, new air regulator；17, primary retirn air volume damper；18, primary retirn air pipeline；19, primary retirn air window；20, Dedusting thermal energy return wind transom；21, by-pass filtration system；22, secondary filtration system；23, air conditioning chamber；24, spray chamber；25, secondary returning Wind volume damper；26, secondary return air pipeline；27, secondary returning air regulator；28, blower；29, air supply duct；30, return air duct； 31, return air air quantity regulating three-way valve；32, preheating chamber is mixed；33, preheating fan；34, a cold house Ci Biao；35, secondary instrument cold house.

Specific embodiment

Clear, complete description is carried out below with reference to technical solution of the attached drawing to various embodiments of the present invention, it is clear that is retouched The embodiment stated is only a part of the embodiments of the present invention, instead of all the embodiments；Based on the embodiment of the present invention, originally Field those of ordinary skill obtained all other embodiment without making creative work, belongs to this hair Bright protected range.

Embodiment 1

A kind of heat reclaiming system, including fresh air system, air return system, dedusting heat reclaiming system, filtration system and sky Adjusting system；Five systems are communicated by volume damper and access, by adjusting fresh air system air quantity, air return system air quantity, removing Dirt heat reclaiming system air quantity, wind energy is after fresh air system and the mixing preheating of dedusting heat reclaiming system, into filtration system mistake Filter is mixed into air-conditioning system with air return system wind energy after filtering, air-conditioning system completes refrigeration or is divided into two-way after heating, and one Road is sent to air return system, is sent to indoor completion refrigeration or heating all the way.

Further, the fresh air system includes fresh air humidity tester 12, fresh air temperature measuring device 13 and new air regulator air quantity Regulating valve 15, fresh air system carry out humidity and temperature test analysis by fresh air humidity tester 12, fresh air temperature measuring device 13, New air regulator 16 is entered by fresh air pipeline 14 by adjusting the new adjusting air quantity of air regulator volume damper 15.

Further, the air return system includes primary retirn air device and secondary return air device.

Further, primary retirn air device includes return air duct 30, primary retirn air volume damper 17 in the air return system, Primary retirn air pipeline 18 and primary retirn air window 19, return air duct 30 pass through return air air quantity regulating three-way valve 31 and primary retirn air pipeline 18 connections, primary retirn air pipeline 18 is connect with primary retirn air window 19 by primary retirn air volume damper 17, primary by adjusting Return air volume damper 17, which adjusts primary retirn air thermal energy, makes thermal energy enter primary retirn air window 19 by primary retirn air pipeline 18.

Further, secondary return air device includes secondary return air volume damper 25, secondary returning air hose in the air return system Road 26, secondary returning air regulator 27, return air duct 30 is connect by return air air quantity regulating three-way valve 31 with secondary return air pipeline 26, secondary Return air duct 26 is connect with secondary returning air regulator 27 by secondary return air volume damper 25, is adjusted by adjusting secondary return air air quantity Valve 25, which adjusts secondary return air thermal energy, makes thermal energy enter secondary returning air regulator 27 by secondary return air pipeline 26.

Further, the dedusting heat reclaiming system includes dust removal unit 1, dedusting heat generating temperature tester 2, dedusting thermal energy Humidity tester 3 and dedusting thermal energy volume damper 4；The dedusting heat reclaiming system is dusted behaviour by dust removal unit 1 After work, the thermal energy after dedusting is subjected to temperature and humidity by dedusting heat generating temperature tester 2, dedusting thermal energy humidity tester 3 Test analysis adjusts dedusting thermal energy volume damper 4 by dedusting wind-power pipeline 5 and enters dedusting thermal energy return wind transom 20.

Further, the new air regulator 16, dedusting thermal energy return wind transom 20 are connect with mixing preheating chamber 32, and mixing preheating chamber is equipped with Preheating fan 33 after dust removal unit is dusted operation, can generate a large amount of thermal energy, by the thermal energy after dedusting by with fresh air system After mixing, the pre-heat treatment is carried out in mixing preheating chamber, it can be by effectively reducing preheating fan using the thermal energy generated after dedusting Electric energy loss, save preheating time.

Further, the filtration system includes by-pass filtration system 21 and secondary filtration system 22, the mixing preheating chamber 32 exits are connected with by-pass filtration system 21 and secondary filtration system 22, wherein by-pass filtration system 21 and secondary filtration system 22 pass through series connection.

Further, 21 material of by-pass filtration system be gauze, for will through new air regulator 16, primary retirn air window 19, remove The dusty gas of dirt thermal energy return wind transom 20 is carried out by boll hull, dust, sandy soil impurity of the by-pass filtration system residual on gauze By-pass filtration processing；22 material of secondary filtration system is that non-woven fabrics is filtered as the bag filter or dry electrostatic of filtrate Device carries out secondary filter processing for will not filter complete impurity after by-pass filtration system filtration treatment.

Further, the air conditioning chamber 23 completes the steam that the thermal energy generated after refrigeration or heating operation is generated by blower 28 It being discharged with gland steam exhauster 11, the thermal energy of generation is divided into two-way, and thermal energy is discharged to interior with air supply duct 29 and is freezed or heated all the way, Return air duct 30 is connect side by side with air supply duct 29, and thermal energy enters return air duct 30 by return air air quantity regulating three-way valve all the way 31 enter primary retirn air device and secondary return air device.

Embodiment 2

Fig. 2 be dedusting thermal energy of the present invention recycling thermal energy flow to schematic diagram, in Fig. 2 in fresh air system fresh air wind energy through new rheumatism Tester 12, the progress humidity of fresh air temperature measuring device 13 and temperature test analysis are spent, passes through and adjusts new air regulator volume damper 15 It adjusts air quantity and new air regulator 16 is entered by fresh air pipeline 14；After dust removal unit 1 is dusted operation, the thermal energy after dedusting is passed through Dedusting heat generating temperature tester 2, dedusting thermal energy humidity tester 3 carry out temperature and humidity test analysis, pass through dedusting wind energy pipe Road 5 adjusts dedusting thermal energy volume damper 4 and enters dedusting thermal energy return wind transom 20；20 thermal energy of new air regulator 16 and dedusting thermal energy return wind transom Into mixing preheating chamber 32, the pre-heat treatment is carried out to fresh air wind energy by thermal energy in dedusting thermal energy return wind transom and preheating fan 33, The biggish cotton-wool of particle and dust particles in fresh air system are removed through by-pass filtration system 21 after the pre-heat treatment, through secondary filtration system Complete fine particle is not filtered in 22 removing fresh air system of system.

Fig. 3 is that secondary return air thermal energy flows to schematic diagram in the present invention, secondary filter after fresh air and dedusting thermal energy mix in Fig. 3 A cold house Ci Biao 34 is mixed into primary retirn air thermal energy in air return system afterwards and carries out hot and humid area, carries out cooling humidity reduction processing, Enter secondary instrument cold house 35 after mixing after a cold house Ci Biao 34 processing with secondary return air thermal energy and carry out hot and humid area, is cooled down Dehumidification processing, into, by spray chamber 24, the water of spray chamber passes through 6 test pools of pond temperature measuring set, 7 temperature in air conditioning chamber 23 Degree passes water through air-conditioning water inlet line 10 by the adjustment water regulating valve 9 of water pump 8 and is freezed or heated into spray chamber 24 Processing, it is by blower 28 that the wind energy of generation is sent to the room with air supply duct 29 all the way, it send all the way with return air duct 30 to return air System carries out thermal energy and recycles again.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims (10)

1. a kind of heat reclaiming system, it is characterised in that: including fresh air system, air return system, dedusting heat reclaiming system, filtering System and air-conditioning system；Five systems are communicated by volume damper and access, by adjusting fresh air system air quantity, air return system Air quantity, dedusting heat reclaiming system air quantity, air is after fresh air system and the mixing preheating of dedusting heat reclaiming system, into filtering System filtering, is mixed into air-conditioning system with the air of air return system after filtering, air-conditioning system is divided after completing refrigeration or heating For two-way, it is sent to air return system all the way, is sent to indoor completion refrigeration or heating all the way.

2. a kind of heat reclaiming system according to claim 1, it is characterised in that: the fresh air system includes new wind moisture Tester (12), fresh air temperature measuring device (13) and new air regulator volume damper (15), fresh air system pass through fresh air humidity measurement Instrument (12), fresh air temperature measuring device (13) carry out humidity and temperature test analysis, by adjusting new air regulator volume damper (15) It adjusts air quantity and enters new air regulator (16) by fresh air pipeline (14).

3. a kind of heat reclaiming system according to claim 1, it is characterised in that: the air return system includes primary retirn air Device and secondary return air device.

4. a kind of heat reclaiming system according to claim 3, it is characterised in that: the primary retirn air device includes return air Pipeline (30), primary retirn air volume damper (17), primary retirn air pipeline (18) and primary retirn air window (19), return air duct (30) It is connect by return air air quantity regulating three-way valve (31) with primary retirn air pipeline (18), primary retirn air pipeline (18) and primary retirn air window (19) it is connected by primary retirn air volume damper (17), adjusts primary retirn air by adjusting primary retirn air volume damper (17) Thermal energy makes thermal energy enter primary retirn air window (19) by primary retirn air pipeline (18).

5. a kind of heat reclaiming system according to claim 3, it is characterised in that: the secondary return air device includes secondary Return air volume damper (25), secondary return air pipeline (26), secondary returning air regulator (27), return air duct (30) pass through return air air quantity tune Section triple valve (31) is connect with secondary return air pipeline (26), and secondary return air pipeline (26) and secondary returning air regulator (27) pass through secondary returning Wind volume damper (25) connection passes through thermal energy by adjusting secondary return air volume damper (25) adjusting secondary return air thermal energy Secondary return air pipeline (26) enters secondary returning air regulator (27).

6. a kind of heat reclaiming system according to claim 1, it is characterised in that: the dedusting heat reclaiming system includes Dust removal unit (1), dedusting heat generating temperature tester (2), dedusting thermal energy humidity tester (3) and dedusting thermal energy volume damper (4)；After the dedusting heat reclaiming system is dusted operation by dust removal unit (1), the thermal energy after dedusting is passed through into dedusting Heat generating temperature tester (2), dedusting thermal energy humidity tester (3) carry out temperature and humidity test analysis, pass through dedusting wind energy pipe Road (5) adjusts dedusting thermal energy volume damper (4) and enters dedusting thermal energy return wind transom (20).

7. a kind of heat reclaiming system according to claim 1, it is characterised in that: the new air regulator (16), dedusting thermal energy Return wind transom (20) is connect with mixing preheating chamber (32), and mixing preheating chamber is equipped with preheating fan (33).

8. a kind of heat reclaiming system according to claim 1, it is characterised in that: the filtration system includes by-pass filtration System (21) and secondary filtration system (22), mixing preheating chamber (32) exit are connected with by-pass filtration system (21) and two Grade filtration system (22), wherein by-pass filtration system (21) and secondary filtration system (22) pass through series connection.

9. a kind of heat reclaiming system according to claim 1 or 8, it is characterised in that: the by-pass filtration system (21) Material is gauze, for passing through the dusty gas through new air regulator (16), primary retirn air window (19), dedusting thermal energy return wind transom (20) Boll hull, dust, sandy soil impurity of the by-pass filtration system residual on gauze carry out by-pass filtration processing；The secondary filtration system (22) material is bag filter or dry electrostatic filter of the non-woven fabrics as filtrate, for that will filter through by-pass filtration system Complete impurity is not filtered after processing and carries out secondary filter processing.

10. a kind of heat reclaiming system according to claim 1, it is characterised in that: the air conditioning chamber (23) completes refrigeration Or the thermal energy generated after heating operation is discharged by the steam that blower (28) generate with gland steam exhauster (11), the thermal energy of generation is divided into two Road, thermal energy is discharged to interior with air supply duct (29) and is freezed or heated all the way, and return air duct (30) and air supply duct (29) are simultaneously Column connection, thermal energy enters return air duct (30) and enters primary retirn air device by return air air quantity regulating three-way valve (31) all the way With secondary return air device.