CN102853493A - Thermal energy transferring method and device of textile workshop - Google Patents

Thermal energy transferring method and device of textile workshop Download PDF

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Publication number
CN102853493A
CN102853493A CN2012103212949A CN201210321294A CN102853493A CN 102853493 A CN102853493 A CN 102853493A CN 2012103212949 A CN2012103212949 A CN 2012103212949A CN 201210321294 A CN201210321294 A CN 201210321294A CN 102853493 A CN102853493 A CN 102853493A
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China
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air
workshop
heat
thermal energy
step
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CN2012103212949A
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Chinese (zh)
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姚建平
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昆山市万丰制衣有限责任公司
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Priority to CN2012103212949A priority Critical patent/CN102853493A/en
Publication of CN102853493A publication Critical patent/CN102853493A/en

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Abstract

The invention provides a thermal energy transferring method of a textile workshop, comprising the steps of step 1, returning technical exhaust gas into an air conditioning room with greater heat generation capacity to be filtered; step 2, conveying air of filtered gas from a technical exhaust fan to an air conditioning room of a workshop with smaller heat generation capacity through a channel partitioned by a main channel; and step 3, conveying the air to the workshop by an air blower of the air conditioning room. According to the thermal energy transferring method, surplus heat of a spun yarn workshop is conveyed to the workshop with smaller heat generation capacity so as to guarantee that the heat energy between the workshops can be mutually transferred and distributed, and save a large amount of energy. The thermal energy transferring method adopts the technical exhaust fan and an air conveying system, the air blowing is more uniform and the comfortable level of the whole workshop is higher; and the heat utilization rate is higher and the effect of saving energy and reducing emission is very obvious.

Description

纺织车间的热能转移方法及装置 Heat transfer method and apparatus of the textile workshop

技术领域 FIELD

[0001] 本发明涉及一种热能转移方法及装置,尤其涉及一种用于纺织车间的热能转移方法及装置 [0001] The present invention relates to a heat transfer method and apparatus, and particularly to method and apparatus for transferring thermal energy plant for textile

背景技术 Background technique

[0002] 现有部分纺织车间如细纱车间由于机器发热量大,在冬季车间热量仍有剩余,需要大量排放到室外大气中,大量热能白白浪费;而部分纺织车间如络筒车间和前纺车间在冬季则需要供热,这样造成了能量浪费严重。 [0002] The conventional part of the textile spinning plant machine shop since heat, heat still remains in the shop winter, a large amount discharged to the outside atmosphere, a lot of heat wasted; workshop as the part of the textile spinning and winding plant workshop in winter heating is required, this caused a serious waste of energy.

[0003] 细纱车间用电一般占全厂吨纱基本生产用电的60%〜70%,除一部分转化为加工产品的机械能外,绝大部分电功率转化为热能散发到车间中。 [0003] Usually the total plant electricity spinning Drag tons of yarn substantially 60% ~ 70% of electricity production, in addition to a portion of the processed products is converted to mechanical energy, most of the electric power is converted to heat energy emitted to the workshop. 细纱机的主要产热部件是电机,电机表面温度甚至高达60°C,远远高于车间的温度。 The main heat-generating parts of the motor spinning, the surface temperature of the motor even up to 60 ° C, much higher than the temperature of the plant. 因此为节约能源,目前细纱车间的电机基本上都单独进行排风,称为工艺排风。 Therefore save energy, the current motor spinning department basically be vented separately, a process known as exhaust. 由于细纱车间热量过剩,无论冬季还是夏季,工艺排风都排至室外大气中。 Since spinning workshop excess calories, regardless of winter or summer, all process exhaust air to the outside row. 除工艺排风外,细纱车间的车间回风称为地排风。 In addition to process exhaust, spinning workshop to workshop called return air exhaust. 根据国家标准,细纱车间的温度一般也高于其他车间的温度。 According to national standards, the temperature of the spinning department is generally higher than the temperature of other plant. 实际纺织车间中,冬季细纱车间的温度甚至比前纺并粗等车间的车间温度高10°C以上。 The actual textile workshop, the winter temperature of the spinning department plant even more than before spinning and high crude workshop above 10 ° C.

[0004] 发热量较小的车间包括有后纺的络筒车间、前纺的并粗车间等。 [0004] The plant comprises a relatively small amount of heat after the winding plant has spinning, spinning and crude workshop. 这些车间的机器数量较少,机器排布较稀,整个车间总体发热量较低。 Fewer of these machines workshop machine arrangement more dilute, low calorie fat overall whole plant. 在冬季,仅靠机器发热量不足以保证车间的温度。 In the winter, heat the machine alone is not sufficient to ensure that the temperature of the workshop. 为达到国家标准要求的温度,需要从外界输入热量。 In order to achieve national standards of temperature, heat input required from the outside world. 纺织企业用电量很大,约和整个纺织企业的工人工资相当。 Textile enterprises with great power, workers' wages and about the entire textile industry quite. 作为劳动密集型的纺织企业,在原料成本和人工成本已无潜力可挖的情况下,节能已成为纺织企业可持续发展、增加企业利润、提高企业核心竞争力的最佳选择。 As a labor-intensive textile enterprises, in the case of raw material costs and labor costs has no potential to be tapped, energy conservation has become the sustainable development of the textile industry, increase profits and improve the core competitiveness of enterprises the best choice.

[0005] 所以对现有技术人员来说如何找寻一个技术方案,解决各车间热量产生量不同,在冬季能量浪费严重的问题是一个急侍解决的问题。 [0005] Therefore, the existing skilled person how to find a technical solution to solve the workshop to produce different amounts of heat, energy waste is a serious problem in the winter a paternity urgent problem.

发明内容 SUMMARY

[0006] 本发明所要解决的技术问题是提供一种用于纺织车间的热能转移装置及方法,把排出室外的热量转移至需要供热的车间,通过各车间热能相互转移分配来达到热能节约利用的目的,从而达到十分良好的节能效果。 [0006] The present invention solves the technical problem is to provide a heat transfer device and method for a textile plant, the heat exhausted to the outside is transferred to the workshop must be heated, the heat transfer through the respective shop assigned to one another to achieve energy savings by using the purpose, so as to achieve very good energy saving effect.

[0007] 本发明的核心在于:不消耗或消耗很少的能量,将部分纺织车间的热能转移至另外的纺织车间。 Core [0007] The present invention is: consumes little or no energy consumption, the portion of the thermal energy transferred to another plant woven textile workshop.

[0008] 一种用于纺织车间的热能转移方法包括如下步骤 A method of transferring thermal energy textile workshop [0008] A method for comprising the steps of

[0009] 步骤1,工艺排风回产热量较大的空调室过滤; [0009] Step 1, a large amount of heat produced back to process exhaust air conditioner filter chamber;

[0010] 步骤2、过滤气的空气由工艺排风机通过主通道隔出的一条通道送至产热量较小的车间的空调室; [0010] Step 2, by the process air, filtered air exhaust fan through the main passage to the passage partitioned off a smaller heat production plant air conditioning chamber;

[0011] 步骤3、由该空调室的送风机送至车间。 [0011] Step 3, supplied by the blower of the air conditioning plant chamber.

[0012] 一种用于纺织车间的热能转移装置,其特征在于,所述工艺排风机的主通道旁设有一条通道连通产热量较大的空调室及产热时小的空调室。 [0012] A thermal energy transfer device for a textile plant, characterized in that the main channel of the process exhaust bypass machine provided with a small air-conditioned chamber when a large amount of heat produced passage of air conditioning and the heat generating chamber.

[0013] 进一步的,所述的产热量较大的空调室设有排风窗,该排风窗可调,可把工艺排风调小或关闭,以保证在冬季工艺排风可送至其他车间。 [0013] Further, the heat production of large air-conditioned room with ventilation windows, ventilation windows which can be adjusted, the adjustment process exhaust or off small, to ensure that in the winter may be sent to another process exhaust workshop.

[0014] 进一步地,所述隔出风道的两端,装有调节窗以保证冬季工艺排风可以畅通,而夏季工艺排风不能通过。 [0014] Further, the both ends of the compartment air passage, with the adjustment window may be to ensure that the process exhaust flow in winter, summer and can not pass through the exhaust process. 隔出风道可采用普通的砖墙或玻璃钢风道。 A duct spacer may be employed conventional brick or fiberglass duct.

[0015] 本发明可将细纱车间的多余热量送至产热量较小的车间,从而保证车间热能的相互转移分配,这样可节约大量能源。 [0015] The present invention, excess heat may be supplied to the spinning department smaller heat production plant, thus ensuring the mutual transfer of heat energy distribution plant, this can save a lot of energy. 本发明采用了工艺排风机和送风系统,其送风比较均匀,整个车间的舒适度较高,热能利用率较高,节能减排效果十分明显。 The present invention uses a machine and process exhaust air supply system which supply air is relatively uniform, the entire plant high comfort, high thermal efficiency, energy saving effect is very obvious.

附图说明 BRIEF DESCRIPTION

[0016] 图I是本发明的方法的流程图。 [0016] Figure I is a flow chart of a method according to the present invention.

具体实施方式 Detailed ways

[0017] 如图I所示:一种用于纺织车间的热能转移方法包括如下步骤: [0017] As shown in FIG. I: A method for thermal transfer method comprising the steps of textile workshop:

[0018] 步骤1,工艺排风回产热量较大的空调室过滤; [0018] Step 1, a large amount of heat produced back to process exhaust air conditioner filter chamber;

[0019] 步骤2、过滤气的空气由工艺排风机通过主通道隔出的一条通道送至产热量较小的车间的空调室; [0019] Step 2, by the process air, filtered air exhaust fan through the main passage to the passage partitioned off a smaller heat production plant air conditioning chamber;

[0020] 步骤3、由该空调室的送风机送至车间。 [0020] Step 3, supplied by the blower of the air conditioning plant chamber.

[0021] 一种用于纺织车间的热能转移装置,在工艺排风机的主通道旁设有一条通道连通产热量较大的空调室及产热时小的空调室。 [0021] A thermal energy transfer device for a textile plant, the air-conditioned room with a small passage when a large amount of heat production and heat generating air-conditioned chamber beside the main exhaust passage process machine. 在产热量较大的空调室设有排风窗,该排风窗可调,可把工艺排风调小或关闭,以保证在冬季工艺排风可送至其他车间。 In the heat production with large air-conditioned room ventilation windows, ventilation windows which can be adjusted, the adjustment process exhaust or off small, to ensure that in the winter may be sent to another process exhaust plant. 在隔出通道的两端,装有调节窗以保证冬季工艺排风可以畅通,而夏季工艺排风不能通过。 At both ends of the channel spacer, with the adjustment window may be to ensure that the process exhaust flow in winter, summer and can not pass through the exhaust process. 隔出风道可采用普通的砖墙或玻璃钢风道。 A duct spacer may be employed conventional brick or fiberglass duct. 本发明可在不增加锅炉的前提下,将前纺并粗车间、后防络筒车间的温度提高了6〜7°C,都达到19°C以上,不采用锅炉即可达到人体的热感觉要求。 The present invention can be provided without increasing the boiler, and the crude spinning plant, the temperature of winding plant defense improved 6~7 ° C, are more than 19 ° C, the boiler can be achieved without using the body's thermal sensation Claim.

Claims (4)

1. 一种用于纺织车间的热能转移方法,其特征在于,包括如下步骤步骤1,工艺排风回产热量较大的空调室过滤; 步骤2、过滤气的空气由工艺排风机通过主通道隔出的一条通道送至产热量较小的车间的空调室; 步骤3、由该空调室的送风机送至车间。 1. A thermal energy transfer method for a spinning plant, characterized by comprising the steps of step 1, back to the heat production process exhaust air conditioner larger filtration chamber; Step 2, the air filter by the process gas through the main exhaust passage machine a passage out of the compartment to the air conditioning chamber of smaller heat production plant; step 3, the blower of the air conditioner from the chamber to the workshop.
2. 一种用于纺织车间的热能转移装置,其特征在于,在工艺排风机的主通道旁设有一条通道连通产热量较大的空调室及产热时小的空调室。 A heat transfer device for a textile plant, characterized in that the air conditioning chamber provided with a small passage when a large amount of heat production and heat generating air-conditioned chamber beside the main exhaust passage process machine.
3.根据权利要求2所述的用于纺织车间的热能转移装置,其特征在于,所述的产热量较大的空调室设有排风窗,该排风窗大小可调。 3. The heat transfer device of the textile plant according to claim 2, wherein said heat producing large air-conditioned room with ventilation windows, the window size is adjustable ventilation.
4.根据权利要求2所述的用于纺织车间的热能转移装置,其特征在于,所述通道的两端,装有调节窗。 The means for transfer of thermal energy of the textile plant as claimed in claim 2, wherein both ends of the channel, with the adjustment window.
CN2012103212949A 2012-09-04 2012-09-04 Thermal energy transferring method and device of textile workshop CN102853493A (en)

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CN101482303A (en) * 2008-10-07 2009-07-15 郑州宏大纺纱新技术咨询有限公司 Energy-saving consumption-reducing air conditioning method and unit air conditioner of spinning factory
CN102261708A (en) * 2011-06-10 2011-11-30 西安工程大学 Based on the size of mill environment saving indirect evaporative cooling air conditioning system
CN202392956U (en) * 2011-11-17 2012-08-22 南通华强布业有限公司 Secondary return air utilization device of combing air conditioner

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5495721A (en) * 1994-06-03 1996-03-05 Ltg Lufttechnishche Gmbh Process for cooling and conditioning air
CN101482303A (en) * 2008-10-07 2009-07-15 郑州宏大纺纱新技术咨询有限公司 Energy-saving consumption-reducing air conditioning method and unit air conditioner of spinning factory
CN102261708A (en) * 2011-06-10 2011-11-30 西安工程大学 Based on the size of mill environment saving indirect evaporative cooling air conditioning system
CN202392956U (en) * 2011-11-17 2012-08-22 南通华强布业有限公司 Secondary return air utilization device of combing air conditioner

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
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