CN103162491A - Ozone generator circulation cooling device - Google Patents

Abstract

Provided is an ozone generator circulation cooling device. The ozone generator circulation cooling device comprises a cooling barrel which is directly used in ozone generator equipment cooling, a heat exchange device which is used for cooling circulation water, a cooling water storage device which is used for storing colling water, and a water pump which is used for pumping the cooling water into the cooling barrel, wherein the cooling barrel, the heat exchange device, the cooling water storage device, and the water pump are connected in sequence through pipelines, and a water circulation system is formed. The ozone generator circulation cooling device has the advantages that the structure is simple, assembly is convenient, a cooling water circulation pipeline and a refrigerating medium are in a fully closed state without leakage, the phenomenon of scale formation in pipelines and a tank body is prevented, and no cleanness and maintenance are needed; and a water storage tank only needs to be filled with enough plenty of purified water at one time and does not need to be filled in the long term and at regular time, time and labor are saved, cost is saved, operating cost is low, and the ozone generator circulation cooling device is high in efficiency, energy-saving, and environment-friendly.

Description

The ozone generator cooling back installation

Technical field

The present invention relates to a kind of cooling device, particularly a kind of for the ozone generator cooling back installation, belong to the ozone preparation field.

Background technology

The heat energy that operation produces to ozone generator equipment carries out the common way of cooling heat dissipation 2 kinds:

The first is to beat a bite deep-well, with the pulsating pump groundwater abstraction to water tank, add water filter in follow-up pipeline and remove the coolant intake that most of visible impurity (mud, the grains of sand etc.) is sent into ozone generator equipment again, just directly emptying from the water outlet of ozone generator equipment.

The second is to fetch running water to water tank from the water main net, then adds the coolant intake that booster water pump is delivered to ozone generator equipment, and the water outlet of ozone generator equipment is just directly emptying.

Above-mentioned two situations are analyzed as follows from the fine or not aspect to the economic benefit of ozone generator equipment operation, expense cost, effect:

1), adopt underground water equipment to move disposable input example in its early stage: to beat a bite deep-well, pulsating pump, water filter, water tank all needs, and ground water hardness is very large, contained mineral matter is very many, particularly iron rust is many, ozone devices is long running time one, pipeline and water pot inwall, the particularly easy fouling of ozone devices water holding jacket cooling layer, in case the heat energy that fouling ozone devices discharge tube produces cooling removal fast and effectively, will cause the decline that is in line in ozone generating capacity short time of ozone devices, finally cause the damage of ozone devices discharge tube and protective tube, thereby ozone devices can't work.For avoiding fouling to the damage of ozone devices; normally the ozone devices operation was just cleaned once in 3 to 4 months; need the time in week of shutting down to clean, scale remover, labour cost, the cleaning means accessory equipment that once cleans added the loss of stopping production at every turn, not lower approximately 100,000 yuan of all expenses.Delay work and mistake, cleaning labour intensity is large, cleans the normal production that affects the user, and the economic benefit that causes can't be estimated.And the effect of cleaning and descaling may not reach the level of ozone devices before dispatching from the factory.And at present non-illegal through examining a large amount of employing groundwater resources (the required cooling water inflow of equipment calculating that is 5 kg/hours of separate units by the ozone generating capacity is 300～500 cubes/day), also may not necessarily be granted even if declare employing underground water.And the direct discharging of the backwater of ozone devices can form again secondary pollution (contain the mineral matter severe contamination such as iron rust earth's surface), and not environmental protection causes water resource to waste greatly.

2), the employing running water of comparing, the scale formation of ozone devices and pipeline reduces a lot, need not clean (approximately cleaning once in 3 years) 3 to April, it is that 5 kg/hours of equipment of separate unit are required cooling by the ozone generating capacity: water inlet temperature≤25 ℃, the water yield: ozone generating capacity per kilogram needs 3 cubic meters/hours, 5 kg/hours of required cooling water inflows of equipment meter of 1 day separate unit: 3 * 5 * 24 is 360 cubes/day, every cube of charge for water is at present by approximately 5 yuan, the expense of 1 day is: 1800 yuan, needed 650,000 7 thousand yuan in 1 year.And its early investment example: booster water pump, water filter, water tank all need.

Large with the cooling waste of running water, as the to discharge hundreds of cube every day water yield, the waste water resource that gets off for a long time is too serious; Moving in 1 year needs hundreds of thousands first, and operating cost is high; And the direct discharging of the backwater of ozone devices can form secondary pollution again, causes water resource to waste greatly not environmental protection.

Summary of the invention

Goal of the invention: the present invention is directed to above-mentioned technological deficiency, provide that a kind of operating cost is lower, cost is more economized, the ozone generator cooling back installation of high-efficient energy-saving environment friendly.

Technical scheme: a kind of ozone generator cooling back installation comprises successively the cooling cylinder that is directly used in the ozone generator apparatus cools that connects with pipeline, is used for recirculated water is carried out cooling heat-exchange device, stores the cooling water storage device of cooling water and pumps into the water pump of cooling water in the cooling cylinder; Above-mentioned pipeline connects each device and forms a water circulation system, described heat-exchange device comprises water inlet, delivery port, heat exchanger cylindrical shell, be arranged in the heat exchanger cylindrical shell for delivery of the condenser pipe of cold-producing medium and produce cold-producing medium refrigerating plant, described refrigerating plant and condenser pipe are connected to form an airtight refrigerant-cycle systems; Pipeline between described cooling water storage device and water pump is provided with inlet regulating valve, pipeline between water pump and cooling cylinder is provided with out water regulating valve, be provided with cooling-water temperature sensor between described inlet regulating valve and water pump, describedly go out between water regulating valve and water pump to be provided with the discharge pressure table.

Described cooling water storage device comprises water tank, water compensating valve and draining valve, and described water compensating valve is positioned at water tank tank skin 2/3 above position, and draining valve is positioned at the water tank bottom.

Open inlet regulating valve and go out water regulating valve, open water pump, adjust the amplitude of valve opening according to the discharge pressure table, adjust the size of water yield, the bound that sets the temperature sensor at pump intake place is set numerical value, and water pump is drawn pure water and delivered to cooling cylinder from the cooling water storage device; Cooling water in cooling cylinder absorbs the heat that ozone generator equipment comes out, make cooling water temperature raise, hot water density floats on cooling cylinder top less than cold water density, and because water pump constantly pumps into cooling water in cooling cylinder, the hot water on cooling cylinder top is pressed into heat-exchange device.

The bound Numerical Control that the startup of refrigerating plant operation and stopping is set by temperature sensor, out of service when setting lower limit numerical value when water temperature, start operation during higher than capping numerical value.Refrigerating plant starts operation to be sent into cold-producing medium in condenser pipe, and condenser pipe is the good metal coil pipe of heat conductivility, enters hot water and condenser pipe in heat-exchange device and fully contacts rapidly and efficiently the heat exchange of completing.

The cooling water of having been lowered the temperature enters in following cooling water storage device, have in advance in water tank the purified water feed pump that accounts for tank body 2/3 volume cushion the suction deliver in cooling cylinder, there are water compensating valve and lower end draining valve in water storage tank body upper end, the recovery of purified water when facilitating this cooling-cycle device to replenish purified water and overhaul of the equipments.

Control valve and temperature sensor are equipped with in advance and the outlet of water pump, the control valve capable of regulating enters the water yield of cooling cylinder, temperature sensor can be controlled the operation of refrigerating plant and stop, can artificially set under the water inlet temperature and be limited to 15 ℃, on be limited to 25 ℃, during lower than 15 ℃, the refrigerating plant operation, out of service during higher than 25 ℃.

The operations in 24 hours that go round and begin again according to above-mentioned pipeline flow process of recirculated cooling water like this, after being cooled heat-exchange device, the cooling water that raises from the temperature of cooling cylinder enters in the cooling water storage device, sent into by water pump and carry out heat exchange in cooling cylinder and remove to get back to from cooling cylinder after the heat energy that ozone devices operation produced again and be cooled heat-exchange device, whole like this cooling recirculation system carries out week and the cool cycles that must begin.

Beneficial effect: the present invention is simple in structure, and is easy for installation, and cooling water circulation pipeline and refrigerant line are full closeding state, without sewing, stops pipeline and tank body scale formation, exempts to clean and safeguard; In water tank, as long as the disposable purified water that has added capacity does not need long-term regularly interpolation, cost is saved in the time and labour saving, and operating cost is low, high-efficient energy-saving environment friendly.

Description of drawings

Fig. 1 is structure principle chart of the present invention.

The specific embodiment

The present invention will be further described below in conjunction with accompanying drawing, as shown in the figure, a kind of ozone generator cooling back installation comprises successively the cooling cylinder that is directly used in the ozone generator apparatus cools 1 that connects with pipeline, is used for recirculated water is carried out cooling heat-exchange device 2, stores the cooling water storage device 3 of cooling water and pumps into the water pump 4 of cooling water in the cooling cylinder 1; Above-mentioned pipeline connects each device and forms a water circulation system, described heat-exchange device 2 comprises water inlet 21, delivery port 22, heat exchanger cylindrical shell 23, be arranged in heat exchanger cylindrical shell 23 for delivery of the condenser pipe 24 of cold-producing medium and produce cold-producing medium refrigerating plant 25, described refrigerating plant 25 and condenser pipe 24 are connected to form an airtight refrigerant-cycle systems; Pipeline between described cooling water storage device 3 and water pump 4 is provided with inlet regulating valve 5, pipeline between water pump 4 and cooling cylinder 1 is provided with out water regulating valve 6, be provided with cooling-water temperature sensor 7 between described inlet regulating valve 5 and water pump 4, describedly go out between water regulating valve 6 and water pump 4 to be provided with discharge pressure table 8.Described cooling water storage device 3 comprises water tank 31, water compensating valve 32 and draining valve 33, and described water compensating valve 32 is positioned at water tank 31 tank skin 2/3 above positions, and draining valve 33 is positioned at water tank 31 bottoms.

Open inlet regulating valve 5 and go out water regulating valve 6, open water pump 4, adjust the amplitude of valve opening according to discharge pressure table 8, adjust the size of water yield, the bound that sets the temperature sensor 7 of water pump 4 water inlets is set numerical value, and water pump 4 is drawn pure water and delivered to cooling cylinder 1 from cooling water storage device 3; Cooling water in cooling cylinder 1 absorbs the heat that ozone generator equipment comes out, make cooling water temperature raise, hot water density floats on cooling cylinder 1 top less than cold water density, and because water pump 4 constantly pumps into cooling water in cooling cylinder 1, the hot water on cooling cylinder 1 top is pressed into heat-exchange device 2.

The bound Numerical Control that the startup of refrigerating plant 25 operation and stopping is set by temperature sensor 7, out of service when setting lower limit numerical value when water temperature, start operation during higher than capping numerical value.Refrigerating plant 25 starts operation to be sent into cold-producing medium in condenser pipe 24, and condenser pipe 24 be the good metal coil pipe of heat conductivility, enters the interior hot water of heat-exchange device 2 and condenser pipe 24 and fully contacts rapidly and efficiently the heat exchange of completing.

The cooling water of having been lowered the temperature enters in following cooling water storage device 3, have in advance in water tank 31 the purified water feed pump 4 that accounts for tank body 2/3 volume cushion the suction deliver in cooling cylinder 1, there are water compensating valve 32 and lower end draining valve 33 in water tank 31 body upper ends, the recovery of purified water when facilitating this cooling-cycle device to replenish purified water and overhaul of the equipments.

Advance and the outlet of water pump 4 is equipped with inlet regulating valve 5, gone out water regulating valve 6 and temperature sensor 7, the control valve capable of regulating enters the water yield of cooling cylinder 1, temperature sensor 7 can be controlled the operation of refrigerating plant 25 and stop, can artificially set under the water inlet temperature and be limited to 15 ℃, on be limited to 25 ℃, during lower than 15 ℃, refrigerating plant 25 operations, out of service during higher than 25 ℃.

The operations in 24 hours that go round and begin again according to above-mentioned pipeline flow process of recirculated cooling water like this, after being cooled heat-exchange device 2, the cooling water that raises from the temperature of cooling cylinder 1 enters in cooling water storage device 3, sent into by water pump 4 and carry out heat exchange in cooling cylinder 1 and remove to get back to heat-exchange device 2 from cooling cylinder 1 after the heat energy that ozone devices operation produced again and be cooled, whole like this cooling recirculation system carries out week and the cool cycles that must begin.

Claims (2)

1. ozone generator cooling back installation is characterized in that: comprise the cooling cylinder that is directly used in the ozone generator apparatus cools (1) that connects with pipeline successively, be used for recirculated water is carried out cooling heat-exchange device (2), stores the cooling water storage device (3) of cooling water and pumps into the water pump (4) of cooling water in the cooling cylinder (1); Above-mentioned pipeline connects each device and forms a water circulation system, described heat-exchange device (2) comprises water inlet (21), delivery port (22), heat exchanger cylindrical shell (23), be arranged in heat exchanger cylindrical shell (23) for delivery of the condenser pipe (24) of cold-producing medium and produce cold-producing medium refrigerating plant (25), described refrigerating plant (25) and condenser pipe (24) are connected to form an airtight refrigerant-cycle systems; Pipeline between described cooling water storage device (3) and water pump (4) is provided with inlet regulating valve (5), pipeline between water pump (4) and cooling cylinder (1) is provided with out water regulating valve (6), be provided with cooling-water temperature sensor (7) between described inlet regulating valve (5) and water pump (4), describedly go out between water regulating valve (6) and water pump (4) to be provided with discharge pressure table (8).

2. ozone generator cooling back installation according to claim 1, it is characterized in that: described cooling water storage device (3) comprises water tank (31), water compensating valve (32) and draining valve (33), described water compensating valve (32) is positioned at water tank (31) tank skin 2/3 above position, and draining valve (33) is positioned at water tank (31) bottom.

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