CN204202230U - Frozen fish heat energy recycle device - Google Patents

Abstract

A kind of frozen fish heat energy recycle device, it is mainly: compression ammonia refrigerator exhaust main is connected with horizontal heat exchanger air inlet pipe housing upper, this horizontal heat exchanger lower housing portion is provided with discharging tube, it is connected with the evaporator pipe of freezer, and the outlet of this heat exchanger is connected with compression ammonia refrigerator inlet manifold; Above-mentioned horizontal condenser one end end socket is provided with water inlet pipe, it is connected with upper shed tank drainpipe by water pump, this horizontal condenser establishes same one end end socket of water inlet pipe or other end end socket to be provided with delivery port, the water pipe end be connected with this delivery port is positioned on tank, and this tank is connected with thawing apparatus.The utility model can save energy 75%, Be very effective; Thawing rate is fast, improves operating efficiency; Not only save a large amount of water resources but also reduce the burden of sewage disposal.

Description

Frozen fish heat energy recycle device

Technical field the utility model relates to a kind of processing of aquatic products device, particularly the processing unit (plant) of freezing reconciliation frozen aquatic products.

Background technology is current, the raw material of the aquatic products processing enterprises is all generally freezing state, need before processing to be thawed, the method of thawing is placed in tank, thaw with running water or underground water, the hot water of also useful boiler heating or steam thawing, the above two thawing rates are slow, although both thawing rates rear are fast, waste energy.The aquatic products thawed are after processing, and finished product needs stored frozen and transport, and generally undertaken freezing by compression ammonia refrigerator, refrigerator can discharge many heats again in the course of the work, and this part heat wastes again.

Summary of the invention the purpose of this utility model is the frozen fish heat energy recycle device providing a kind of heat discharged by the refrigerator of frozen fish to be utilized voluntarily by other equipment processing these aquatic products.

The utility model mainly comprises: the evaporimeter of compression ammonia refrigerator, heat exchanger, tank, water pump, thawing apparatus and freezer.Wherein, compression ammonia refrigerator (group) exhaust main is connected with the air inlet pipe of horizontal heat exchanger as sprinkling formula condenser or shell and tube condenser housing upper, this horizontal heat exchanger lower housing portion is provided with discharging tube, it can directly be connected with the evaporator pipe of freezer, and the outlet of this heat exchanger is connected with compression ammonia refrigerator (group) inlet manifold; Best, horizontal heat exchanger leakage fluid dram stores up ammonia device inlet by balance pipe or horizontal evaporation type condenser with high pressure and is connected, this high pressure storage ammonia device liquid outlet is connected with intercooler inlet, this intercooler liquid outlet and low pressure recycle are stored up ammonia device inlet and are connected, and this low pressure recycle storage ammonia device liquid outlet is connected by the evaporimeter inlet of the pipeline with freezer that are provided with choke valve.Above-mentioned horizontal condenser one end end socket is provided with water inlet pipe, it is connected with upper shed tank drainpipe by water pump, this horizontal condenser establishes same one end end socket of water inlet pipe or other end end socket to be provided with delivery port, the water pipe end be connected with this delivery port is positioned on tank, be provided with the floss hole of band valve bottom this tank, it is connected with thawing apparatus by water pump and pipeline.

The course of work of the present utility model is roughly as follows: enter after horizontal heat exchanger carries out heat exchange release heat from compression ammonia refrigerator (group) exhaust main 80-100 out DEG C ammonia and become liquefied ammonia, from the discharging tube of horizontal heat exchanger bottom out, directly can enter the evaporimeter of freezer, oneself ammonia is become while liquefied ammonia is freezing by it by the heat of evaporimeter absorption aquatic products finished product, then enter compression ammonia refrigerator inlet manifold, carry out new circulation.Best, enter high pressure by horizontal heat exchanger leakage fluid dram liquid ammonia out through balance pipe and store up ammonia device, store up ammonia device liquid ammonia out by high pressure after intercooler cooling twice, to enter low pressure recycle store up ammonia device, entered the evaporimeter inlet of freezer from low pressure recycle storage ammonia device liquid outlet liquid ammonia out by the pipeline being provided with choke valve.The temperature of freezing finished product can be made on former basis to fall 10 degree again by this process.The water inlet pipe of above-mentioned shell and tube condenser tubulation is connected with tank drainpipe by water pump, this water at low temperature through with ammonia heat exchange after, outlet temperature can reach 25 DEG C, this is discharged in tank again by the water heated, the water extraction that this is improve water temperature supplies the tank that thaws, the temperature of melt water can be improved, accelerate the thawing rate of freezing aquatic product product.

The utility model compared with prior art tool has the following advantages:

1, the heat that freezing finished product compression ammonia refrigerator (group) discharges is reclaimed by heat exchanger by the utility model, and a large amount of hot water of acquisition can be used for improving the temperature of raw water of thawing, and energy-conservation 75%, Be very effective, economic benefit is considerable.

2, because water temperature of thawing improves, thawing rate is fast, and improve operating efficiency, the 5 tons of raw materials that thaw in the past need 10 hours, and the 10 tons of raw materials that thaw now only use 1 hour

3, because water temperature of thawing improves, melt water need not often be changed, and thaw in the past 1 ton and expect needs 8 tons of water, and 0.5 ton of water is only used by the 1 ton of raw material that thaws now, and has not only saved a large amount of water resources but also has reduced the burden of sewage disposal.

Accompanying drawing explanation

Fig. 1 is the utility model flow process simplified schematic diagram.

Detailed description of the invention

In the frozen fish heat energy recycle device flow process simplified schematic diagram shown in Fig. 1, compression ammonia freezing unit 1 exhaust main is connected with the air inlet pipe of horizontal shell and tube condenser 2 (model DW8-50) housing upper, this horizontal shell and tube condenser lower housing portion is provided with leakage fluid dram, it stores up ammonia device (model ZA-10.0) 4 inlet by balance pipe or horizontal evaporation type condenser 3 with high pressure and is connected, this high pressure storage ammonia device liquid outlet is connected with intercooler (model ZL-8.0) 5 inlet, this intercooler liquid outlet and low pressure recycle are stored up ammonia device (model DX-5.0L) 6 inlet and are connected, this low pressure recycle storage ammonia device liquid outlet is connected by evaporimeter 8 inlet tube of the pipeline with freezer that are provided with choke valve 7, the evaporator outlet pipe of this freezer is connected with the freezing unit inlet manifold of compression ammonia.Above-mentioned shell and tube condenser one end end socket is provided with water inlet pipe, it is connected with upper shed tank 10 drainpipe by water pump 9, this shell and tube condenser establishes same one end end socket of water inlet pipe to be provided with delivery port, water pipe 11 end be connected with this delivery port is positioned on tank, be provided with the floss hole of band valve bottom this tank, it is connected with thawing apparatus 12 by water pump and pipeline.

Claims (3)

1. a frozen fish heat energy recycle device, it is characterized in that: compression ammonia refrigerator exhaust main is connected with the air inlet pipe of horizontal heat exchanger housing upper, this horizontal heat exchanger lower housing portion is provided with discharging tube, it is connected with the evaporator pipe of freezer, and the outlet of this heat exchanger is connected with compression ammonia refrigerator inlet manifold; Above-mentioned horizontal condenser one end end socket is provided with water inlet pipe, it is connected with upper shed tank drainpipe by water pump, this horizontal condenser establishes same one end end socket of water inlet pipe or other end end socket to be provided with delivery port, the water pipe end be connected with this delivery port is positioned on tank, be provided with the floss hole of band valve bottom this tank, it is connected with thawing apparatus by water pump and pipeline.

2. frozen fish heat energy recycle device according to claim 1, it is characterized in that: horizontal heat exchanger leakage fluid dram stores up ammonia device inlet by balance pipe and high pressure and is connected, this high pressure storage ammonia device liquid outlet is connected with intercooler inlet, this intercooler liquid outlet and low pressure recycle are stored up ammonia device inlet and are connected, and this low pressure recycle storage ammonia device liquid outlet is connected by the evaporimeter inlet of the pipeline with freezer that are provided with choke valve.

3. frozen fish heat energy recycle device according to claim 1, it is characterized in that: horizontal heat exchanger leakage fluid dram stores up ammonia device inlet by horizontal evaporation type condenser with high pressure and is connected, this high pressure storage ammonia device liquid outlet is connected with intercooler inlet, this intercooler liquid outlet and low pressure recycle are stored up ammonia device inlet and are connected, and this low pressure recycle storage ammonia device liquid outlet is connected by the evaporimeter inlet of the pipeline with freezer that are provided with choke valve.