CN205641681U - A heat pump for electroplating process - Google Patents

Abstract

The utility model discloses a heat pump for electroplating process, including heat collection system, transmission pipeline, evaporimeter, compressor, first condenser, second condenser, expansion valve and circulating pump, the heat collector includes hydrothermal collector and geothermol power collector, the heat collector passes through transmission pipeline and connects the evaporimeter, the compressor is connected to the evaporimeter, first condenser is connected to the compressor, the second condenser is connected to first condenser, the second condenser is connected to the circulating pump, the expansion valve is connected on the second condenser, the utility model discloses a heat pump for electroplating process, through hydrothermal and the geothermol power collector that sets up, can collect these two kinds of heats and utilize electroplating process, the use of electric energy in the electroplating has significantly reduced.

Description

A kind of heat pump for electroplating technology

Technical field

This utility model relates to field of electroplating, particularly to a kind of heat pump for electroplating technology.

Background technology

Plating utilizes electrolysis principle to plate the process of other metal or alloy of a thin layer on some metal surface exactly, it is the technique of the surface attachment layer of metal film utilizing electrolysis to make metal or other material thus plays and prevent burning, improve the effects such as wearability, electric conductivity, reflective, corrosion resistance and having improved aesthetic appearance.Electroplating industry needs consume substantial amounts of electric power so that the cost of electroplating industry increases greatly.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of hydro-thermal by arranging and underground heat harvester, can be collected using in electroplating technology by both heats, greatly reduce the heat pump for electroplating technology of the use of electric energy in plating, to solve the above-mentioned multinomial defect caused in prior art.

For achieving the above object, the technical scheme that this utility model offer is following: a kind of heat pump for electroplating technology, including heat harvester, transfer conduit, vaporizer, compressor, the first condenser, the second condenser, expansion valve and circulating pump, described heat harvester includes hydro-thermal harvester and underground heat harvester, heat harvester connects vaporizer by transfer conduit, vaporizer connects compressor, compressor connects the first condenser, first condenser connects the second condenser, circulating pump connects the second condenser, and expansion valve is connected on the second condenser.

Preferably, described heat harvester, house steward is collected including shell, hydro-thermal harvester, underground heat harvester, connecting tube and heat, hydro-thermal harvester and underground heat harvester are arranged on enclosure, hydro-thermal harvester and underground heat harvester are individually connected to heat by connecting tube and collect on house steward, and heat collects house steward and connects transfer conduit.

Preferably, described first condenser is provided with circulating pump.

Preferably, described first condenser and the second condenser are provided with combination radiator.

Preferably, described expansion valve has been arranged in series electromagnetic valve.

nullAbove technical scheme is used to provide the benefit that: the heat pump for electroplating technology of this utility model structure，By the hydro-thermal arranged and underground heat harvester，Can be collected using in electroplating technology by both heats，Greatly reduce the use of electric energy in plating，Described heat harvester，Including shell、Hydro-thermal harvester、Underground heat harvester、Connecting tube and heat collect house steward，Hydro-thermal harvester and underground heat harvester are arranged on enclosure，Hydro-thermal harvester and underground heat harvester are individually connected to heat by connecting tube and collect on house steward，Heat collects house steward and connects transfer conduit，Make this heat pump can be utilized respectively hydro-thermal and underground heat by this structure，This heat pump spendable heat energy scope is increased，Described first condenser is provided with circulating pump，The used heat that condenser is got rid of can be collected and recycled by circulating pump，It is provided with combination radiator on described first condenser and the second condenser，Your device cold operationally can give off heat，If the eliminating not in time of this heat can affect the work efficiency of heat pump，Therefore this heat is got rid of body by the radiator set up by this utility model in time in time，It has been arranged in series electromagnetic valve on described expansion valve，The stable of this heat pump is ensure that by both valves of series connection.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model；

Fig. 2 is the structural representation of heat harvester shown in Fig. 1；

Wherein, 1, heat harvester；2, transfer conduit；3, vaporizer；4, compressor；5, the first condenser；6, the second condenser；7, expansion valve；8, circulating pump；9, shell；10, hydro-thermal harvester；11, underground heat harvester；12, connecting tube；13, heat collects house steward；14, combination radiator；15, electromagnetic valve.

Detailed description of the invention

Describe preferred implementation of the present utility model below in conjunction with the accompanying drawings in detail.

Fig. 1-2 shows detailed description of the invention of the present utility model: a kind of heat pump for electroplating technology, including heat harvester 1, transfer conduit 2, vaporizer 3, compressor 4, first condenser 5, second condenser 6, expansion valve 7 and circulating pump 8, described heat harvester 1 includes hydro-thermal harvester 10 and underground heat harvester 11, heat harvester 1 connects vaporizer 3 by transfer conduit 2, vaporizer 3 connects compressor 4, compressor 4 connects the first condenser 5, first condenser 5 connects the second condenser 6, circulating pump 8 connects the second condenser 6, expansion valve 7 is connected on the second condenser 6.

In conjunction with the heat harvester 1 shown in Fig. 2, house steward 13 is collected including shell 9, hydro-thermal harvester 10, underground heat harvester 11, connecting tube 12 and heat, it is internal that hydro-thermal harvester 10 and underground heat harvester 11 are arranged on shell 9, hydro-thermal harvester 10 and underground heat harvester 11 are individually connected to heat by connecting tube 12 and collect on house steward 13, and heat collects house steward 13 and connects transfer conduit 2.

nullAbove technical scheme is used to provide the benefit that: the heat pump for electroplating technology of this utility model structure，By the hydro-thermal arranged and underground heat harvester，Can be collected using in electroplating technology by both heats，Greatly reduce the use of electric energy in plating，Described heat harvester，Including shell、Hydro-thermal harvester、Underground heat harvester、Connecting tube and heat collect house steward，Hydro-thermal harvester and underground heat harvester are arranged on enclosure，Hydro-thermal harvester and underground heat harvester are individually connected to heat by connecting tube and collect on house steward，Heat collects house steward and connects transfer conduit，Make this heat pump can be utilized respectively hydro-thermal and underground heat by this structure，This heat pump spendable heat energy scope is increased，Described first condenser is provided with circulating pump，The used heat that condenser is got rid of can be collected and recycled by circulating pump，It is provided with combination radiator on described first condenser and the second condenser，Your device cold operationally can give off heat，If the eliminating not in time of this heat can affect the work efficiency of heat pump，Therefore this heat is got rid of body by the radiator set up by this utility model in time in time，It has been arranged in series electromagnetic valve on described expansion valve，The stable of this heat pump is ensure that by both valves of series connection.

Above-described is only preferred implementation of the present utility model; it should be pointed out that, for the person of ordinary skill of the art, on the premise of creating design without departing from this utility model; can also make some deformation and improvement, these broadly fall into protection domain of the present utility model.

Claims (5)

1. the heat pump for electroplating technology, it is characterized in that: include heat harvester, transfer conduit, vaporizer, compressor, the first condenser, the second condenser, expansion valve and circulating pump, described heat harvester includes hydro-thermal harvester and underground heat harvester, heat harvester connects vaporizer by transfer conduit, vaporizer connects compressor, compressor connects the first condenser, first condenser connects the second condenser, circulating pump connects the second condenser, and expansion valve is connected on the second condenser.

Heat pump for electroplating technology the most according to claim 1, it is characterized in that: described heat harvester, house steward is collected including shell, hydro-thermal harvester, underground heat harvester, connecting tube and heat, hydro-thermal harvester and underground heat harvester are arranged on enclosure, hydro-thermal harvester and underground heat harvester are individually connected to heat by connecting tube and collect on house steward, and heat collects house steward and connects transfer conduit.

Heat pump for electroplating technology the most according to claim 1, it is characterised in that: described first condenser is provided with circulating pump.

Heat pump for electroplating technology the most according to claim 1, it is characterised in that: it is provided with combination radiator on described first condenser and the second condenser.

Heat pump for electroplating technology the most according to claim 1, it is characterised in that: it is arranged in series electromagnetic valve on described expansion valve.