CN203215832U - Integrated heat exchange and heating integral machine with rectangular machine cabinet - Google Patents

Abstract

The utility model relates to the improvement of a solar heating and heat exchange device and belongs to an integrated heat exchange and heating integral machine with a rectangular machine cabinet. The integrated heat exchange and heating integral machine is provided with a water storage tank, an electric heater, an anode magnesium rod, a heat exchanger, a controller, a connecting pipeline, an expansion tank, a pressure safety valve and a circulation water pump, particularly, the water storage tank, the electric heater, the anode magnesium rod, the heat exchanger, the controller, the connecting pipeline, the expansion tank, the pressure safety valve and the circulation water pump adopt a machine cabinet for installation, a base is arranged in the machine cabinet, and a water temperature sensor interface, an external water pump power supply interface, a heat collector temperature sensor interface, a power supply wire inlet interface, a heat exchanger water inlet interface, a heat exchanger water outlet interface, a supplementing water interface, a pollution discharge interface, a water storage tank water inlet interface and a water storage tank water outlet interface are formed in a base side plate. The integrated heat exchange and heating integral machine solves the problems of great occupied space and installation difficulty of the existing solar heating heat exchanger, and is mainly used for the improvement of the existing solar heating heat exchanger.

Description

The integrated heat exchange heating of rectangular cabinet all-in-one

Technical field

The utility model relates to the improvement of solar heating heat-exchanger rig, is the integrated heat exchange heating of a kind of rectangular cabinet all-in-one.

Background technology

Along with the increase of modern society's energy-conserving and environment-protective consciousness, solar heating system is used widely; Solar heating system includes solar thermal collector and heat exchange heating plant, and the heat exchange heating plant is made up of water storage box, electric heater, heat exchanger, expansion drum, water circulating pump, pipe joint and controller; The prior art solar heating with the problem that heat-exchanger rig exists is: heat-exchanger rig is to be made of several parts assemblings, installation was time-consuming when the user used, installation is difficult, and heat-exchanger rig takes up room greatly, and solar heating has been proposed new requirement with the improvement of heat-exchanger rig.

Summary of the invention

The purpose of this utility model is will solve existing solar heating with the existing problem big, that installation is time-consuming and installation is difficult that takes up room of heat-exchanger rig, and the integrated heat exchange heating of a kind of rectangular cabinet all-in-one is provided.

Concrete scheme of the present utility model is: the integrated heat exchange heating of a kind of rectangular cabinet all-in-one, and it is provided with water storage box, electric heater, anodic magnesium rod, heat exchanger, controller, expansion drum, connecting pipe, water circulating pump, pressure safety valve and Pressure gauge; It is characterized in that: described water storage box, electric heater, anodic magnesium rod, heat exchanger, controller, expansion drum, connecting pipe, water circulating pump, pressure safety valve and Pressure gauge are to adopt rack to constitute to install; The below of rack is provided with base, base is provided with and connects supporting, is separately installed with cooling-water temperature sensor interface, external pump power interface, heat collector temperature sensor interface, electric power incoming line interface, heat exchanger water inlet interface, heat exchanger water outlet interface, supplementing water interface, blowdown interface, water storage box water inlet interface and water storage box water outlet interface on the base side plate; Water storage box is to adopt to connect to support to be installed in the top that is positioned at base in the rack, and water output duct and two cooling-water temperature sensors are installed respectively in the water storage box, and the outside of water storage box is equipped with terminal box; Heat exchanger is mounted in the top of water storage box base plate, electric heater and anodic magnesium rod are mounted in the top that is positioned at heat exchanger in the water storage box, controller is mounted on the panel of rack top, and expansion drum, water circulating pump, pressure safety valve and Pressure gauge are mounted in the base of rack; Electric heater in the described water storage box, anodic magnesium rod and two temperature sensors are to adopt terminal box to be communicated with controller, and water circulating pump is to adopt terminal box to be communicated with controller; Described heat exchanger water inlet interface and heat exchanger water outlet interface are to adopt connecting pipe, water circulating pump, expansion drum, pressure safety valve and Pressure gauge to be communicated with heat exchanger two end interfaces respectively, water storage box water inlet interface is to adopt connecting pipe to be communicated with water storage box, and water storage box water outlet interface is to adopt connecting pipe and water output duct to be communicated with water storage box.

Rack described in the utility model is rectangular cross-sectional configuration, described rack or circular cross-sectional configuration.

Two cooling-water temperature sensors are to be to arrange installation up and down in the water storage box described in the utility model.

Blowdown interface described in the utility model is to adopt connecting pipe to be communicated with water storage box.

Supplementing water interface described in the utility model is to adopt connecting pipe and be communicated with heat exchanger by expansion drum.

Water pump on the external water pipe described in the utility model is to adopt external pump power Interface and Controler to be communicated with.

Temperature sensor on the external solar thermal collector described in the utility model is to adopt the heat collector temperature sensor interface to be communicated with controller.

The utility model is compared with heat-exchanger rig with existing solar heating, and the utility model is to adopt the mode of parts collection dress that the every parts in the heat-exchanger rig are installed concentratedly on rack, heat-exchanger rig integrated level height, take up room little; Heat exchanger water inlet interface and heat exchanger water outlet interface in the utility model are to be communicated with solar thermal collector respectively, water storage box water outlet interface in the utility model and water storage box water inlet interface is to be communicated with water heater and running water pipe in the user family respectively, can realize that then the heat energy in the solar thermal collector passes through the power conversion of heat-exchanger rig to the heat supply of domestic heating system; The utility model heat-exchanger rig is collection dress all-in-one machine structure, and the user is easy to install and use, and heat-exchanger rig takes up room little; The utility model compact conformation, easy for installation, take up room little; The utility model preferably resolve existing solar heating with heat-exchanger rig existing take up room big, install time-consuming and the problem of difficulty be installed.

Description of drawings

Fig. 1 is the utility model structural front view (backboard does not reflect);

Fig. 2 is the utility model structure rearview;

Fig. 3 is that the utility model A is to view;

Wherein: 1-rack, 2-water storage box, 3-water output duct, 4-cooling-water temperature sensor, 5-electric heater, 6-anodic magnesium rod, 7-heat exchanger, 8--terminal box, 9-cooling-water temperature sensor interface, 10-external pump power interface, 11-heat collector temperature sensor interface, 12-electric power incoming line interface, the 13--base, 14--connects supporting, 15-heat exchanger water inlet interface, 16-heat exchanger water outlet interface, 17-supplementing water interface, 18-blowdown interface, 19-water storage box water inlet interface, 20--water storage box water outlet interface, 21-controller, 22-expansion drum, 23-connecting pipe, the 24--water circulating pump, 25-pressure safety valve, 26-Pressure gauge.

The specific embodiment:

Referring to Fig. 1: the integrated heat exchange heating of a kind of rectangular cabinet all-in-one, it is provided with water storage box 2, electric heater 5, anodic magnesium rod 6, heat exchanger 7, controller 21, expansion drum 22, connecting pipe 23, water circulating pump 24, pressure safety valve 25 and Pressure gauge 26(and sees Fig. 2, Fig. 3 for details); Particularly: described water storage box 2, electric heater 5, anodic magnesium rod 6, heat exchanger 7, controller 21, expansion drum 22, connecting pipe 23, water circulating pump 24, pressure safety valve 25 and Pressure gauge 26 are to adopt rack 1 to constitute to install; The below of rack 1 is provided with base 13, base 13 is provided with and connects supporting 14, is separately installed with cooling-water temperature sensor interface 9, external pump power interface 10, heat collector temperature sensor interface 11, electric power incoming line interface 12, heat exchanger water inlet interface 15, heat exchanger water outlet interface 16, supplementing water interface 17, blowdown interface 18, water storage box water inlet interface 19 and water storage box water outlet interface 20 on base 13 side plates; Water storage box 2 is to adopt connection supporting 14 to be installed in the top that is positioned at base 13 in the rack 1, and water output duct 3 and two cooling-water temperature sensors 4 are installed respectively in the water storage box 2, and the outside of water storage box 2 is equipped with terminal box 8; Heat exchanger 7 is mounted in the top of water storage box 2 base plates, electric heater 5 and anodic magnesium rod 6 are mounted in the top that is positioned at heat exchanger 7 in the water storage box 2, controller 21 is mounted on the panel of rack 1 top (seeing Fig. 2 for details), and expansion drum 22, water circulating pump 24, pressure safety valve 25 and Pressure gauge 26 are mounted in the base 13 of rack 1 (seeing Fig. 3 for details); Electric heater 5 in the described water storage box 2, anodic magnesium rod 6 and two temperature sensors 4 are to adopt terminal box 8 to be communicated with controller 21, and water circulating pump 24 is to adopt terminal box 8 to be communicated with controller 21; Described heat exchanger water inlet interface 15 and heat exchanger water outlet interface 16 are to adopt connecting pipe 23, water circulating pump 24, expansion drum 22, pressure safety valve 25 and Pressure gauge 26 to be communicated with 7 liang of end interfaces of heat exchanger respectively, water storage box water inlet interface 19 is to adopt connecting pipe 23 to be communicated with water storage box 2, and water storage box water outlet interface 20 is to adopt connecting pipe 23 and water output duct 3 to be communicated with water storage box 2.

The described rack 1 of present embodiment is rectangular cross-sectional configuration (seeing Fig. 3 for details), described rack 1 or circular cross-sectional configuration.

Described water storage box 2 interior two cooling-water temperature sensors 4 of present embodiment are to be to arrange installation up and down.

The described blowdown interface 18 of present embodiment is to adopt connecting pipe 23 to be communicated with water storage box 2.

The described supplementing water interface 17 of present embodiment is to adopt connecting pipe 23 and pass through expansion drum 22 to be communicated with heat exchanger 7.

Water pump on the described external water pipe of present embodiment is to adopt external pump power interface 10 to be communicated with controller 21.

Temperature sensor on the described external solar thermal collector of present embodiment is to adopt heat collector temperature sensor interface 11 to be communicated with controller 21.

Claims (5)

1. the integrated heat exchange heating of rectangular cabinet all-in-one, it is provided with water storage box, electric heater, anodic magnesium rod, heat exchanger, controller, expansion drum, connecting pipe, water circulating pump, pressure safety valve and Pressure gauge; It is characterized in that: described water storage box, electric heater, anodic magnesium rod, heat exchanger, controller, expansion drum, connecting pipe, water circulating pump, pressure safety valve and Pressure gauge are to adopt rack to constitute to install; The below of rack is provided with base, base is provided with and connects supporting, is separately installed with cooling-water temperature sensor interface, external pump power interface, heat collector temperature sensor interface, electric power incoming line interface, heat exchanger water inlet interface, heat exchanger water outlet interface, supplementing water interface, blowdown interface, water storage box water inlet interface and water storage box water outlet interface on the base side plate; Water storage box is to adopt to connect to support to be installed in the top that is positioned at base in the rack, and water output duct and two cooling-water temperature sensors are installed respectively in the water storage box, and the outside of water storage box is equipped with terminal box; Heat exchanger is mounted in the top of water storage box base plate, electric heater and anodic magnesium rod are mounted in the top that is positioned at heat exchanger in the water storage box, controller is mounted on the panel of rack top, and expansion drum, water circulating pump, pressure safety valve and Pressure gauge are mounted in the base of rack; Electric heater in the described water storage box, anodic magnesium rod and two temperature sensors are to adopt terminal box to be communicated with controller, and water circulating pump is to adopt terminal box to be communicated with controller; Described heat exchanger water inlet interface and heat exchanger water outlet interface are to adopt connecting pipe, water circulating pump, expansion drum, pressure safety valve and Pressure gauge to be communicated with heat exchanger two end interfaces respectively, water storage box water inlet interface is to adopt connecting pipe to be communicated with water storage box, and water storage box water outlet interface is to adopt connecting pipe and water output duct to be communicated with water storage box.

2. the integrated heat exchange heating of a kind of rectangular cabinet according to claim 1 all-in-one, it is characterized in that: described rack is rectangular cross-sectional configuration, described rack or circular cross-sectional configuration.

3. the integrated heat exchange heating of a kind of rectangular cabinet according to claim 1 all-in-one is characterized in that: two cooling-water temperature sensors are to be to arrange up and down and install in the described water storage box.

4. the integrated heat exchange heating of a kind of rectangular cabinet according to claim 1 all-in-one is characterized in that: described blowdown interface is to adopt connecting pipe to be communicated with water storage box.

5. the integrated heat exchange heating of a kind of rectangular cabinet according to claim 1 all-in-one is characterized in that: described supplementing water

Interface is to adopt connecting pipe and be communicated with heat exchanger by expansion drum.

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