CN201392025Y

CN201392025Y - Energy-concentrated efficient solar water heater

Info

Publication number: CN201392025Y
Application number: CN 200920142502
Authority: CN
Inventors: 王仪瑞
Original assignee: Individual
Current assignee: Individual
Priority date: 2009-04-22
Filing date: 2009-04-22
Publication date: 2010-01-27
Anticipated expiration: 2019-04-22

Abstract

An energy-concentrated efficient solar water heater relates to a solar water heater which consists of a temperature/liquid level sensing probe (1), a hot water tank outer cylinder (2), a thermal insulation layer (3), a hot water tank inner container (4), an upper part communicating pipe (5), a bottom part communicating pipe (6), an overflow pipe (7), a solar collecting pipe (8), a blow-off pipe (9), an energy-concentrated heat conducting tank (10), an electrical heater (11), a water inlet/outlet pipe (12), a PVC threading pipe (13) and an electrically heating junction box (14). The solar water heater can effectively guide part of heat energy in a cold water chamber of the solar collector into a hot water chamber, thereby solving the problem that the cold water chamber is standing idle and improving the initial temperature of the water in the hot water chamber, thereby greatly reducing heat-up time, improving work efficiency, lowering energy consumption as well as facilitating the use for users.

Description

A kind of cumulative efficient solar water heater

Technical field:

The utility model relates to a kind of solar water heater, especially a kind of cumulative efficient solar water heater.

Background technology:

Nowadays, solar water heater is popularized, the regular solar water heater is sombrely, winter is during weather, because of sunshine not strongly or all the time according to, need electrical auxiliary heater that the water tank inner storing water is forced heating, many users are sombrely, winter is during weather, actual per day bathing number of times decreases, be that daily hot water amount reduces, for regular solar, mean the hot water waste, the energy consumption waste, in the case, develop a kind of double-cabinet solar water heater in the industry, be different from the storage tank inner bag that the regular solar part is the type water heater and be divided into two independently heating systems: function is identical with the regular solar water heater during hot day, then is divided into cold water cabin and hot water cabin during sombre weather, when using, the user only need utilize the hot water bathing in hot water cabin, the phenomenon that does not have hot water waste and energy consumption waste, significantly reduce heat time heating time simultaneously (because of the water yield only for original half), efficient increases greatly.Though double-cabinet solar water heater effect in actual use is better, have a problem equally: during sombre weather, the double-cabinet solar water heater only has the hot water cabin in work, and real work efficient in cold water cabin be " zero ", wastes energy consumption.

The utility model content:

The purpose of this utility model provides a kind of cumulative efficient solar water heater, it can effectively be directed into the heat energy in the solar thermal collector of a cold water cabin part in the hot water cabin, not only solved the idle problem in cold water cabin, and improved the initial temperature of water in the hot water cabin, to reduce greatly heat time heating time, improved operating efficiency, energy consumption reduction, more convenient user uses.

In order to solve the existing problem of background technology, the utility model is by the following technical solutions: it is by temperature/liquid level inductive probe 1, boiler urceolus 2, heat-insulation layer 3, boiler inner bag 4, top communicating pipe 5, bottom communicating pipe 6, overflow pipe 7, solar energy heat collection pipe 8, blow-off pipe 9, cumulative thermal trough 10, electrical heating 11, inlet/outlet pipe 12, PVC penetration pipe 13 and electrical heating terminal box 14 are formed, be provided with heat-insulation layer 3 between boiler urceolus 2 and the boiler inner bag 4, one end of solar energy heat collection pipe 8 evenly is connected to boiler inner bag 4 inside, temperature/liquid level inductive probe 1 is arranged on boiler urceolus 2 left sides and is connected to boiler inner bag 4 inside, cumulative thermal trough 10 is arranged on boiler inner bag 4 centre positions, top communicating pipe 5 is arranged on the upper end of cumulative thermal trough 10, the bottom is arranged on the lower end of cumulative thermal trough 10 communicating pipe 6 and is connected to inside, constant temperature cabin, overflow pipe 7 is arranged on boiler urceolus 2 right sides and is connected to boiler inner bag 4 inside, blow-off pipe 9 is arranged on lower end, boiler urceolus 2 right side, electrical heating terminal box 14 is arranged on boiler urceolus 2 left sides, PVC penetration pipe 13 is arranged on heat-insulation layer 3 inside, electrical heating 11 is connected with electrical heating terminal box 14 by PVC penetration pipe 13, and inlet/outlet pipe 12 is arranged on boiler inner bag 4 right sides and is connected to the outside.

The utility model can effectively be directed into the heat energy in the solar thermal collector of a cold water cabin part in the hot water cabin, not only solved the idle problem in cold water cabin, and improved the initial temperature of water in the hot water cabin, to reduce greatly heat time heating time, improved operating efficiency, energy consumption reduction, more convenient user uses.

Description of drawings:

Fig. 1 is a structural representation of the present utility model, and Fig. 2 is that the A-A of Fig. 1 is to view.

The specific embodiment:

With reference to Fig. 1-2, this specific embodiment is by the following technical solutions: it is by temperature/liquid level inductive probe 1, boiler urceolus 2, heat-insulation layer 3, boiler inner bag 4, top communicating pipe 5, bottom communicating pipe 6, overflow pipe 7, solar energy heat collection pipe 8, blow-off pipe 9, cumulative thermal trough 10, electrical heating 11, inlet/outlet pipe 12, PVC penetration pipe 13 and electrical heating terminal box 14 are formed, be provided with heat-insulation layer 3 between boiler urceolus 2 and the boiler inner bag 4, one end of solar energy heat collection pipe 8 evenly is connected to boiler inner bag 4 inside, temperature/liquid level inductive probe 1 is arranged on boiler urceolus 2 left sides and is connected to boiler inner bag 4 inside, cumulative thermal trough 10 is arranged on boiler inner bag 4 centre positions, top communicating pipe 5 is arranged on the upper end of cumulative thermal trough 10, the bottom is arranged on the lower end of cumulative thermal trough 10 communicating pipe 6 and is connected to inside, constant temperature cabin, overflow pipe 7 is arranged on boiler urceolus 2 right sides and is connected to boiler inner bag 4 inside, blow-off pipe 9 is arranged on lower end, boiler urceolus 2 right side, electrical heating terminal box 14 is arranged on boiler urceolus 2 left sides, PVC penetration pipe 13 is arranged on heat-insulation layer 3 inside, electrical heating 11 is connected with electrical heating terminal box 14 by PVC penetration pipe 13, and inlet/outlet pipe 12 is arranged on boiler inner bag 4 right sides and is connected to the outside.

This specific embodiment can effectively be directed into the heat energy in the solar thermal collector of a cold water cabin part in the hot water cabin, not only solved the idle problem in cold water cabin, and improved the initial temperature of water in the hot water cabin, to reduce greatly heat time heating time, improved operating efficiency, energy consumption reduction, more convenient user uses.

Claims

1, a kind of cumulative efficient solar water heater, it is characterized in that it is by temperature/liquid level inductive probe (1), boiler urceolus (2), heat-insulation layer (3), boiler inner bag (4), top communicating pipe (5), bottom communicating pipe (6), overflow pipe (7), solar energy heat collection pipe (8), blow-off pipe (9), cumulative thermal trough (10), electrical heating (11), inlet/outlet pipe (12), PVC penetration pipe (13) and electrical heating terminal box (14) are formed, be provided with heat-insulation layer (3) between boiler urceolus (2) and the boiler inner bag (4), one end of solar energy heat collection pipe (8) evenly is connected to boiler inner bag (4) inside, temperature/liquid level inductive probe (1) is arranged on boiler urceolus (2) left side and is connected to boiler inner bag (4) inside, cumulative thermal trough (10) is arranged on boiler inner bag (4) centre position, top communicating pipe (5) is arranged on the upper end of cumulative thermal trough (10), bottom communicating pipe (6) is arranged on the lower end of cumulative thermal trough (10) and is connected to inside, constant temperature cabin, overflow pipe (7) is arranged on boiler urceolus (2) right side and is connected to boiler inner bag (4) inside, blow-off pipe (9) is arranged on boiler urceolus (2) lower end, right side, electrical heating terminal box (14) is arranged on boiler urceolus (2) left side, PVC penetration pipe (13) is arranged on heat-insulation layer (3) inside, electrical heating (11) is connected with electrical heating terminal box (14) by PVC penetration pipe (13), and inlet/outlet pipe (12) is arranged on boiler inner bag (4) right side and is connected to the outside.