CN1759669A - Attemperator of solar energy for water to breed seawater offspring - Google Patents

Abstract

The invention discloses a kind of attemperator of solar energy for water to breed seawater offspring, comprise heat collector, heat collector is connected with water inlet pipe, water inlet pipe one end is inserted in the pond, and the heat collector outlet pipe is connected with heat collection water tank, and heat collection water tank is connected with switch board by circuit, heat collection water tank is connected with hot water storage tank by the first closed pore rubber plastic pipe, hot water storage tank is connected with pump, and pump is connected with return pipe, and return pipe one end is inserted in the pond.The present invention heats seawater with solar energy, significantly energy savings; Can accurately control water temperature, set-up function is realized temperature automatically controlled as required; Whole device does not need to adopt metal parts, thereby has avoided heavy metal to separate out the influence of growing to seed in the back fully; Can realize the advantages such as production of continous-stable.

Description

Attemperator of solar energy for water to breed seawater offspring

Technical field

The present invention relates to breed seawater offspring equipment, is a kind of attemperator of solar energy for water to breed seawater offspring.

Background technology

Breed seawater offspring carries out in spring usually, and the cultivation of most of seawater biologies requires temperature between 15-25 ℃, and existing breed seawater offspring is provided with and adopts boiler that water body is heated, and heating raw is then used coal, oil or natural gas.Their deficiency is: power consumption is high, temperature controls that difficulty reaches accurately, owing to the temperature instability, often cause the fluctuation of production bigger, and then influence the cultivation of seed, and the heavy metal in the equipment easily separates out, and also has a strong impact on growing of seed etc.

Summary of the invention

The objective of the invention is, a kind of attemperator of solar energy for water to breed seawater offspring is provided, adopt solar energy that water body is heated, whole device does not have metal parts, and accurately control water temperature, thereby cut down the consumption of energy significantly, avoid heavy metal easily to separate out seed is produced the influence of growing, to realize steady production etc.

The present invention for achieving the above object, be achieved through the following technical solutions: attemperator of solar energy for water to breed seawater offspring, comprise heat collector, heat collector is connected with water inlet pipe, and water inlet pipe one end is inserted in the pond, the heat collector outlet pipe is connected with heat collection water tank, heat collection water tank is connected with switch board by circuit, and heat collection water tank is connected with hot water storage tank by the first closed pore rubber plastic pipe, and hot water storage tank is connected with pump, pump is connected with return pipe, and return pipe one end is inserted in the pond.Further scheme of the present invention is: heat collection water tank is connected with water inlet pipe by the second closed pore rubber plastic pipe.Switch board is connected with valve by circuit, and valve is installed on the inlet channel.The present invention further scheme is: the fluid infusion case is installed at the delivery port place of heat collector, and the fluid infusion case is connected with heat collection water tank.Three-temperature sensor is installed at the water inlet place of heat collector, and three-temperature sensor is connected with switch board by circuit.Second temperature sensor is installed at the delivery port place of heat collector, and second temperature sensor is connected with switch board by circuit.Circulating pump is installed on the water inlet pipe, and circulating pump is connected with switch board.

Good effect of the present invention is: with solar energy seawater is heated, significantly energy savings; Can accurately control water temperature, set-up function is realized temperature automatically controlled as required; Whole device does not need to adopt metal parts, thereby has avoided heavy metal to separate out the influence of growing to seed in the back fully; Can realize the production of continous-stable etc.

Description of drawings

Accompanying drawing 1 is a structural representation of the present invention.

Embodiment

Accompanying drawing 1 is the embodiment of the invention, but the invention is not restricted to this.

1 is heat collector among the figure, heat collector 1 adopts connection in series-parallel with the journey connected mode, mounted angle is 30 °, heat collector 1 with the modes such as structure that heat collection water tank 5 is connected is: heat collector 1 is connected with water inlet pipe 16, water inlet pipe 16 1 ends are inserted in the pond, heat collector 1 outlet pipe 4 is connected with heat collection water tank 5, heat collection water tank 5 is connected with switch board 10 by circuit, heat collection water tank 5 is connected with hot water storage tank 12 by the first closed pore rubber plastic pipe 7, hot water storage tank 12 is connected with pump 19, pump 19 is connected with return pipe 13, and return pipe 13 1 ends are inserted in the pond.Heat collection water tank 5 is connected with water inlet pipe 16 by the second closed pore rubber plastic pipe 3.Switch board 10 is connected with valve 20 by circuit 9, and valve 20 is installed on the inlet channel.Fluid infusion case 2 is installed at the delivery port place of heat collector 1, and fluid infusion case 2 is connected with heat collection water tank 5.The first temperature sensor T1 is installed in the heat collection water tank 5, and the first temperature sensor T1 is connected with switch board 10 by circuit, and three-temperature sensor T3 is installed at the water inlet place of heat collector 1, and three-temperature sensor T3 is connected with switch board 10 by circuit 18.The second temperature sensor T2 is installed at the delivery port place of heat collector 1, and the second temperature sensor T2 is connected with switch board 10 by circuit.Circulating pump 21 is installed on the water inlet pipe 16, and circulating pump 21 is connected with switch board 10.Heat collection water tank 5 is connected with inlet channel by the 3rd closed pore rubber plastic pipe 6, and when the low setting value of the temperature in the heat collection water tank 5, Open valve enters in the heat collector 1 water in the heat collection water tank 5.Heating tube 22 is connected with switch board 10 by circuit 8, and pump 19 is connected with switch board 10 by circuit 11.Water inlet pipe of the present invention is all inserted in the seed rearing millpond, and a plurality of valves are set on the inlet channel.After apparatus of the present invention started, cold water entered in heat collector 1 and the heat collection water tank 5, and heat collection water tank 5 is communicated with hot water storage tank 12, and hot water storage tank 12 is communicated with the pond.When temperature has difference between heat collection water tank 5 and the heat collector 1, that is: when heat collector 1 delivery port temperature reaches 10 ℃ greater than the temperature in the heat collection water tank 5, circulating pump 21 starts, water in the heat collector 1 is pumped in the heat collection water tank 5, when the difference of temperature is 2 ℃, circulating pump 21 quits work, and water circulation stops.When heat collector 1 inlet water temperature is lower than setting value, for example: 4 ℃, circulating pump 21 starts, and the water in the heat collection water tank 5 is pumped into water inlet pipe 16, and after heat collector 1 inlet water temperature reached setting value, circulating pump 21 quit work.When the solar irradiation deficiency needs auxiliary heating, can press to be arranged on and add hot key automatically on the switch board 10, automatically heating lamp is bright, check whether the water tank water temperature reaches setting value, check at first whether the water level in the heat collection water tank 5 surpasses 20%, otherwise, can start earlier and go up water, automatically stop to go up water when arriving 20% water level, auxiliary then heating starting stops heating when heat collection water tank 5 water temperatures reach design temperature, carry out in heating process according to water on the constant temperature of heat collection water tank 5 water temperatures: when sump water temperature during more than or equal to setting value, and when heat collection water tank 5 water levels do not reach the water level settings value, water in the execution; When heat collection water tank 5 water temperatures more than or equal to when setting value, or heat collection water tank 5 water levels stop to go up water when reaching the water level settings value.When auxiliary heating is heated to setting value with heat collection water tank 5 water temperatures, system will forward to and keep the water-temperature water-level state.This device also is provided with system alarm.When heat collector 1 delivery port temperature be higher than when setting value, when heat collector 1 inflow temperature is lower than setting value and heat collection water tank 5 water levels when being lower than 20%, buzzer work is reported to the police, charactron shows simultaneously.The switch board 10 of this device is also installed hand control switch, makes manually and automatically easily to switch, and control is convenient.K1 is the electrical heating switch among the figure, and K2 is a taps on the constant temperature, and K3 is antifreeze emptying switch, and K4 is the backwater circulation switch.2 is fluid infusion casees among the figure, the 22nd, and heating element heater, the 17th, expansion tank, the 15th, expansion tank, the circuit control principle that the present invention adopts is a known technology.

Claims (7)

1, attemperator of solar energy for water to breed seawater offspring, comprise heat collector (1), heat collector (1) is connected with water inlet pipe (16), it is characterized in that: water inlet pipe (16) one ends are inserted in the pond, heat collector (1) outlet pipe (4) is connected with heat collection water tank (5), heat collection water tank (5) is connected with switch board (10) by circuit, heat collection water tank (5) is connected with hot water storage tank (12) by the first closed pore rubber plastic pipe (7), hot water storage tank (12) is connected with pump (19), pump (19) is connected with return pipe (13), and return pipe (13) one ends are inserted in the pond.

2, attemperator of solar energy for water to breed seawater offspring according to claim 1 is characterized in that: heat collection water tank (5) is connected with water inlet pipe (16) by the second closed pore rubber plastic pipe (3).

3, attemperator of solar energy for water to breed seawater offspring according to claim 1 is characterized in that: switch board (10) is connected with valve (20) by circuit (9), and valve (20) is installed on the inlet channel.

4, attemperator of solar energy for water to breed seawater offspring according to claim 1 and 2 is characterized in that: fluid infusion case (2) is installed at the delivery port place of heat collector 1, and fluid infusion case (2) is connected with heat collection water tank (5).

5, according to claim 1 or 4 described attemperator of solar energy for water to breed seawater offspring, it is characterized in that: three-temperature sensor (T3) is installed at the water inlet place of heat collector (1), and (10 are connected three-temperature sensor (T3) with switch board by circuit (18).

6, attemperator of solar energy for water to breed seawater offspring according to claim 5 is characterized in that: second temperature sensor (T2) is installed at the delivery port place of heat collector (1), and second temperature sensor (T2) is connected with switch board (10) by circuit.

7, attemperator of solar energy for water to breed seawater offspring according to claim 2 is characterized in that: water inlet pipe (16) is gone up circulating pump (21) is installed, and circulating pump (21) is connected with switch board (10).