CN110375286A - Full immersion electrode steam boiler with circulator - Google Patents

Abstract

This application discloses the full immersion electrode steam boilers with circulator, including shell, partition and heating device, the partition is set in shell, the lower half chamber and upper half chamber that the shell has been separated into independence and communicated by partition, it is intracavitary that the heating device is set to upper half, water supplement port is provided on told lower half chamber, the upper half chamber is provided with first outlet, it further include circulation water inlet, circulating outlet and cycle power device, the circulation water inlet is set on lower half chamber, the circulating outlet is set on upper half chamber, the cycle power device connects with circulation water inlet and circulating outlet respectively, the cycle power device is used to the intracavitary water of upper half being delivered to lower half intracavitary.

Description

Full immersion electrode steam boiler with circulator

Technical field

The present invention relates to electric boiler equipment field more particularly to a kind of full immersion electrode steam coppers with circulator Furnace.

Background technique

Patent CN2018201319785 provides a kind of heated by electrodes boiler, and this heated by electrodes boiler passes through partition Shell is divided into two parts by compartmentation, and shell is divided into after two parts to the problem that results in, i.e. partition is by the sky in shell Between be divided into up and down two cavities, and the water temperature in upper cavity be higher than lower cavity in water temperature, due to upper and lower two cavities it Between water temperature it is different, leading to shell, there are the temperature difference for two parts up and down, and during the work time, the temperature between upper and lower two cavities Difference can be increasing, and there are the biggish temperature difference in shell, first can reduce the service life of shell, thing of second easily causing danger Therefore.

Summary of the invention

The present invention is in view of the above-mentioned problems, propose a kind of full immersion electrode steam boiler with circulator.

The technical solution adopted by the present invention is as follows:

A kind of full immersion electrode steam boiler with circulator, including shell, partition and heating device, the partition It is set in shell, the lower half chamber and upper half chamber that the shell has been separated into independence and communicated by partition, the heating device are set It is intracavitary to be placed in upper half, water supplement port is provided on told lower half chamber, the upper half chamber is provided with first outlet, further includes circulation water inlet Mouth, circulating outlet and cycle power device, the circulation water inlet are set on lower half chamber, and the circulating outlet is set to On upper half chamber, the cycle power device connects with circulation water inlet and circulating outlet respectively, and the cycle power device is used It is intracavitary in the intracavitary water of upper half is delivered to lower half.

Present apparatus working principle is as follows, and cold water enters shell from water supplement port first, the heating device in shell can to water into Row heating.Partition is removed to the temperature difference that can also reduce water in shell in principle, but water just can not be to phase electrode after removing partition And null electrode plays percussion, and the temperature of phase electrode and null electrode is excessively high in order to prevent, needs water flow continually Ground shock waves both take away the heat generated, and the effect of partition is that the water for keeping lower half intracavitary rushes at phase electrode and null electrode, The temperature of phase electrode and null electrode is reduced by the percussion of water flow, so in order to form current scour phase electrode With null electrode, partition cannot be removed.

The present apparatus passes through the effect of circulation water inlet, circulating outlet and cycle power device, so that being located at upper half chamber Interior high-temperature water enters that lower half is intracavitary, improves the intracavitary water temperature of lower half, so that there is no the temperature difference (or by two for the water in shell The very little that the temperature difference of person reduces)；Simultaneously because the effect of cycle power device, the water convection action between lower half chamber and upper half chamber To reinforce, such water flow washes away that dynamics is stronger to phase electrode and null electrode, and the heat dissipation effect of phase electrode and null electrode is more preferable, Simultaneously because the intracavitary water of lower half and the intracavitary water of upper half realize circulation, ensure that lower half chamber and upper half it is intracavitary be not in electricity Solve matter precipitating.

Specific first outlet can be the outlet that steam leaves shell, be also possible to the outlet that high-temperature water leaves shell.The The use demand of the particular use view electric boiler of one outlet is fixed.

Optionally, the cycle power device be pump, it is described pump by pipeline respectively with circulation water inlet and cyclic water outlet Mouth connects.

Optionally, through-hole is provided on the partition, the lower half chamber is connected with upper half chamber by the through-hole.

The intracavitary water of lower half forms water flow by through-hole on partition and rushes at that upper half is intracavitary, the percussion of this burst of water flow can be with Souring is played to phase electrode and null electrode, reduces the temperature of phase electrode and null electrode.

Optionally, the water supplement port is set to the shell bottom of shell, and the first outlet is set at the shell top of shell, institute Circulating outlet is stated to be set between first outlet and partition.

Optionally, the heating device includes phase electrode, null electrode, isolation shield and lifting structure, the phase electrode and Null electrode is fixedly installed on the shell wall of shell, and the electrode tip of phase electrode is located in null electrode, the lifting structure It is installed in shell, the isolation shield is installed on lifting structure, and the isolation shield is set on the electrode tip of phase electrode, institute Isolation shield is stated for changing the electric current between phase electrode and null electrode.

The mobile electric current changed between phase electrode and null electrode of isolation shield belongs to the prior art, concrete principle referring to Described in CN2018201319785.

Optionally, the null electrode is tubular null electrode, and the isolation shield is that shield, the null electrode is isolated in tubular It is fixed on the shell wall of shell by fixed link, the electrode tip is located in the null electrode, and the isolation shield is slidingly connected On electrode tip, and shield is isolated between electrode tip and null electrode.

Because present commercial power is three-phase electricity, phase electrode is arranged three in this programme, and null electrode is also provided with Three, three null electrodes are fixed on the shell wall of shell each by conductive fixed link, and shell is that have conductive material Made of (such as steel or iron).

Optionally, the lifting structure includes lead screw, electrode and connecting plate, and the connecting plate and lead screw are rotatably assorted one It rises, the lead screw is rotatably installed on shell, and the motor is mounted on outside shell, and the motor is for driving lead screw to rotate.

Lead screw will not change position of the lead screw in shell in the course of rotation, but be rotatably assorted with lead screw Connecting plate together can be moved upwards or be moved downward in shell, and the movement of connecting plate will drive isolation shield movement, and shield is isolated Movement can change the size of current between phase electrode and null electrode.

It optionally, further include liquidometer, the liquidometer is set on shell, and the liquidometer is for monitoring in shell Water level.

Liquidometer is used to monitor the water level in shell.

The beneficial effects of the present invention are: 1, can effectively control the temperature difference in shell, guarantee that in shell be not in more next The bigger temperature difference；2, to form convection current between the lower half chamber in shell and upper half chamber, by the effect of convection current so that shell The phenomenon that being not in electrolyte precipitating；3, increase the souring to phase electrode and null electrode, improve phase electrode and The heat dissipation effect of null electrode.

Detailed description of the invention:

Fig. 1 is the full immersion electrode steam boiler structure schematic diagram with circulator.

Each appended drawing reference in figure are as follows: 1, shell, 101, circulating outlet, 102, circulation water inlet, 103, water supplement port, 104, First outlet, 2, phase electrode, 201, electrode tip, 3, fixed link, 4, isolation shield, 5, null electrode, 6, partition, 601, through-hole, 7, Lower half chamber, 8, liquidometer, 9, connecting plate, 10, lead screw, 11, upper half chamber.

Specific embodiment:

Below with reference to each attached drawing, the present invention will be described in detail.

As shown in Fig. 1, a kind of full immersion electrode steam boiler with circulator, including shell 1, partition 6 and add Thermal, partition 6 are set in shell 1, the lower half chamber 7 and upper half chamber 11 that shell 1 has been separated into independence and communicated by partition 6, Heating device is set in upper half chamber 11, and water supplement port 103 is provided on told lower half chamber 7, and upper half chamber 11 is provided with first outlet 104, which is characterized in that further include circulation water inlet 102, circulating outlet 101 and cycle power device, circulation water inlet 102 Be set on lower half chamber 7, circulating outlet 101 is set on upper half chamber 11, cycle power device respectively with circulation water inlet 102 And circulating outlet 101 connects, cycle power device is for the water in upper half chamber 11 to be delivered in lower half chamber 7.

Present apparatus working principle is as follows, and cold water enters shell 1 from water supplement port 103 first, and the heating device in shell 1 can be right Water is heated.Partition 6 is removed to the temperature difference that can also reduce water in shell 1 in principle, but water just can not be right after removing partition 6 Phase electrode 2 and null electrode 5 play percussion, and the temperature of phase electrode 2 and null electrode 5 is excessively high in order to prevent, needs water Continually Ground shock waves both take away the heat generated to stream, and the effect of partition 6 is that the water in lower half chamber 7 is made to rush at phase electrode 2 with null electrode 5, the temperature of phase electrode 2 and null electrode 5 is reduced by the percussion of water flow, so in order to shape At current scour phase electrode 2 and null electrode 5, partition 6 cannot be removed.

The present apparatus passes through the effect of circulation water inlet 102, circulating outlet 101 and cycle power device, so that being located at High-temperature water in upper half chamber 11 enters in lower half chamber 7, improves the water temperature in lower half chamber 7, so that there is no temperature for the water in shell 1 Difference (or the very little for reducing the temperature difference of the two)；Simultaneously because the effect of cycle power device, lower half chamber 7 and upper half chamber 11 it Between water convection action reinforce, wash away dynamics stronger, phase electrode 2 and zero-bit electricity of such water flow to phase electrode 2 and null electrode 5 The heat dissipation effect of pole 5 is more preferable, simultaneously because the water in lower half chamber 7 and the water in upper half chamber 11 realize circulation, ensure that lower half It is not in electrolyte precipitating in chamber 7 and upper half chamber 11.

Specific first outlet 104 can be the outlet that steam leaves shell 1, is also possible to high-temperature water and leaves going out for shell 1 Mouthful.The use demand of the particular use view electric boiler of first outlet 104 is fixed.

As shown in Fig. 1, cycle power device be pump, pump by pipeline respectively with circulation water inlet 102 and cyclic water outlet Mouth 101 connects.

It is not drawn into pump in this specific attached drawing, because pump two nozzles of connection belong to common knowledge, is no longer drawn in this case Out.

As shown in Fig. 1, through-hole 601 is provided on partition 6, lower half chamber 7 is connected with upper half chamber 11 by through-hole 601.

Water in lower half chamber 7 forms water flow by through-hole 601 on partition 6 and rushes in upper half chamber 11, the impact of this burst of water flow Effect can play souring to phase electrode 2 and null electrode 5, reduce the temperature of phase electrode 2 and null electrode 5.

As shown in Fig. 1, water supplement port 103 is set to the shell bottom of shell 1, and first outlet 104 is set to the shell top of shell 1 Place, circulating outlet 101 are set between first outlet 104 and partition 6.

As shown in Fig. 1, heating device includes phase electrode 2, null electrode 5, isolation shield 4 and lifting structure, phase electrode 2 and Null electrode 5 is fixedly installed on the shell wall of shell 1, and the electrode tip 201 of phase electrode 2 is located in null electrode 5, lifting knot Structure is installed in shell 1, and isolation shield 4 is installed on lifting structure, and shield 4 is isolated and is set on the electrode tip 201 of phase electrode 2, Shield 4 is isolated for changing the electric current between phase electrode 2 and null electrode 5.

The mobile electric current changed between phase electrode 2 and null electrode 5 of isolation shield 4 belongs to the prior art, concrete principle referring to In CN2018201319785.

As shown in Fig. 1, null electrode 5 is tubular null electrode 5, and isolation shield 4 is that shield 4 is isolated in tubular, and null electrode 5 is logical It crosses fixed link 3 to be fixed on the shell wall of shell 1, electrode tip 201 is located in null electrode 5, and isolation shield 4 is movably set in electrode tip On 201, and shield 4 is isolated between electrode tip 201 and null electrode 5.

Because present commercial power is three-phase electricity, phase electrode 2 is arranged three in this programme, and null electrode 5 is also set Three are set, three null electrodes 5 are fixed on the shell wall of shell 1 each by conductive fixed link 3, and shell 1 is that have conduction Material (such as steel or iron) made of.

As shown in Fig. 1, lifting structure includes lead screw 10, electrode and connecting plate 9, and connecting plate 9 is rotatably assorted with lead screw 10 Together, lead screw 10 is rotatably installed on shell 1, and motor is mounted on outside shell 1, and motor is for driving lead screw 10 to rotate.

Lead screw 10 will not change position of the lead screw 10 in shell 1 in the course of rotation, but with 10 turns of lead screw The dynamic connecting plate 9 being combined together can be moved upwards or be moved downward in shell 1, and the movement of connecting plate 9 will drive isolation shield 4 The movement of movement, isolation shield 4 can change the size of current between phase electrode 2 and null electrode 5.

It as shown in Fig. 1, further include liquidometer 8, liquidometer 8 is set on shell 1, and liquidometer 8 is for monitoring in shell 1 Water level.

Liquidometer 8 is used to monitor the water level in shell 1.

The above description is only a preferred embodiment of the present invention, not thereby limits scope of patent protection of the invention, all It is directly or indirectly to be used in other relevant technologies with equivalent structure transformation made by description of the invention and accompanying drawing content Field similarly includes within the scope of the present invention.

Claims (8)

1. a kind of full immersion electrode steam boiler with circulator, including shell, partition and heating device, the partition are set It is placed in shell, the lower half chamber and upper half chamber that the shell has been separated into independence and communicated by partition, the heating device setting It is intracavitary in upper half, water supplement port is provided on told lower half chamber, the upper half chamber is provided with first outlet, which is characterized in that also wraps Circulation water inlet, circulating outlet and cycle power device are included, the circulation water inlet is set on lower half chamber, described to recycle The mouth of a river is set on upper half chamber, and the cycle power device connects with circulation water inlet and circulating outlet respectively, the circulation Power device is used to the intracavitary water of upper half being delivered to lower half intracavitary.

2. the full immersion electrode steam boiler with circulator as described in claim 1, which is characterized in that the circulation is dynamic Power device is pump, and the pump is connected with circulation water inlet and circulating outlet respectively by pipeline.

3. the full immersion electrode steam boiler with circulator as described in claim 1, which is characterized in that on the partition It is provided with through-hole, the lower half chamber is connected with upper half chamber by the through-hole.

4. the full immersion electrode steam boiler with circulator as described in claim 1, which is characterized in that the water supplement port It is set to the shell bottom of shell, the first outlet is set at the shell top of shell, and the circulating outlet is set to first and goes out Between mouth and partition.

5. the full immersion electrode steam boiler with circulator as described in claim 1, which is characterized in that the heating dress It sets and is fixedly installed on shell including phase electrode, null electrode, isolation shield and lifting structure, the phase electrode and null electrode On shell wall, and the electrode tip of phase electrode is located in null electrode, and the lifting structure is installed in shell, the isolation shield installation In on lifting structure, and the isolation shield is set on the electrode tip of phase electrode, and the isolation shield is for changing phase electrode and zero Electric current between the electrode of position.

6. the full immersion electrode steam boiler with circulator as claimed in claim 5, which is characterized in that the zero-bit electricity Extremely tubular null electrode, the isolation shield are that shield is isolated in tubular, and the null electrode is fixed on the shell of shell by fixed link On wall, the electrode tip is located in the null electrode, and the isolation shield is movably set on electrode tip, and shield is isolated and is located at electricity Between cartridge and null electrode.

7. the full immersion electrode steam boiler with circulator as claimed in claim 6, which is characterized in that the lifting knot Structure includes lead screw, electrode and connecting plate, and the connecting plate and lead screw are rotatably assorted together, and the lead screw is rotatably installed in shell On, the motor is mounted on outside shell, and the motor is for driving lead screw to rotate.

8. the full immersion electrode steam boiler with circulator as described in claim 1, which is characterized in that further include liquid level Meter, the liquidometer are set on shell, and the liquidometer is used to monitor the water level in shell.