CN111006192A - Through connection type steam generator - Google Patents

Abstract

The invention discloses a through steam generator, which comprises a water inlet assembly, a pipeline-shaped heating body assembly, a water outlet assembly and an atomization assembly which are sequentially communicated; the water inlet assembly is provided with a water inlet pump with a liquid inlet and a blower; the atomization component comprises an atomizer communicated with the water outlet component and an electric arc heating device communicated with the atomizer and capable of heating liquid into steam, and a steam outlet is formed in the electric arc heating device; the device also comprises a control device which is respectively and electrically connected with the water inlet pump, the air blower, the pipeline-shaped heating body assembly and the electric arc heating device. The invention adopts a front-back continuous heating mode, namely, the front end adopts a pipeline-shaped heating body component, water is heated to be close to 100 ℃, the middle part is atomized by an atomizer and then enters the rear end, then the water mist is heated into dry steam by an electric arc heating device, the heating energy is output in sections, parts needing preheating and temperature rising are reduced, the energy is absorbed by water in a centralized manner, and the purpose of outputting the superheated dry steam is realized.

Description

Through connection type steam generator

[ technical field ] A method for producing a semiconductor device

The invention relates to a steam generator, in particular to a through type steam generator.

[ background of the invention ]

The quick steam generator is an electric device which can supply water and discharge steam at the same time. Can be applied to steam mops, steam irons, steam cleaning machines and the like of steam ovens, and has wide application. The existing steam generator generally outputs steam mixed with water vapor. Under normal pressure, the coexistence state of steam and water drops or water is called critical state, commonly called wet steam, and the specific heat of the wet steam in the critical state is infinite and can only stay at 100 ℃; beyond the critical point, the vapor without water droplets is colloquially referred to as dry vapor; the dry steam exceeding 100 ℃ is superheated steam. However, it is generally difficult to output superheated steam due to the design defects of the conventional fast steam generator.

Accordingly, the present invention is based on the above disadvantages.

[ summary of the invention ]

The invention aims to provide a through steam generator which is simple in structure and easy to maintain.

In order to solve the technical problems, the invention adopts the following technical scheme: a through steam generator is characterized by comprising a water inlet assembly, a pipeline-shaped heating body assembly, a water outlet assembly and an atomization assembly which are sequentially communicated;

the water inlet assembly is provided with a water inlet pump with a liquid inlet and a blower which can discharge the liquid entering the pipeline-shaped heating body assembly from the water outlet assembly;

the atomization assembly comprises an atomizer communicated with the water outlet assembly and an electric arc heating device communicated with the atomizer and capable of heating liquid into steam, and a steam outlet is formed in the electric arc heating device;

the device also comprises a control device which is respectively and electrically connected with the water inlet pump, the air blower, the pipeline-shaped heating body assembly and the electric arc heating device.

The through connection type steam generator is characterized in that a first one-way valve is arranged between the water inlet pump and the water inlet assembly; and a second one-way valve is arranged between the air outlet of the air blower and the water inlet assembly.

The through steam generator is characterized in that the water inlet component is provided with a water inlet temperature control switch, and the water outlet component is provided with a water outlet temperature control switch; the water inlet temperature control switch and the water outlet temperature control switch are respectively electrically connected with the control device.

The through connection type steam generator is characterized in that the pipeline-shaped heating body assembly comprises a sealing tube and a heating body arranged in the sealing tube, a liquid flow channel for liquid to flow is formed between the heating body and the sealing tube, two ends of the sealing tube are respectively communicated with the water inlet assembly and the water outlet assembly, one end of the heating body is electrically connected with the water inlet temperature control switch, and the other end of the heating body is electrically connected with the water outlet temperature control switch.

The through connection type steam generator is characterized in that the pipeline-shaped heating body assembly comprises a sealing pipe which can be used for liquid to circulate in the sealing pipe, a heating body which can heat the liquid in the sealing pipe is arranged on the outer side of the sealing pipe, the heating body is tightly attached to the sealing pipe, two ends of the sealing pipe are communicated with the water inlet assembly and the water outlet assembly, one end of the heating body is electrically connected with the water inlet temperature control switch, and the other end of the heating body is electrically connected with the water outlet temperature control switch.

The tandem steam generator is characterized in that the atomizer is provided with a water inlet and a spray nozzle, and the water inlet is communicated with the water outlet assembly; the electric arc heating device comprises a shell with a water mist containing chamber, the water mist containing chamber is communicated with a mist spraying port, two arc striking electrodes capable of ionizing water mist in the water mist containing chamber are connected to the shell, and a steam outlet is communicated with the water mist containing chamber.

The through steam generator is characterized in that the shell comprises an upper shell and a lower shell, the steam outlet is arranged on the upper shell, the arcing electrode is hermetically arranged on the lower shell, and the atomizer is hermetically connected with the lower shell; the upper shell is an electric conductor and is connected with a ground wire.

The through connection type steam generator is characterized in that the arcing electrode comprises a conductive core and an insulator arranged on the outer side of the conductive core, a mounting bracket is fixed on the outer side of the insulator and is in threaded connection with the lower shell, and one end, located in the water mist containing chamber, of the conductive core is subjected to anti-corrosion treatment to form an electrode; the conductive core is electrically connected with the control device.

Compared with the prior art, the through type steam generator provided by the invention achieves the following effects:

the invention adopts a front-back continuous heating mode, namely, the front end adopts a pipeline-shaped heating body component, water is heated to be close to 100 ℃, the middle part is atomized by an atomizer and then enters the rear end, then the water mist is heated into dry steam by an electric arc heating device, the heating energy is output in sections, parts needing preheating and temperature rising are reduced, the energy is absorbed by water in a centralized manner, and the purpose of outputting the superheated dry steam is realized.

[ description of the drawings ]

The following detailed description of embodiments of the invention is provided in conjunction with the appended drawings, in which:

FIG. 1 is a structural view of the present invention;

FIG. 2 is an exploded view of the present invention;

FIG. 3 is a block diagram of an arc heating apparatus of the present invention;

FIG. 4 is an exploded view of the arc heating apparatus of the present invention;

fig. 5 is a sectional view of an arc heating apparatus according to the present invention.

[ detailed description ] embodiments

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example one

As shown in fig. 1 to 5, a through steam generator includes a water inlet assembly 1, a pipeline-shaped heating body assembly 2, a water outlet assembly 3, and an atomization assembly 4, which are sequentially communicated;

the water inlet assembly 1 is provided with a water inlet pump 6 with a liquid inlet and a blower 7 which can discharge the liquid entering the pipeline-shaped heating body assembly 2 from the water outlet assembly 3;

the atomization component 4 comprises an atomizer 41 communicated with the water outlet component 3 and an electric arc heating device 42 communicated with the atomizer 41 and capable of heating liquid into steam, and a steam outlet 422 is arranged on the electric arc heating device 42;

the device is characterized by further comprising a control device 5, wherein the control device 5 is electrically connected with the water inlet pump 6, the air blower 7, the pipeline-shaped heating body assembly 2 and the electric arc heating device 42 respectively. The invention adopts a front-back continuous heating mode, namely, the front end adopts a pipeline-shaped heating body component, water is heated to be close to 100 ℃, the middle part is atomized by an atomizer and then enters the rear end, then the water mist is heated into dry steam by an electric arc heating device, the heating energy is output in sections, parts needing preheating and temperature rising are reduced, the energy is absorbed by water in a centralized manner, and the purpose of outputting the superheated dry steam is realized.

As shown in fig. 1 to 5, in the present embodiment, a first check valve is disposed between the water inlet pump 6 and the water inlet assembly 1; avoid liquid backward flow to the intake pump when the air-blower starts, the air outlet of air-blower 7 and intake assembly 1 between be provided with the second check valve, liquid entering air-blower when avoiding intaking the water pump.

As shown in fig. 1 to 5, in this embodiment, a water inlet temperature control switch 11 is disposed on the water inlet module 1, and a water outlet temperature control switch 31 is disposed on the water outlet module 3; the water inlet temperature control switch 11 and the water outlet temperature control switch 31 are respectively electrically connected with the control device 5. The control temperature of the water inlet temperature control switch is below 75 ℃, and the control temperature of the water outlet temperature control switch is above 100 ℃, so that the danger caused by water shortage and dry burning can be avoided.

As shown in fig. 1 to 5, in the present embodiment, the heating body assembly 2 includes a sealing tube 21 and a heating body 22 disposed in the sealing tube 21, a liquid flow channel 200 for liquid to flow is formed between the heating body 22 and the sealing tube 21, and two ends of the sealing tube 21 are respectively communicated with the water inlet assembly 1 and the water outlet assembly 3; one end of the heating body 22 is electrically connected with the water inlet temperature control switch 11, and the other end of the heating body 22 is electrically connected with the water outlet temperature control switch 31; and a built-in fluid heater is adopted to improve heat energy exchange.

As shown in fig. 1 to 5, in the present embodiment, the atomizer 41 has a water inlet 411 and a spray outlet 412, and the water inlet 411 is communicated with the water outlet assembly 4; the electric arc heating device 42 comprises a shell 421 with a water mist accommodating chamber 401, the water mist accommodating chamber 401 is communicated with a mist spraying port 412, two arc striking electrodes 43 capable of ionizing the water mist in the water mist accommodating chamber 401 are connected to the shell 421, and the steam outlet 422 is communicated with the water mist accommodating chamber 401. The electric arc heating mode is adopted to generate steam, impurities are directly combusted and gasified, and no scale is left.

As shown in fig. 1 to 5, in the present embodiment, the housing 421 includes an upper housing 4211 and a lower housing 4212, the steam outlet 4232 is disposed on the upper housing 4211, the arc starting electrode 43 is sealingly disposed on the lower housing 4212, and the atomizer 41 is sealingly connected to the lower housing 4212. Go up the casing and can dismantle with the lower casing and be connected, make things convenient for inside the cleaning device, change impaired electrode, last casing 4211 be the electric conductor, go up casing 4211 and ground connection.

As shown in fig. 1 to 5, in the present embodiment, the arc starting electrode 43 includes a conductive core 431 and an insulator 432 disposed outside the conductive core 431, a mounting bracket 433 is fixed outside the insulator 432, the mounting bracket 433 is screwed with the lower housing 4212, and an electrode 434 is formed after an anti-corrosion treatment is performed on one end of the conductive core 431 located in the water mist accommodating chamber 401; the conductive core 431 is electrically connected with the control device 5.

Example two

As shown in fig. 1 to 5, the present application further provides a through-connection type steam generator, which comprises a water inlet assembly 1, a pipeline-shaped heating body assembly 2, a water outlet assembly 3, and an atomization assembly 4, which are sequentially communicated;

the water inlet assembly 1 is provided with a water inlet pump 6 with a liquid inlet and a blower 7 which can discharge the liquid entering the pipeline-shaped heating body assembly 2 from the water outlet assembly 3;

the atomization component 4 comprises an atomizer 41 communicated with the water outlet component 3 and an electric arc heating device 42 communicated with the atomizer 41 and capable of heating liquid into steam, and a steam outlet 422 is arranged on the electric arc heating device 42;

the device is characterized by further comprising a control device 5, wherein the control device 5 is electrically connected with the water inlet pump 6, the air blower 7, the pipeline-shaped heating body assembly 2 and the electric arc heating device 42 respectively. The invention adopts a front-back continuous heating mode, namely, the front end adopts a pipeline-shaped heating body component, water is heated to be close to 100 ℃, the middle part is atomized by an atomizer and then enters the rear end, then the water mist is heated into dry steam by an electric arc heating device, the heating energy is output in sections, parts needing preheating and temperature rising are reduced, the energy is absorbed by water in a centralized manner, and the purpose of outputting the superheated dry steam is realized.

As shown in fig. 1 to 5, in the present embodiment, a first check valve is disposed between the water inlet pump 6 and the water inlet assembly 1; avoid liquid backward flow to the intake pump when the air-blower starts, the air outlet of air-blower 7 and intake assembly 1 between be provided with the second check valve, liquid entering air-blower when avoiding intaking the water pump.

As shown in fig. 1 to 5, in this embodiment, a water inlet temperature control switch 11 is disposed on the water inlet module 1, and a water outlet temperature control switch 31 is disposed on the water outlet module 3; the water inlet temperature control switch 11 and the water outlet temperature control switch 31 are respectively electrically connected with the control device 5. The control temperature of the water inlet temperature control switch is below 75 ℃, and the control temperature of the water outlet temperature control switch is above 100 ℃, so that the danger caused by water shortage and dry burning can be avoided.

The pipeline-shaped heating body assembly 2 comprises a sealing tube for liquid to circulate in, a heating body capable of heating the liquid in the sealing tube is arranged on the outer side of the sealing tube, the heating body is tightly attached to the sealing tube, two ends of the sealing tube are communicated with the water inlet assembly 1 and the water outlet assembly 3, one end of the heating body is electrically connected with the water inlet temperature control switch, and the other end of the heating body is electrically connected with the water outlet temperature control switch; an external heating device is adopted to heat the liquid, and the heating body and the sealing tube can form close coupling of heat conduction.

As shown in fig. 1 to 5, in the present embodiment, the atomizer 41 has a water inlet 411 and a spray outlet 412, and the water inlet 411 is communicated with the water outlet assembly 4; the electric arc heating device 42 comprises a shell 421 with a water mist accommodating chamber 401, the water mist accommodating chamber 401 is communicated with a mist spraying port 412, two arc striking electrodes 43 capable of ionizing the water mist in the water mist accommodating chamber 401 are connected to the shell 421, and the steam outlet 422 is communicated with the water mist accommodating chamber 401. The electric arc heating mode is adopted to generate steam, impurities are directly combusted and gasified, and no scale is left.

As shown in fig. 1 to 5, in the present embodiment, the housing 421 includes an upper housing 4211 and a lower housing 4212, the steam outlet 4232 is disposed on the upper housing 4211, the arc starting electrode 43 is sealingly disposed on the lower housing 4212, and the atomizer 41 is sealingly connected to the lower housing 4212. Go up the casing and can dismantle with the lower casing and be connected, make things convenient for inside the cleaning device, change impaired electrode, last casing 4211 be the electric conductor, go up casing 4211 and ground connection.

As shown in fig. 1 to 5, in the present embodiment, the arc starting electrode 43 includes a conductive core 431 and an insulator 432 disposed outside the conductive core 431, a mounting bracket 433 is fixed outside the insulator 432, the mounting bracket 433 is screwed with the lower housing 4212, and an electrode 434 is formed after an anti-corrosion treatment is performed on one end of the conductive core 431 located in the water mist accommodating chamber 401; the conductive core 431 is electrically connected with the control device 5.

The above examples are only for illustrating the technical solutions of the present invention, and are not meant to limit the present invention, and the technical solutions that achieve the objects of the present invention by substantially the same means are within the protection scope of the present invention.

Claims (8)

1. A through steam generator is characterized by comprising a water inlet component (1), a pipeline-shaped heating body component (2), a water outlet component (3) and an atomization component (4) which are sequentially communicated;

the water inlet assembly (1) is provided with a water inlet pump (6) with a liquid inlet and a blower (7) which can discharge the liquid entering the pipeline-shaped heating body assembly (2) from the water outlet assembly (3);

the atomization assembly (4) comprises an atomizer (41) communicated with the water outlet assembly (3) and an electric arc heating device (42) communicated with the atomizer (41) and capable of heating liquid into steam, and a steam outlet (422) is formed in the electric arc heating device (42);

the heating device is characterized by further comprising a control device (5), wherein the control device (5) is electrically connected with the water inlet pump (6), the air blower (7), the pipeline-shaped heating body assembly (2) and the electric arc heating device (42) respectively.

2. A tandem steam generator according to claim 1, wherein a first one-way valve is arranged between the water inlet pump (6) and the water inlet assembly (1); and a second one-way valve is arranged between the air outlet of the blower (7) and the water inlet assembly (1).

3. A tandem steam generator according to claim 1, wherein the water inlet unit (1) is provided with a water inlet temperature controlled switch (11), and the water outlet unit (3) is provided with a water outlet temperature controlled switch (31); the water inlet temperature control switch (11) and the water outlet temperature control switch (31) are respectively electrically connected with the control device (5).

4. A steam generator according to claim 3, wherein the tubular heating member assembly (2) comprises a sealing tube (21) and a heating member (22) disposed inside the sealing tube (21), a liquid flow channel (200) for liquid to flow is formed between the heating member (22) and the sealing tube (21), two ends of the sealing tube (21) are respectively communicated with the water inlet assembly (1) and the water outlet assembly (3), one end of the heating member (22) is electrically connected to the water inlet temperature control switch (11), and the other end of the heating member (22) is electrically connected to the water outlet temperature control switch (31).

5. The water heater of claim 3, wherein the tubular heating member assembly (2) comprises a sealing tube for liquid to flow through, a heating member is disposed outside the sealing tube and is closely attached to the sealing tube, and both ends of the sealing tube are connected to the water inlet assembly (1) and the water outlet assembly (3), one end of the heating member is electrically connected to the temperature control switch of the water inlet, and the other end of the heating member is electrically connected to the temperature control switch of the water outlet.

6. A through steam generator according to claim 1, characterized in that the atomizer (41) has a water inlet (411) and a spray outlet (412), the water inlet (411) communicating with the water outlet assembly (4); the electric arc heating device (42) comprises a shell (421) with a water mist accommodating chamber (401), the water mist accommodating chamber (401) is communicated with a mist spraying port (412), two arcing electrodes (43) capable of ionizing water mist in the water mist accommodating chamber (401) are connected to the shell (421), and a steam outlet (422) is communicated with the water mist accommodating chamber (401).

7. A through-flow steam generator according to claim 5, wherein the housing (421) comprises an upper housing (4211) and a lower housing (4212), the steam outlet (4232) is disposed on the upper housing (4211), the arcing electrode (43) is sealingly disposed on the lower housing (4212), and the atomizer (41) is sealingly connected to the lower housing (4212); the upper shell (4211) is an electric conductor, and the upper shell (4211) is connected with the ground wire.

8. The through-flow steam generator according to claim 7, wherein the arc starting electrode (43) comprises a conductive core (431) and an insulator (432) arranged outside the conductive core (431), a mounting bracket (433) is fixed outside the insulator (432), the mounting bracket (433) is in threaded connection with the lower shell (4212), and the electrode (434) is formed after the conductive core (431) is subjected to anti-corrosion treatment at one end of the water mist accommodating chamber (401); the conductive core (431) is electrically connected with the control device (5).

Images