CN212178839U - Multi-cavity combined steam generator - Google Patents

Abstract

The utility model discloses a multi-cavity combined steam generator, which comprises a steam generator body, wherein a water inlet and a steam outlet are arranged on the steam generator body, an electric heating pipe is arranged in the steam generator body, the steam generator body consists of a front furnace body and a rear furnace body, a partition plate is arranged in the rear furnace body to form a first vaporization cavity and a second vaporization cavity which are distributed up and down, the water inlet is communicated with the first vaporization cavity, and the first vaporization cavity is communicated with the second vaporization cavity through a vertical hole; a third vaporization cavity is formed between the rear furnace body and the front furnace body, a vaporization tower is convexly arranged on the surface of the third vaporization cavity, the head part of the electric heating tube extends into the third vaporization cavity, the second vaporization cavity is communicated with the third vaporization cavity through a transverse hole, and the third vaporization cavity is communicated with a steam outlet. The utility model has the advantages that: reasonable and compact structure, sufficient vaporization and capability of avoiding water dripping during ironing.

Description

Multi-cavity combined steam generator

Technical Field

The utility model relates to an evaporation plant of steam brush makes technical field, especially indicates multicavity combination steam generator.

Background

In the market, the steam brush is an efficient and environment-friendly household cleaning appliance because the steam brush is small in size, convenient to carry, free of ironing boards during working and convenient to store, and high-temperature and high-pressure steam continuously sprayed out of the steam brush can be used for ironing, sterilizing, cleaning and the like, so that the steam brush is popular with consumers.

Among the current product structure, adopt simple single chamber structure more, be communicating monoblock space in the chamber, when the product used in the slope, water can be partial to one side and flow and lead to rivers uneven distribution, can cause the thermal waste of heating tube like this, spun water can not vaporize completely, has the water droplet along with steam blowout in ironing the use, influences ironing effect. When the water is flat, the water is accumulated at a lower water position to be not beneficial to vaporization, and under the condition of poor water quality, impurities are accumulated to easily cause blockage.

A prior art patent No. 201721724965.0 entitled "three-layer composite double-vapor channel evaporator" discloses a double-vapor channel evaporator, which includes: the steam generator comprises a first partition plate, a second partition plate and a steam generator, wherein a first steam cavity channel is arranged on one end face of the first partition plate, a water outlet is formed in the first partition plate, the first steam cavity channel is communicated with the water outlet, and a U-shaped electric heating pipe is further arranged on the first partition plate; the first partition board is provided with a plurality of steam holes, and one end face of the first partition board, which is provided with a first steam cavity channel, is connected with one end face of the second partition board; and one end face of the third partition plate is provided with a second steam cavity channel, one end face of the third partition plate, provided with the second steam cavity channel, is connected with the other end face of the second partition plate, and the second steam cavity channel is communicated with the first steam cavity channel through a plurality of steam holes. The evaporation device adopts a double-steam-cavity structure which is distributed up and down, the two steam cavities are the same, and the evaporation effect is improved by increasing the length of a steam channel; however, in the using process, the phenomenon of dripping caused by insufficient evaporation still exists, so that the structure of the water-cooling type solar cell is further improved.

Disclosure of Invention

The utility model aims to solve the technical problem that to prior art's current situation, provide a multicavity combination steam generator rational in infrastructure, compact, the vaporization is abundant.

The utility model provides a technical scheme that above-mentioned technical problem adopted does:

the multi-cavity combined steam generator comprises a steam generator body, wherein a water inlet and a steam outlet are formed in the steam generator body, an electric heating pipe is arranged in the steam generator body, the steam generator body consists of a front furnace body and a rear furnace body, a partition plate is arranged in the rear furnace body to form a first gasification cavity and a second gasification cavity which are distributed up and down, the water inlet is communicated with the first gasification cavity, and the first gasification cavity is communicated with the second gasification cavity through a vertical hole; a third vaporization cavity is formed between the rear furnace body and the front furnace body, a vaporization tower is convexly arranged on the surface of the third vaporization cavity, the head part of the electric heating tube extends into the third vaporization cavity, the second vaporization cavity is communicated with the third vaporization cavity through a transverse hole, and the third vaporization cavity is communicated with a steam outlet.

The optimized technical measures further comprise:

the front end of the rear furnace body is provided with an annular convex rib, the front furnace body is provided with an annular groove matched with the annular convex rib, and the annular convex rib is clamped in the annular groove.

The rear furnace body comprises a rear furnace body main body, an upper cover and a bottom cover; the upper surface of the rear furnace body main body is provided with an assembly column, and the corresponding position of the upper cover is provided with an assembly hole.

The upper part of the rear furnace body main body is provided with a baffle plate in the first gasification cavity so as to form a continuous and tortuous steam passage in the first gasification cavity.

The steam generator body on be provided with NTC temperature sensor, this NTC temperature sensor passes through the NTC clamp plate to be fixed in steam generator body bottom.

The bottom cover is provided with a T-shaped baffle with an opening arranged backwards, and a rhombic cavity for accommodating the NTC temperature sensor is arranged in the T-shaped baffle.

The utility model discloses multicavity combination steam generator, rational in infrastructure, compact adopts multicavity integrated configuration, sets up first vaporization chamber and second vaporization chamber that distributes from top to bottom in the back furnace body, still is provided with the third vaporization chamber between back furnace body and the preceding furnace body, and the surface of third vaporization chamber is protruding to be equipped with the vaporization tower to increase the surface area of third vaporization chamber, and the head of electrothermal tube stretches into the third vaporization chamber, guarantees to the heat supply of third vaporization; water enters the steam generator body from the water inlet, and is fully vaporized through the first vaporization cavity, the second vaporization cavity and the third vaporization cavity, so that water is prevented from dripping when the clothes are ironed by the steam brush.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is an exploded schematic view of the present invention;

FIG. 3 is a three-dimensional structure view of the rear furnace body of the present invention;

FIG. 4 is a sectional structure view of the rear furnace body of the present invention;

FIG. 5 is a three-dimensional structure view of the front body of the present invention;

FIG. 6 is a rear view of the front body of the present invention;

fig. 7 is a schematic structural view of a first gasification chamber of the present invention;

fig. 8 is a schematic structural diagram of a second gasification chamber of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

As shown in fig. 1 to 8, the structure of the present invention is schematically illustrated,

wherein the reference numerals are: the steam generator comprises a steam generator body 1, a water inlet 1a, a steam outlet 1b, a first vaporization chamber 11, a second vaporization chamber 12, a third vaporization chamber 13, a vaporization tower 13a, an electric heating pipe 2, a front furnace body 3, an annular groove 31, a rear furnace body 4, a vertical hole 4a, a transverse hole 4b, a partition plate 41, an annular convex rib 42, a rear furnace body main body 43, an assembly column 43a, a baffle 43b, an upper cover 44, an assembly hole 44a, a bottom cover 45, a T-shaped baffle 45a, a diamond-shaped cavity 45b, an NTC temperature sensor 5 and an NTC pressure plate 51.

As shown in figures 1 to 8 of the drawings,

the multi-cavity combined steam generator comprises a steam generator body 1, wherein a water inlet 1a and a steam outlet 1b are formed in the steam generator body 1, an electric heating pipe 2 is arranged in the steam generator body 1, the steam generator body 1 is composed of a front furnace body 3 and a rear furnace body 4, a partition plate 41 is arranged in the rear furnace body 4 to form a first vaporization cavity 11 and a second vaporization cavity 12 which are distributed up and down, the water inlet 1a is communicated with the first vaporization cavity 11, and the first vaporization cavity 11 is communicated with the second vaporization cavity 12 through a vertical hole 4 a; a third vaporizing cavity 13 is formed between the rear furnace body 4 and the front furnace body 3, a vaporizing tower 13a is convexly arranged on the surface of the third vaporizing cavity 13, the head part of the electric heating tube 2 extends into the third vaporizing cavity 13, the second vaporizing cavity 12 is communicated with the third vaporizing cavity 13 through a transverse hole 4b, and the third vaporizing cavity 13 is communicated with the steam outlet 1 b.

The front end of the rear furnace body 4 is provided with an annular convex rib 42, the front furnace body 3 is provided with an annular groove 31 matched with the annular convex rib 42, and the annular convex rib 42 is clamped in the annular groove 31.

The front furnace body 3 is matched with the annular convex rib 42 on the rear furnace body 4 through the annular groove 31, so that the front furnace body and the rear furnace body are tightly assembled together, and the sealing performance of the periphery of the third vaporization chamber 13 is ensured.

The rear furnace body 4 comprises a rear furnace body main body 43, an upper cover 44 and a bottom cover 45; the upper surface of the rear furnace body 43 is provided with an assembly column 43a, and the corresponding position of the upper cover 44 is provided with an assembly hole 44 a.

On the upper part of the rear furnace body 43, a baffle 43b is arranged in the first gasification cavity 11, so that a continuous and zigzag steam passage is formed in the first gasification cavity 11.

The steam generator body 1 is provided with an NTC temperature sensor 5, and the NTC temperature sensor 5 is fixed at the bottom of the steam generator body 1 through an NTC pressure plate 51.

The bottom cover 45 is provided with a T-shaped baffle 45a with an opening facing backwards, and a diamond-shaped cavity 45b for accommodating the NTC temperature sensor 5 is arranged in the T-shaped baffle 45 a.

The working principle is as follows:

water enters the steam generator body 1 from the water inlet 1a, and the electric heating pipe 2 provides heat to vaporize the water in the vaporization cavity to form steam. The water firstly enters the first vaporization cavity 11 from the water inlet 1a, the baffle 43b is arranged in the first vaporization cavity 11 to form a continuous and zigzag steam passage, and the arrangement of the baffle 43b increases the flowing time of the water in the first vaporization cavity 11, which is beneficial to improving the vaporization effect; then enters the second vaporization chamber 12 through the vertical hole 4a to continue vaporization, the vertical hole 4a is arranged at the front side, the opening of the T-shaped baffle 45a in the second vaporization chamber 12 faces backwards, water in the second vaporization chamber 12 must flow backwards firstly, then reversely turns back to enter the third vaporization chamber 13 through the transverse hole 4b, and the arrangement is so as to increase the flowing time of the water in the second vaporization chamber 12 and also improve the vaporization effect. The unvaporized water in the first vaporizing cavity 11 and the second vaporizing cavity 12 is continuously vaporized in the third vaporizing cavity 13, the vaporizing tower 13a is convexly arranged on the surface of the third vaporizing cavity 13, the vaporizing tower 13a is in a convex triangular pyramid or rectangular pyramid structure, the surface area in the third vaporizing cavity 13 is greatly increased by arranging the vaporizing tower 13a, the heat exchange is facilitated, the head part of the electric heating tube 2 extends into the third vaporizing cavity 13, the heat supply in the third vaporizing cavity 13 is ensured, and the unvaporized water in the front can be fully vaporized; finally, the water vapor formed by the vaporization of the water is ejected from the vapor outlet 1 b.

The multi-cavity combined steam generator is reasonable and compact in structure, adopts a multi-cavity combined structure, the first vaporization cavity 11 and the second vaporization cavity 12 are distributed up and down in the rear furnace body 4, the third vaporization cavity 13 is arranged in the front parts of the first vaporization cavity 11 and the second vaporization cavity 12 to form a triangular structure, the structure is compact, meanwhile, the heat of the electric heating pipe 2 can be transferred to each vaporization cavity, and the supply of the heat in each vaporization cavity is guaranteed.

While the preferred embodiments of the present invention have been illustrated, various changes and modifications may be made by those skilled in the art without departing from the scope of the present invention.

Claims (6)

1. Multicavity combination steam generator, including steam generator body (1), steam generator body (1) on be provided with water inlet (1a) and steam outlet (1b), steam generator body (1) in be provided with electrothermal tube (2), characterized by: the steam generator body (1) is composed of a front furnace body (3) and a rear furnace body (4), a partition plate (41) is arranged in the rear furnace body (4) to form a first vaporization cavity (11) and a second vaporization cavity (12) which are distributed up and down, the water inlet (1a) is communicated with the first vaporization cavity (11), and the first vaporization cavity (11) is communicated with the second vaporization cavity (12) through a vertical hole (4 a); a third vaporization cavity (13) is formed between the rear furnace body (4) and the front furnace body (3), a vaporization tower (13a) is convexly arranged on the surface of the third vaporization cavity (13), the head part of the electric heating tube (2) extends into the third vaporization cavity (13), the second vaporization cavity (12) is communicated with the third vaporization cavity (13) through a transverse hole (4b), and the third vaporization cavity (13) is communicated with the steam outlet (1 b).

2. A multi-chamber combination steam generator according to claim 1, further comprising: the front end of the rear furnace body (4) is provided with an annular convex rib (42), the front furnace body (3) is provided with an annular groove (31) matched with the annular convex rib (42), and the annular convex rib (42) is clamped in the annular groove (31).

3. A multi-chamber combination steam generator according to claim 2, further comprising: the rear furnace body (4) comprises a rear furnace body main body (43), an upper cover (44) and a bottom cover (45); the upper surface of the rear furnace body main body (43) is provided with an assembling column (43a), and the corresponding position of the upper cover (44) is provided with an assembling hole (44 a).

4. A multi-chamber combination steam generator according to claim 3, wherein: a baffle plate (43b) is arranged in the first gasification cavity (11) at the upper part of the rear furnace body main body (43) so as to form a continuous and zigzag steam passage in the first gasification cavity (11).

5. A multi-chamber combination steam generator according to claim 4, wherein: the steam generator is characterized in that an NTC temperature sensor (5) is arranged on the steam generator body (1), and the NTC temperature sensor (5) is fixed at the bottom of the steam generator body (1) through an NTC pressing plate (51).

6. A multi-chamber combination steam generator according to claim 5, wherein: the bottom cover (45) is provided with a T-shaped baffle (45a) with an opening arranged backwards, and a rhombic cavity (45b) used for accommodating the NTC temperature sensor (5) is arranged in the T-shaped baffle (45 a).

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