RU170198U1 - GAS STEAM GENERATOR - Google Patents

Abstract

The invention relates to a steam generator (100) comprising at least one steam outlet (101), a steam chamber (102) generating steam discharged into said at least one steam outlet (101), and a heating element (103) ) connected to the steam chamber (102), a cavity (104) inside the steam chamber (102), bounded by the outer wall (105), a cover (106) connected over the steam chamber (102), containing an opening (107) for dispensing water, communicating with the aforementioned cavity (104), a sealing gasket (108) located between the upper part of the outer wall (105) and the cover (106). The utility model is aimed at eliminating water leakage between the lid and the outer wall of the cavity. 11 s.p. f-ly, 4 ill.

Description

The technical field to which the utility model relates.

The invention relates to a steam generator, in particular to a steam generator for a manual steamer.

State of the art

The known manual steamer typically has a steam generator comprising a heating element, a steam chamber for generating steam and a lid mounted on top of the steam chamber to make the steam chamber vapor tight. The steam generated by the steam generator then exits through the steam outlet of the manual steamer.

The steam chamber and the lid are usually fastened by means of a thorn-groove mechanical assembly, for example, containing ribs made on the outer part of the lid, which closely interact with grooves made on the outer part of the steam chamber. You can also optionally use several studs to strengthen the site, for example, studs extending upward from the inner walls of the steam chamber and closely interacting with the holes made in the lid. Then the steam chamber and the lid are pressed against each other to create a mechanical seal. In addition, a sealing paste can be used on the seal of a thorn-groove mechanical assembly to further increase water resistance.

However, this mechanical seal between the steam chamber and the lid causes water droplets to spray through the steam outlet of the manual steamer, in particular when the direction of the manual steamer changes from horizontal to vertical or vice versa. Thus, a negative effect on the stripping effect occurs, for example, when drops of water spread out over clothes that are ironed with a manual steamer.

The task and essence of the utility model

The objective of the utility model is to offer an advanced steam generator that substantially mitigates or eliminates the above problems.

The utility model is characterized by independent claims of the utility model formula. The dependent claims of the utility model characterize the preferred options for the utility model.

To solve the aforementioned problem, the steam generator in accordance with the utility model contains:

- at least one steam outlet;

- a steam chamber generating steam discharged into said at least one steam outlet;

- a heating element connected to the steam chamber;

- a cavity inside the steam chamber, limited by the outer wall;

- a lid connected on top of the steam chamber, containing a hole for dispensing water in communication with said cavity;

- a sealing gasket located between the upper part of the outer wall and the cover.

The gasket does not allow water, metered into the cavity through the dispensing hole, to leak or leak between the lid and the outer wall of the cavity. As a result, water dosed into the cavity through the dosing hole cannot reach the steam outlet (steam outlet). Water dosed into the cavity through the dosing hole is held inside the cavity and evaporates. As a result, water droplets are not sprayed through the steam outlets, which is very advantageous when this steam generator is embodied in a manual steamer. The user's skills in ironing are increasing. Moreover, since the gasket allows you to hold the water dispensed into the cavity through the dispensing hole inside the cavity, the steam generator can also be used in an inclined position or transferred between horizontal and vertical positions without stimulating water droplets to spray through the steam outlet (steam outlet).

Detailed explanations and other aspects of the utility model will be given below.

Brief Description of the Drawings

Now, specific aspects of the utility model will be explained with reference to the embodiments described below and discussed in connection with the accompanying drawings, in which identical parts or sub-steps are indicated identically:

in FIG. 1 shows an exploded view of a steam generator in accordance with a utility model;

in FIG. 2 shows a gasket used in a steam generator in accordance with a utility model;

in FIG. 3 shows a steam chamber used in a steam generator in accordance with a utility model;

in FIG. 4 shows a manual steamer embodying a steam generator in accordance with a utility model.

Detailed description of utility model

In FIG. 1 depicts a steam generator 100 in accordance with a utility model comprising at least one steam outlet 101. For example, as shown, seven steam outlets 101 are used in series one after the other.

The steam generator 100 also includes a steam chamber 102 generating steam discharged into at least one steam outlet 101. The steam chamber 102 corresponds to the inside of the steam generator 100. For example, the steam chamber 102 is cast from aluminum.

The steam generator 100 also includes a heating element 103 connected to the steam chamber 102. For example, the heating element contains a resistor to which a power source is connected. The heating element, for example, forms a U-shaped profile cast in the lower part of the chamber 102.

The steam generator 100 also includes a cavity 104 inside the steam chamber 102. The cavity 104 is bounded by the outer wall 105. The cavity 104 corresponds to a subregion of the chamber 102.

The steam generator 100 also includes a lid 106 connected over the steam chamber 102. The lid 106 includes a water dispensing hole 107 communicating with the cavity 104. In other words, the water dispensing hole 107 faces the cavity 104 and opens into the cavity 104. The steam chamber and the lid are connected for example, by means of a thorn-groove type mechanical assembly, for example, containing ribs R made on the outer part of the lid, which closely interact with grooves G made on the outer part of the steam chamber, as shown. Then the steam chamber and the lid are pressed against each other to create a mechanical seal. In addition, on a thorn-groove mechanical assembly, a sealing paste (not shown) can be used to further increase the water resistance.

The steam generator 100 also includes a gasket 108 located between the upper part of the outer wall 105 and the cover 106.

The seal 108 preferably has substantially the same linear shape as the upper part of the outer wall 105. In other words, the seal 108 follows the surface and the width of the upper part of the outer wall 105.

The outer wall 105 comprises at least one stud 109 protruding from said upper portion of the outer wall 105, and the gasket 108 comprises at least one convex region 110 to surround said at least one stud 109. This embodiment The implementation is preferred when several hairpin elements are additionally used to strengthen the assembly of the cover 106 with the steam chamber 102. For example, the studs 109 extend upward from the outer wall 105 of the steam chamber. The studs 109 closely interact with the corresponding holes in the cover.

In FIG. 2 shows a close-up of the gasket 108 in accordance with a utility model comprising a plurality of convex areas 110.

The outer wall 105 preferably comprises a smooth portion 111 facing at least one steam outlet 101 and an open portion 112 opposite to the at least one steam outlet 101. In this embodiment, the steam generator 100 comprises a passage 113 connecting said open a section 112 with said at least one steam outlet 101. The smooth section 111 is intended to limit the area of water evaporation in the cavity 104. For example, the smooth section 111 has a curved shape. The open portion 112 is designed so that the generated steam exits the cavity 104. The channel 113 is made, for example, along the sides of the outer wall 105 and is designed so that the steam can circulate until it reaches the steam outlet (steam outlet) 101 .

The gasket 108 preferably has a cross section selected from the group of shapes consisting of a rectangular shape and a U-shaped.

The gasket 108 preferably has a thickness in the range of [0.1 mm; 2 mm], preferably 0.5 mm.

The gasket 108 is preferably made of a material such as silicone rubber or an equivalent material.

In FIG. 3 is a tilted view of a steam chamber 102 used in a steam generator in accordance with the invention.

In a preferred embodiment, as shown in FIG. 3, the cavity 104 (indicated by dashed lines) is located in the central region of the vapor chamber 102. This arrangement of the cavity makes it possible to intensify the steam flow around the cavity so that it smoothly reaches the steam outlet (steam outlet) 101.

The cavity 104 preferably has inner walls 114 forming a labyrinth structure. The labyrinth structure is advantageous because it intensifies the evaporation of water to produce steam.

The cover 106 preferably includes a groove 115 facing the outer wall 105. The groove 115 is formed on the side of the cover 106 that faces the inside of the steam chamber 102. The groove 115 is illustrated by the transparency of FIG. 1. The groove 115 has a width W1 that is greater than the width W2 of the gasket 108. As a result, the gasket 108 can be placed inside the groove 115. The groove 115 allows the sealing gasket 108 to be properly held in the cover 106. For example, if the width W2 of the gasket 108 is 1 mm, the width W1 of the groove 115 may be 1.15 mm.

The seal 108 preferably has a thickness that is less than the depth D1 of the groove 115. The thickness e1 of the seal 108 is shown in FIG. 2.

The gasket 108 preferably has a thickness e1 equal to the depth D1 of the groove 115, for example 0.5 mm.

Note that in combination with the aforementioned preferred embodiments, the width W1 of the groove 115 can also be selected slightly smaller than the width of the upper part of the outer wall 105, so that when the lid 106 is pressed against the steam chamber 102, the upper part of the outer wall 105 is forced into the groove 115 resulting in a stronger assembly between the lid 106 and the steam chamber 102. For example, the width of the upper part of the outer wall 105 is 1.2 mm and the width W1 of the groove 115 is 1.15 mm.

In FIG. 4 shows a manual steamer 401 in accordance with a utility model, comprising a steam generator 100 in accordance with a utility model described above.

The steam generator 100 is enclosed in a casing of the manual steamer 401. The manual steamer 401 comprises a sole 402 located at the front end of the manual steamer. A steam outlet (steam outlet) 101 passes (pass) through the sole 402 so that the steam can be distributed throughout the garment 403. As shown in FIG. 4, a manual steamer 401 is used to iron a garment in an upright position. However, you can also use a manual steamer 4 01 to iron an object 403 in an inclined or vertical position.

The manual steamer 401 comprises a water reservoir 404 connected to the water pump 405 via the first tube 406. The water pump 405 is connected via the second tube 407 to the opening 107 for dispensing water to the steam generator 100.

When the water pump 405 is turned on, a metered supply of water occurs in the steam generator 100, which leads to the spread of steam in the garment 403.

In a preferred embodiment, the sole 402 is made of a metal material and connected to the steam generator 100, so that the heat of the steam generator 100 is transferred through the thermal conductivity of the sole 402 in order to improve the ironing quality of the garment 403.

In a preferred embodiment, power is supplied to the manual steamer 401 via a power cord 408.

The described embodiments are merely illustrative and are not intended to limit the methodological approaches according to this utility model. Although this utility model is described in detail with reference to preferred embodiments, those skilled in the art will understand that within the scope and nature of the claims of this utility model, methodological approaches according to this utility model can be modified and replaced with equivalent ones that will also be within the scope of protection provided by the formula of this utility model. In the formula of a utility model, the word “comprising (,, ее,-)” does not exclude other elements or steps, and the singular does not exclude a plurality. Any position of the drawings in the formula of a utility model should not be considered limiting the scope of its claims.

Claims (20)

1. A steam generator (100), comprising: - at least one steam outlet (101); - a steam chamber (102) generating steam discharged into said at least one steam outlet pipe (101); - a heating element (103) connected to the steam chamber (102); - a cavity (104) inside the steam chamber (102), and the cavity is bounded by an external wall (105) having an open area (112) to allow steam to escape from the cavity (104); - a channel (113) inside the steam chamber (102), which connects the open area (112) with the aforementioned at least one steam outlet (101); moreover, the cavity (104) is limited by the outer wall (105), which divides the steam chamber (102) into the cavity (104) and the channel (113); - a lid (106) connected over the steam chamber (102) containing an opening (107) for dispensing water in communication with said cavity (104); - a gasket (108) located between the upper part of the outer wall (105) and the cover (106). 2. A steam generator (100) according to claim 1, wherein the gasket (108) has substantially the same linear shape as said upper part of the outer wall (105). 3. A steam generator (100) according to claim 1 or 2, in which the outer wall (105) comprises at least one hairpin (109) protruding from said upper part of the outer wall (105), and wherein the gasket (108) ) contains at least one convex region (110) surrounding said at least one hairpin (109). 4. The steam generator (100) according to claim 1 or 2, in which the outer wall (105) contains a smooth section (111) facing at least one steam outlet pipe (101), and the open section (112) is opposite to the aforementioned at least one steam outlet (101). 5. The steam generator (100) according to claim 4, wherein the cavity (104) is located in the central region of the steam chamber (102). 6. The steam generator (100) according to claim 5, wherein the cavity (104) has inner walls (114) forming a labyrinth structure. 7. The steam generator (100) according to claim 4, wherein the cover (106) comprises a groove (115) facing the outer wall (105) to accommodate the gasket (108). 8. The steam generator (100) according to claim 7, wherein the gasket (108) has a thickness (e1) that is less than the depth (D1) of the groove (115). 9. The steam generator (100) according to claim 7, wherein the gasket (108) has a thickness (e1) equal to the depth (D1) of the groove (115). 10. The steam generator (100) according to claim 1 or 2, wherein the gasket (108) has a cross section in the shape of a rectangle and in a U-shape. 11. The steam generator (100) according to claim 1 or 2, in which the gasket (108) has a thickness in the range of 0.1 mm to 2 mm 12. The steam generator (100) according to claim 1 or 2, in which the sealing gasket (108) is made of a material of silicone rubber.

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