CN205156357U - Electricity leakage -free's lavipeditum ware heating device - Google Patents

Abstract

The utility model belongs to the field of foot baths, and relates to a non-leakage foot bath heating device, which comprises a heat conductor and an electric heating tube arranged in the middle of the heat conductor. Electrically connected, a heat conducting insulating layer is provided between the heat conductor and the electric heating tube. According to the different shapes of the built-in electric heating tubes, the heat conductor has three embodiments. The beneficial effects of the utility model are: the addition of a thermally conductive insulating layer not only makes the utility model have a good double insulation effect and is safe to heat, but also has a simpler and more compact structure, a small volume, and can be molded together with a mold, and the process is simple. The utility model has low cost and can be widely used in foot baths.

Description

A non-leakage foot bath heating device

technical field

[ The utility model belongs to the field of foot baths, in particular to a heating device built in a foot bath.

Background technique

The heating method of the foot bath, the first old model uses quartz tube heating, which has a short lifespan and is unsafe for live heating, and has basically withdrawn from the market now. At present, the main heating method of massage footbaths on the market is PTC heating. A pair of metal electrodes with lead wires are placed on both sides of the PTC element, and a thin insulating yellow paper is placed on the surface of the metal electrodes, and a metal plate is placed on the outside, etc. Thermal part. The disadvantage of PTC heating element is that it is poor in shock resistance and easy to explode. In addition, the high-temperature insulating paper will age after a long time. Recently, there is a new heating device such as patent No. 2012204910727, which is called a heating device for a foot bath. Two electric heating tubes are placed in an aluminum die-casting heat conductor for die-casting, and the two electric heating tubes are filled with the aluminum die-casting heat conductor. The two ends of the magnesium oxide isolation insulation are blocked with soft glue. Although the safety aspect is much better, there are still many problems, such as bulky, complex structure, complex process, troublesome production, low thermal efficiency, easy leakage of the water pipe of the heating device during the use of the product, and the large size is not good for product matching, and the unit price The cost is also high.

Contents of the invention

In order to overcome the above-mentioned shortcomings in the prior art, the utility model provides a safe and leakage-free foot bath heating device with simple and reasonable structure, safe heating, simple process, convenient production and low cost.

The technical solution of the utility model to solve the technical problem is: a foot bath heating device without electric leakage, including a heat conductor, an electric heating tube arranged in the heat conducting body, both ends of the electric heating tube extend out of the heat conducting body and use For electrical connection, a heat conducting insulating layer is provided between the heat conductor and the electric heating tube.

Further, the electric heating tube is U-shaped. In order to match the shape of the electric heating tube, the heat conductor is formed by die-casting aluminum, and its shape is a rectangular flat plate with a U-shaped protrusion on the back. The electric heating tubes are distributed in a U-shaped Shaped convex arc, saving cost.

Further, the electric heating tube is O-shaped. In order to match the shape of the electric heating tube, the heat conductor is formed by die-casting aluminum, and its shape is a rectangular flat plate with an O-shaped protrusion on the back. The electric heating tube is distributed in an O-shaped Shaped convex arc, saving cost.

Further, the electric heating tube is C-shaped. In order to match the shape of the electric heating tube, the heat conductor is formed by die-casting an aluminum material. The arc-shaped convex arc part saves cost.

Further, the electric heating tube includes a metal outer tube, an electric heating wire arranged in the metal outer tube, a thermally conductive insulating powder filled in the metal outer tube, insulating plugs plugged on both ends of the metal outer tube, and connecting Electric needles on both ends of the electric heating wire, the ends of the electric needles protrude out of the insulating plug, and magnesium oxide heat-conducting insulating powder is added in the electric heating tube, and matched with the external heat-conducting insulating layer, double insulation , Heating is safer.

Further, the heat conductor is formed by die-casting aluminum material, which is easy to produce.

Further, the thermally conductive insulating layer is made of polyimide, Teflon, polytetrafluoroethylene, mica, glass fiber, acetate cloth, magnesium oxide, PET, high temperature resistant thermally conductive insulating paper, high temperature resistant thermally conductive insulating coating, ceramic enamel Made of any one of the thermally conductive insulating materials.

The beneficial effects of the utility model are: the addition of a heat-conducting insulating layer not only makes the utility model have a good insulating effect and is safe to heat, but also sets the heat-conducting insulating powder in the electric heating tube for double insulation, and the structure of the utility model is more simple and compact, and the volume Small and compact, it can be molded together with a mold, the process is simple, the cost is low, and it can be widely used in foot baths.

Description of drawings

Fig. 1 is an exploded view of Embodiment 1 of the present utility model.

Fig. 2 is a perspective view of Embodiment 1 of the present utility model.

Fig. 3 is a top view of Embodiment 1 of the present utility model.

Fig. 4 is a front sectional view of Embodiment 1 of the present utility model.

Fig. 5 is an exploded view of Embodiment 2 of the present utility model.

Fig. 6 is a perspective view of Embodiment 2 of the present utility model.

Fig. 7 is a top view of Embodiment 2 of the present utility model.

Fig. 8 is a front sectional view of Embodiment 2 of the present utility model.

Fig. 9 is an exploded view of Embodiment 3 of the present utility model.

Fig. 10 is a perspective view of Embodiment 3 of the present utility model.

Fig. 11 is a top view of Embodiment 3 of the present utility model.

Fig. 12 is a front sectional view of Embodiment 3 of the present utility model.

Fig. 13 is a sectional view of the utility model applied in a foot bath.

detailed description

Below in conjunction with accompanying drawing and specific embodiment, the utility model is further described.

Embodiment one

Referring to Figures 1 to 4, a non-leakage foot bath heating device includes a heat conductor 2, an electric heating tube 7 located in the middle of the heat conductor 2, and both ends of the electric heating tube 7 protrude from the heat conductor 2 and used for electrical connection, a heat conducting insulating layer 8 is provided between the heat conductor 2 and the electric heating tube 7, the electric heating tube 7 is U-shaped, in order to match the shape of the electric heating tube 7, the heat conducting body 2 is aluminum die-casting, and its shape is a rectangular flat plate with a U-shaped bulge on the back. The electric heating tubes 7 are distributed on the U-shaped arc to save costs.

Embodiment two

Referring to Figures 5 to 8, a non-leakage foot bath heating device includes a heat conductor 2, an electric heating tube 7 located in the middle of the heat conductor 2, and both ends of the electric heating tube 7 protrude from the heat conductor 2 and is used for electrical connection, a thermally conductive insulating layer 8 is provided between the heat conductor 2 and the electric heating tube 7, and the electric heating tube 7 is O-shaped. In order to match the shape of the electric heating tube 7, the heat conductor 2 is aluminum die-casting, and its shape is a rectangular flat plate with an O-shaped bulge on the back, and the electric heating tube 7 is distributed on the O-shaped bulge-shaped arc to save costs.

Embodiment three

Referring to Figures 9 to 12, a non-leakage foot bath heating device includes a heat conductor 2, an electric heating tube 7 located in the middle of the heat conductor 2, and both ends of the electric heating tube 7 protrude from the heat conductor 2 and is used for electrical connection, a thermally conductive insulating layer 8 is provided between the heat conductor 2 and the electric heating tube 7, and the electric heating tube 7 is C-shaped. In order to match the shape of the electric heating tube 7, the heat conducting body 2 is aluminum die-casting, and its shape is a rectangular flat plate with a semicircular arc on the back, and the electric heating tubes 7 are distributed on the semicircular arc to save costs.

In the above three embodiments, the electric heating tube 7 includes a metal outer tube 71, an electric heating wire 5 arranged in the metal outer tube 71, a thermally conductive insulating powder 6 filled in the metal outer tube 71, and plugged in the metal outer tube 71. The insulating plugs 9 on the two ends of the outer tube 71 and the electric needles 3 connected to the two ends of the heating wire 5, the ends of the electric needles 3 protrude from the insulating plugs 9, adding thermal insulation powder 6, and cooperate with the heat conduction insulating layer 8, double insulation, heating is safer. The thermally conductive insulating layer 8 is made of polyimide, Teflon, polytetrafluoroethylene, mica, glass fiber, acetate cloth, magnesium oxide, PET, high temperature resistant thermally conductive insulating paper, high temperature resistant thermally conductive insulating coating, ceramic enamel thermally conductive Made of any kind of insulating material.

With reference to Fig. 13, when the utility model is installed on the foot bath, the thermal conductor 2 is fixed on the hollow gap in the foot bath inner bucket 16 with screws, and a gasket 21 is arranged between the thermal conductor 2 and the foot bath inner bucket 16, and the thermal conductor 2 A temperature controller 13 is provided on the top of the foot bath, and a thermocouple 11 is provided under the foot bath inner barrel 16 . When the foot bath is in use, after adding water 15 to the inner barrel 16 of the foot bath, turn on the power button 18, and the heating wire 5 in the electric heating tube 7 is in a working state. The heating wire 5 generates heat to make the temperature of the heat conductor 2 rise, and the temperature is passed to the inner barrel of the foot bath. 16 of the water 15, the water temperature rises slowly, when the thermocouple 11 in contact with the water 15 detects that the temperature rise reaches the set temperature point, the feedback signal is given to the control circuit board 17 to close the heating power supply. The water temperature that time thermocouple 11 detects drops, feeds back to control circuit board 17, turns on heating power again, and heating wire 5 heats, and the water 16 in the tub 16 in the footbath 16 keeps constant temperature forever in the cycle of work. When the foot bath has been working, the water in the tub 21 of the foot bath is too little or used up, the heating wire 5 generates heat and the temperature of the heat conductor 2 rises sharply, and the temperature controller 13 tied on the heat conductor 2 detects that there is a signal feedback to the control The circuit board 17 turns off the heating power supply, and the heating does not exceed the preset temperature of the thermostat 13, so as to prevent the heating wire 5 from burning out, and protect the heating device so that the product quality is more guaranteed.

The utility model is provided with a thermally conductive insulating layer 8 between the heat conductor 2 and the electric heating tube 7, which not only makes the utility model have a good insulating effect and is safe to heat, but also sets the thermally conductive insulating powder 6 in the electric heating tube 7 for double insulation, and The utility model has a simpler and more compact structure, a reasonable design, a small size, good heat dissipation, can be molded together, has a simple process and low cost, can be widely used in foot baths, and is safe to use.

Claims (9)

1. a safety is without the Pediluvium apparatus heater leaked electricity, it is characterized in that: comprise heat carrier, the electrothermal tube be located in this heat carrier, it is outer and for the connection that is energized, be provided with thermally conductive insulating layer between described heat carrier and described electrothermal tube that described heat carrier is all stretched out at the two ends of described electrothermal tube.

2. a kind of safety according to claim 1 is without the Pediluvium apparatus heater of electric leakage, it is characterized in that: described electrothermal tube is U-shaped.

3. a kind of safety according to claim 2 is without the Pediluvium apparatus heater of electric leakage, it is characterized in that: described heat carrier to be aluminium die-casting its profile shaping the be rectangular flat plate back side takes the shape of the letter U convex, described electrothermal tube is distributed in the arc portion of U-shaped convex.

4. a kind of safety according to claim 1 is without the Pediluvium apparatus heater of electric leakage, it is characterized in that: described electrothermal tube is O type.

5. a kind of safety according to claim 4 is without the Pediluvium apparatus heater of electric leakage, it is characterized in that: described heat carrier is aluminium die-casting its profile shaping be the rectangular flat plate back side is O shape convex, and described electrothermal tube is distributed in the arc portion of O shape convex.

6. a kind of safety according to claim 1 is without the Pediluvium apparatus heater of electric leakage, it is characterized in that: described electrothermal tube is C-shaped.

7. a kind of safety according to claim 6 is without the Pediluvium apparatus heater of electric leakage, it is characterized in that: described heat carrier is aluminium die-casting its profile shaping be the rectangular flat plate back side is semicircular arc convex, and described electrothermal tube is distributed in the arc portion of semicircular arc convex.

8. according to the Pediluvium apparatus heater of a kind of safety one of claim 1 ~ 7 Suo Shu without electric leakage, it is characterized in that: described electrothermal tube comprises metal outer pipe, the heating wire be located in this metal outer pipe, the heat conductive insulating powder be filled in this metal outer pipe, the acusector that is blocked in the insulation plug on the two ends of described metal outer pipe and is connected on the two ends of described heating wire, the end of this acusector is stretched out outside described insulation plug.

9. according to the Pediluvium apparatus heater of a kind of safety one of claim 1 ~ 7 Suo Shu without electric leakage, it is characterized in that: described thermally conductive insulating layer is by polyimides, Teflon, polytetrafluoroethylene (PTFE), mica, glass fibre, acetic acid cloth, magnesia, PET, thermostable heat-conductive insulating paper, and thermostable heat-conductive coatings, any one material in ceramic enamel heat-conducting insulation material are made.