CN203310069U - Embedded electric heating module with running water channel - Google Patents

Abstract

The utility model relates to an embedded electric heating module with a running water channel. A module body comprises a heating unit and an aluminum casing, wherein the heating unit is provided with a heating part and an electrode part; the aluminum casing is packaged on the heating part of the heating unit; the end part of the electrode part is exposed to the exterior of the aluminum casing; a flange plate is connected with the aluminum casing on one side where the electrode is exposed; the embedded electric heating module is characterized in that a running water connector is formed on the flange plate; and the running water connector is communicated with the interior and the exterior of the flange plate, so as to form the running water channel. The embedded electric heating module has the advantages that the running water connector is formed on the flange plate used for being fixed on equipment, communicated with an external water pump and conveys water to a high position through the water pump, so that a spraying or surfing function is realized; heat exchange of water around the heating unit is also accelerated through the pumping of the water pump; and in addition, the running water connector can also be utilized for realizing low-position drainage.

Description

Band pipelined channel embedded-type electric thermal modules

Technical field:

The utility model relates to a kind of band pipelined channel embedded-type electric thermal modules, is particularly useful for the circulating-heating of surfing type foot bath water body.

Background technology:

Existing foot bath product is in the ascendant, is well received by consumers, and especially has Automatic-heating and temperature incubation function, for foot-immersing person, exempts the worry of changing water.The heating module of tradition foot bath is divided into two kinds, first embedded-type electric hot plate, and it two is continuous-flow type pipeline heater; The former directly is embedded in basin, and electric hot plate directly contacts with water, reaches the purpose of heating water; The latter, be namely to utilize current when the piping heater, is heated, and heat exchanger effectiveness is higher.Embedded-type electric thermal modules heating, rely on water in basin stream circulation heat-shift, the efficiency relative mistake some, and be difficult to form the outer circulation spray.How to improve deficiency of the prior art, namely become the object of the utility model research.

Summary of the invention:

The purpose of this utility model is that the ring flange of the outer side packing aluminum hull of a kind of heater of design is provided with the flowing water interface, is communicated with the inside and outside band pipelined channel embedded-type electric thermal modules of basin body.

Technical solutions of the utility model are achieved in that a kind of band pipelined channel embedded-type electric thermal modules, module bodies comprises heater and aluminum hull, described heater has heating part and electrode part, on the heating part of heater, be packaged with aluminum hull, the end of electrode part is exposed at outside aluminum hull, and disjunctor has ring flange on the aluminum hull that exposes electrode part one side, it is characterized in that ring flange is provided with the flowing water interface, this flowing water interface is communicated with inside and outside ring flange, forms pipelined channel.

Described heater is electrothermal tube, and the heating part of this electrothermal tube becomes helical structure to be encapsulated in aluminum hull, and the corresponding heating part spiral of this aluminum hull center forms the pipeline flowed for water body; Flowing water interface on described ring flange and described through hole are on same cross section.

Described flowing water interface one end is communicated with by tube connector with described through hole one end.

Described hot body is electrothermal tube, and the heating part of this electrothermal tube becomes the U-shaped construction packages in aluminum hull, on the aluminum hull between corresponding U-shaped bipod, forms the through hole flowed for water body; Described flowing water interface is located on the ring flange in heating part U-shaped bipod orthographic projection zone.

The heating part of described two electrothermal tubes becomes U-shaped structure individual packages in aluminum hull, and aluminum hull shares a ring flange; Described flowing water interface is located on two ring flanges between electrothermal tube.

Described heater is ceramic heating plate, and the heating part of this ceramic heating plate is encapsulated in aluminum hull.

Described two groups of ceramic heating plate individual packages are in aluminum hull, and aluminum hull shares a ring flange; Described flowing water interface is located on two groups of ring flanges between ceramic heating plate.

The utility model embedded-type electric thermal modules, offering a flowing water interface in order to be fixed on the ring flange on equipment, and this flowing water interface is communicated with external water pump, by water pump, water body is delivered to a high position, realizes spray or surfing function; By the suction of water pump, also accelerate the exchange of heater ambient water body heat; Moreover, also can utilize this flowing water Interface realization low level draining.

The accompanying drawing explanation:

Below in conjunction with concrete legend, the utility model is described further:

Fig. 1 spiral electrothermal tube embedded-type electric thermal modules schematic perspective view

Fig. 2 spiral electrothermal tube embedded-type electric thermal modules cross-sectional schematic

Fig. 3 spiral electrothermal tube through hole is communicated with schematic perspective view with the flowing water interface

Fig. 4 spiral electrothermal tube through hole is communicated with cross-sectional schematic with the flowing water interface

Fig. 5 U-shaped electrothermal tube embedded-type electric thermal modules schematic perspective view

Fig. 6 dual U-shaped electrothermal tube embedded-type electric thermal modules schematic perspective view

Fig. 7 ceramic heating plate embedded-type electric thermal modules schematic perspective view

The two ceramic heating plate embedded-type electric thermal modules schematic perspective views of Fig. 8

Wherein

1-aluminum hull, 11-ring flange, 12-through hole, 13-flowing water interface

14-tube connector, 2-heater, 21-heating part, 22-electrode part

3-temperature sensor

The specific embodiment:

Embodiment mono-:

See figures.1.and.2, be spiral electrothermal tube embedded-type electric thermal modules example, module bodies comprises aluminum hull 1 and heater 2, and heater is electrothermal tube, comprises heating part 21 and electrode part 22; 21 one-tenth helical structures of the heating part of this electrothermal tube are encapsulated in aluminum hull 1, and the corresponding heating part spiral of this aluminum hull 1 center forms the through hole 12 flow through for water body; The end of the electrode part 22 of described electrothermal tube is exposed at outside aluminum hull 1, aluminum hull 1 is in electrode part 22 1 side disjunctors the ring flange 11 perpendicular to electrode part 22, by this ring flange 11, electrothermal module can be embedded and to be arranged on equipment, as sealing, be arranged at the bottom of the basin of foot bath on; Described ring flange 11 is provided with flowing water interface 13, and this flowing water interface 13 is on same cross section with described through hole 12, can accelerate the through hole 12 that current flow through heating part spiral center; Utilize flowing water interface 13 to be communicated with inside and outside ring flange 11, form pipelined channel, can be communicated with external water pump, also can be used as drainage channel; In addition, temperature sensor 3 also is installed on ring flange 11.

Embodiment bis-:

With reference to Fig. 3 and Fig. 4, on the basis of upper example, flowing water interface 13 1 ends can be communicated with by tube connector 14 with described through hole 12 1 ends, by external water pump suction, can greatly accelerate the water velocity of heating part spiral central through hole 12, improve heat exchanger effectiveness.

Embodiment tri-:

With reference to Fig. 5, U-shaped electrothermal tube embedded-type electric thermal modules, heater 2 is electrothermal tube, 21 one-tenth U-shaped construction packages of the heating part of this electrothermal tube, in aluminum hull 1, form the through hole 12 flowed for water body on the aluminum hull 1 between corresponding U-shaped bipod; Aluminum hull 1 is in electrode part 22 1 side disjunctors the ring flange 11 perpendicular to electrode part 22, electrothermal module can be embedded and is arranged on equipment by this ring flange 11; On the ring flange 11 in the U-shaped bipod orthographic projection zone of heating part 21, offer flowing water interface 13, and on ring flange 11, temperature sensor 3 is installed.

As Fig. 6, on above-mentioned basis, heater 2 can also be two electrothermal tubes, and 21 one-tenth U-shaped structure individual packages of its heating part are in aluminum hull 1, and aluminum hull 1 shares a ring flange 11; Described flowing water interface 13 is located on two ring flanges 11 between electrothermal tube, also can accelerate the water velocity between two electrothermal tubes, accelerates heat exchange.

Embodiment tetra-:

With reference to Fig. 7, ceramic heating plate embedded-type electric thermal modules, heater 2 is ceramic heating plate, the heating part of this ceramic heating plate is encapsulated in aluminum hull 1, this aluminum hull 1 is in electrode part 22 1 side disjunctors the ring flange 11 perpendicular to electrode part 22, electrothermal module can be embedded and is arranged on equipment by this ring flange 11; On ring flange 11, be provided with flowing water interface 13 and temperature sensor 3 is installed.

As Fig. 8, on above-mentioned basis, heater 2 can also be two groups of ceramic heating plate individual packages in aluminum hull 1, aluminum hull 1 shares a ring flange 11; Described flowing water interface 13 is located on the ring flange 11 between two ceramic heating plates, to accelerate the water velocity between two ceramic heating plates, improves heat exchanger effectiveness.

Claims (7)

1. be with pipelined channel embedded-type electric thermal modules for one kind, module bodies comprises heater and aluminum hull, described heater has heating part and electrode part, on the heating part of heater, be packaged with aluminum hull, the end of electrode part is exposed at outside aluminum hull, and disjunctor has ring flange on the aluminum hull that exposes electrode part one side, it is characterized in that ring flange is provided with the flowing water interface, this flowing water interface is communicated with inside and outside ring flange, forms pipelined channel.

2. band pipelined channel embedded-type electric thermal modules according to claim 1, is characterized in that heater is electrothermal tube, and the heating part of this electrothermal tube becomes helical structure to be encapsulated in aluminum hull, and the corresponding heating part spiral of this aluminum hull center forms the pipeline flowed for water body; Flowing water interface on described ring flange and described through hole are on same cross section.

3. band pipelined channel embedded-type electric thermal modules according to claim 2, is characterized in that flowing water interface one end is communicated with by tube connector with described through hole one end.

4. band pipelined channel embedded-type electric thermal modules according to claim 1, is characterized in that hot body is electrothermal tube, and the heating part of this electrothermal tube becomes the U-shaped construction packages in aluminum hull, on the aluminum hull between corresponding U-shaped bipod, forms the through hole flowed for water body; Described flowing water interface is located on the ring flange in heating part U-shaped bipod orthographic projection zone.

5. band pipelined channel embedded-type electric thermal modules according to claim 4, is characterized in that the heating part of two electrothermal tubes becomes U-shaped structure individual packages in aluminum hull, and aluminum hull shares a ring flange; Described flowing water interface is located on two ring flanges between electrothermal tube.

6. band pipelined channel embedded-type electric thermal modules according to claim 1, is characterized in that heater is ceramic heating plate, and the heating part of this ceramic heating plate is encapsulated in aluminum hull.

7. according to the described band pipelined channel of claim 1 or 6 embedded-type electric thermal modules, it is characterized in that two groups of ceramic heating plate individual packages are in aluminum hull, aluminum hull shares a ring flange; Described flowing water interface is located on two groups of ring flanges between ceramic heating plate.

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