CN218845296U - Water inlet heating cavity for electric heating faucet - Google Patents

Abstract

The utility model discloses an inlet heating cavity for an instant heating electric heating faucet, which comprises a heating cavity body, wherein a water delivery cavity is integrally connected to one side of the heating cavity body and the position close to the lower end of the heating cavity body, and the heating cavity body and the water delivery cavity are vertically arranged; a water inlet pipe is integrally connected below the water delivery cavity, and a plugging anti-freezing component is arranged above the heating cavity body; the utility model has the advantages of simple integral structure, convenient to use wholly makes things convenient for preparation and production, can improve heating effect and heat conversion efficiency to the effect of preventing frostbite has.

Description

Water inlet heating cavity for electric heating faucet

Technical Field

The utility model belongs to the technical field of electric heating faucet, specific theory relates to an electric heating faucet is with heating cavity of intaking.

Background

With the development of society and the improvement of the living standard of people, tap water with natural temperature can not meet the daily life needs of people, and a water supply mode of simultaneously supplying cold water and hot water becomes a real life target pursued by people more and more. However, most living areas do not have hot water supply conditions, or most of the heating devices are electric heating, gas heating and solar heating, such as electric water heaters, gas water heaters, solar water heaters and the like.

In order to solve the technical problem, an instant heating tap has appeared on the market, for CN202220179289.8 as patent application number, disclose an electric heating device of electric heating tap, which comprises a housing, display panel is installed to the left side surface embedding of casing, and the internally mounted of casing has the inner core, the base of intaking is installed to the lower extreme of inner core, the internally mounted of the base of intaking has water flow switch to always hold, and the externally mounted of the base of intaking has the base cushion, the electric wire frame is installed to the below that the outside of the base of intaking is located the base cushion.

The electric heating device of the existing electric heating faucet can be used for heating cold water to obtain hot water, but the existing heating assembly uses the heating pipe, the whole structure of the heating pipe comprises the external metal pipe and the internal heating wire, the heating wire is electrified to heat the heating pipe, if the heating pipe has sand holes or cracks, water can directly flow into the heating pipe to be contacted with the heating wire, so that the water is electrified, the electric leakage phenomenon is easy to occur, scale is easy to generate in the working process, the heat efficiency is reduced, the power consumption is increased, and the use effect is influenced; the existing heating cavity is complex in overall structure, high in production cost and high in use cost.

SUMMERY OF THE UTILITY MODEL

The to-be-solved main technical problem of the utility model is to provide an overall structure is simple, convenient to use, whole convenient preparation and production can improve heating effect and heat conversion efficiency to the electrical heating tap that has the effect of preventing frostbite heats the cavity with intaking.

In order to solve the technical problem, the utility model provides a following technical scheme:

a water inlet heating cavity for an electric heating faucet comprises a heating cavity body, wherein a water delivery cavity is integrally connected to one side of the heating cavity body and is close to the lower end of the heating cavity body, and the heating cavity body and the water delivery cavity are vertically arranged; the lower part of the water delivery cavity is integrally connected with a water inlet pipe, and the upper part of the heating cavity body is provided with a plugging anti-freezing component.

The following is the utility model discloses to above-mentioned technical scheme's further optimization:

two heating chambers arranged in parallel are arranged in the heating chamber main body, a partition plate is arranged between the two heating chambers in the heating chamber main body, an opening is formed in the upper end of the partition plate, and the two heating chambers are communicated through the opening above.

Further optimization: the corner locating piece is installed to the upper end of baffle, installs same heater strip between two heating chambeies, and the middle part of this heater strip is buckled along the upper end of corner locating piece, makes the both ends of heater strip set up respectively in two heating chambeies.

Further optimization: the lower extreme of heating chamber main part and the corresponding position punishment in two heating chambers have seted up the mounting hole respectively, and the mounting hole runs through heating chamber main part, and sealing installation has binding post respectively in two mounting holes, the both ends of heater strip respectively with corresponding binding post electric connection.

And (4) further optimizing: a first plugging cavity is formed in the heating cavity body and located above the partition plate, and a plugging anti-freezing assembly is installed in the first plugging cavity.

Further optimization: the plugging anti-freezing component comprises a plugging head, and the outer surface of the plugging head is connected with the inner surface of the first plugging cavity in a sealing manner; the upper part of the plugging head and the positions corresponding to the two heating cavities are respectively provided with an anti-freezing cavity, the lower ends of the two anti-freezing cavities are respectively provided with a first communication hole, and the lower end of each first communication hole penetrates through the lower end face of the plugging head and is communicated with the corresponding heating cavity.

Further optimization: the anti-freezing cavity is internally provided with a first blocking head in a sliding and sealing mode, and the first blocking head can slide in the anti-freezing cavity and can be used for adjusting the water storage cavity of the anti-freezing cavity.

Further optimization: and the upper end of the first plugging head is provided with a jacking spring, and the jacking spring outputs elastic force to jack the first plugging head to move towards one side close to the first communication hole.

And (4) further optimizing: the water delivery cavity is internally provided with a water inlet connecting cavity and a hot water output cavity, the water inlet connecting cavity and the hot water output cavity are independent cavities respectively, and one ends of the water inlet connecting cavity and the hot water output cavity, which are close to the two heating cavities, penetrate through the heating cavity body respectively and are communicated with the corresponding heating cavities.

And (4) further optimizing: the water inlet pipe is arranged below the water delivery cavity, and one end of the water inlet pipe close to the water delivery cavity is communicated with the water inlet connecting cavity; the position of the water delivery cavity body close to the hot water output cavity is provided with a temperature measuring hole and a water outlet hole, and the temperature measuring hole and the water outlet hole are respectively communicated with the hot water output cavity.

The utility model adopts the above technical scheme, think about ingenious, rational in infrastructure, overall structure is simple, the equipment is convenient to install, and can prevent because of the quality of heating pipe the electric leakage phenomenon, adopt the heater strip to heat directly, can improve heating efficiency, and can make full use of the relation of voltage and resistance through the water delivery electricity-proof wall subassembly, through the water course that prolongs the water delivery electricity-proof wall subassembly, and then the resistance of extension water; the anti-electricity-leakage protection device is used on the premise that the total passing voltage is not changed, so that the passing current is reduced to the safe output voltage, the anti-electricity function is realized, the use effect is improved, and the electric leakage phenomenon is avoided.

The plugging anti-freezing component has an anti-freezing effect, when the plugging anti-freezing component is not used for a long time in winter and water in the heating cavity is frozen, the plugging anti-freezing component can self-adapt to volume expansion caused by freezing, so that the heating cavity is prevented from being frozen, the safety is improved, and the using effect is improved.

The present invention will be further described with reference to the accompanying drawings and examples.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the embodiment of the present invention;

fig. 2 is a schematic view of another perspective of the overall structure in the embodiment of the present invention;

fig. 3 is a cross-sectional view of the general structure in an embodiment of the invention;

FIG. 4 is a sectional view of the hot water output chamber according to the embodiment of the present invention;

FIG. 5 is a sectional view of the water inlet connection cavity in the embodiment of the present invention;

fig. 6 is a schematic structural view of the water delivery electricity-proof wall component in the embodiment of the present invention.

In the figure: 21-heating the chamber body; 211-a heating chamber; 212-a separator; 213-heating wire; 214-corner locating blocks; 215-a connection terminal; 216-a first occlusion lumen; 217-blocking head; 218-a freeze-protected chamber; 219 — a first via hole; 2111-first stopper head; 2112-top spring; 22-a water delivery cavity; 221-water inlet connecting cavity; 222-a hot water output cavity; 223-a second occlusion lumen; 225-first connection mount; 2251-a first counterbore; 226-a second connection receptacle; 2261-circular sink; 2262-annular projection; 2263-second communication hole; 227-thermometric hole; 228-water outlet; 229-connecting column; 23-a water inlet pipe; 5-a water delivery electricity-proof wall assembly; 51-water delivery pressure reducing pipe; 52-a connector; 53-bubbler.

Detailed description of the preferred embodiments

As shown in fig. 1 to 6, an inlet water heating cavity for an electric heating faucet comprises a heating cavity main body 21, a water delivery cavity 22 is integrally connected to one side of the heating cavity main body 21 and a position close to the lower end of the heating cavity main body, and the heating cavity main body 21 and the water delivery cavity 22 are vertically arranged; a water inlet pipe 23 is integrally connected below the water delivery cavity 22, and a plugging anti-freezing assembly is installed above the heating cavity main body 21.

Two heating cavities 211 which are arranged in parallel are arranged in the heating cavity main body 21, a partition plate 212 is arranged between the two heating cavities 211 in the heating cavity main body 21, and the partition plate 212 is used for separating the two heating cavities 211.

An opening is formed at the upper end of the partition 212, and the two heating cavities 211 are communicated through the upper opening.

The same heating wire 213 is installed between the two heating cavities 211, and the middle of the heating wire 213 is bent along the upper end of the partition 212, so that the two ends of the heating wire 213 are respectively disposed in the two heating cavities 211.

By such design, the heating wire 213 can be arranged in the two heating cavities 211 through one heating wire 213, so as to facilitate assembly and installation.

Corner locating piece 214 is installed to the upper end of baffle 212, the upper end of corner locating piece 214 is the arcwall face, can lead the department of buckling of heater strip 213 through the arcwall face, facilitates the use.

The corner positioning block 214 is made of a high-temperature-resistant insulating flame-retardant material, so that the outer surface of the heating wire 213 can be separated from the partition plate 212 and the inner surface of the heating cavity 211 through the corner positioning block 214, the heating wire 213 is prevented from directly contacting the inner surface of the heating cavity 211, and the using effect is improved.

The lower extreme of heating chamber main part 21 and the corresponding position punishment of two heating chambers 211 have seted up the mounting hole respectively, the mounting hole runs through heating chamber main part 21, two mounting holes communicate with corresponding heating chamber 211 respectively.

The two mounting holes are respectively provided with a connecting terminal 215 in a sealing manner, and two ends of the heating wire 213 are respectively electrically connected with the corresponding connecting terminals 215.

The lower end of the connection terminal 215 penetrates through the mounting hole of the heating cavity body 21 and extends to the outside to be electrically connected with an external power line.

After the external power line is connected with the external power supply, the heating wire 213 can be powered on to work, and the heating wire 213 is powered on to work to heat the water source flowing through the two heating cavities 211.

A first blocking cavity 216 is formed in the heating cavity main body 21 above the partition 212, and the blocking and anti-freezing assembly is installed in the first blocking cavity 216.

The plugging anti-freezing assembly comprises a plugging head 217, the outer surface of the plugging head 217 is matched with the inner surface of the first plugging cavity 216, and the outer surface of the plugging head 217 is connected with the inner surface of the first plugging cavity 216 in a sealing mode through a sealing ring.

A first bolt hole is formed in the heating cavity main body 21 at a position close to the first blocking cavity 216, and a second bolt hole is formed in the blocking head 217 at a position corresponding to the first bolt hole.

After the plugging head 217 is installed in the first plugging chamber 216, the lower end of the plugging head 217 is fixedly installed in the first plugging chamber 216 by inserting the grounding bolt 10 into the first bolt hole and the second bolt hole.

The positions above the blocking heads 217 corresponding to the two heating cavities 211 are respectively provided with an anti-freezing cavity 218, and the lower ends of the two anti-freezing cavities 218 are respectively provided with a first communication hole 219.

The lower end of the first communication hole 219 penetrates the lower end of the blocking head 217, and the two anti-freezing cavities 218 are respectively communicated with the corresponding heating cavities 211 through the corresponding first communication holes 219.

The diameter of the inner surface of the first communication hole 219 is smaller than that of the anti-freezing chamber 218.

A first plugging head 2111 is slidably and hermetically mounted in the anti-freezing cavity 218,the first blocking head 2111 is antifreezing Sliding within the cavity 218 can be used to adjust the water storage cavity of the freeze protection cavity 218.

The upper end of the first plugging head 2111 is provided with a jacking spring 2112, and the jacking spring 2112 outputs elastic force for jacking the first plugging head 2111 to move towards one side close to the first communication hole 219.

The upper end of the top connection spring 2112 is connected with the shell of the inlet water heating cavity for the electric heating water faucet, and the shell provides supporting force for the top connection spring 2112.

Design like this, when using, when being in the winter, heating chamber 211 content is easily frozen, when the phenomenon of freezing appears in heating chamber 211, the frozen water's of this back volume increase of freezing in the heating chamber 211, during the increase of water volume this moment, water accessible first through-hole 219 is carried to in preventing frostbite chamber 218, the water in the chamber 218 of preventing frostbite this moment can push up and move first stopper 2111 and shift up, first stopper 2111 is used for compressing top and connects spring 2112 this moment, and then realizes providing the space to the volume increase after the water freezes, prevents that frost crack phenomenon from appearing in heating chamber main part 21, and then improves the result of use.

When the frozen water is melted, the pressure in the anti-freezing cavity 218 is reduced, the propping spring 2112 outputs elastic force, and the first plugging head 2111 is pushed to move towards the side close to the first communication hole 219, so that the use is convenient, the use effect is improved, and the whole service life can be prolonged.

The water delivery cavity 22 and the heating cavity main body 21 are vertically arranged, and the water delivery cavity 22 is arranged on the heating cavity main body 21 and close to the lower end of the heating cavity main body.

The water delivery cavity 22 is internally provided with a water inlet connecting cavity 221 and a hot water output cavity 222, the water inlet connecting cavity 221 and the hot water output cavity 222 are independent cavities respectively, and the water inlet connecting cavity 221 and the hot water output cavity 222 are not communicated with each other.

One ends of the water inlet connection chamber 221 and the hot water output chamber 222 close to the two heating chambers 211 respectively penetrate through the heating chamber main body 21 and are communicated with the corresponding heating chambers 211.

The cold water in the water inlet connection cavity 221 firstly enters the corresponding heating cavity 211, at this time, the cold water in the heating cavity 211 flows into the other heating cavity 211 through the upper part of the corner positioning block 214, and at this time, the cold water flowing in the two heating cavities 211 can be heated by the operation of the heating wire 213.

And the cold water heated in the heating cavity 211 is delivered to the hot water output cavity 222, so that the hot water is output, and the use is convenient.

A second blocking cavity 223 is formed in one end, far away from the heating cavity body 21, of the water delivery cavity 22, and the ends, far away from the heating cavity body 21, of the water inlet connecting cavity 221 and the hot water output cavity 222 are communicated with the second blocking cavity 223.

A second blocking head is arranged in the second blocking cavity 223, and is used for blocking one end, away from the heating cavity main body 21, of the water inlet connecting cavity 221 and the hot water output cavity 222, so that the use is convenient.

The second plugging heads are used for plugging the water inlet connecting cavity 221 and the hot water output cavity 222 respectively, so that the water inlet connecting cavity 221 and the hot water output cavity 222 can be prevented from being communicated at the position, and the using effect is improved.

The water inlet pipe 23 is arranged below the water delivery cavity 22, a through hole is formed in the position, corresponding to the water inlet pipe 23, in the water inlet connecting cavity 221, and one end, close to the water delivery cavity 22, of the water inlet pipe 23 is communicated with the water inlet connecting cavity 221 through the through hole.

The through hole and the water inlet pipe 23 are arranged coaxially.

A first connecting seat 225 is integrally installed on the water delivery cavity 22, the first connecting seat 225 and the water inlet pipe 23 are coaxially arranged, and a first counter bore 2251 is formed in the first connecting seat 225; the first counter bore 2251 is arranged coaxially with the water inlet pipe 23.

The first counterbore 2251 is in communication with the inlet conduit 23.

The water delivery cavity 22 is integrally provided with a second connecting seat 226, the second connecting seat 226 is provided with a circular sinking groove 2261, and the inner bottom surface of the circular sinking groove 2261 is integrally connected with an annular protrusion 2262.

A second communication hole 2263 is formed in the inner bottom surface of the circular sinking groove 2261 and located in the middle of the annular protrusion 2262, and the second communication hole 2263 is communicated with the water inlet connection cavity 221.

Cold water in the water inlet connection chamber 221 can automatically flow into the circular sinking groove 2261 through the second communication hole 2263 under the action of water pressure.

A temperature measuring hole 227 and a water outlet hole 228 are formed in the water delivery cavity 22 at positions close to the hot water output cavity 222, and the temperature measuring hole 227 and the water outlet hole 228 are respectively communicated with the hot water output cavity 222.

With this arrangement, the hot water in the hot water outlet chamber 222 can enter the temperature measuring hole 227 and the water outlet hole 228, and then is output through the water outlet hole 228.

The temperature measuring device is characterized in that a temperature measuring sensor can be mounted at the position of the temperature measuring hole 227, the temperature measuring sensor is electrically connected with a display screen, a copper tube is sleeved on the temperature measuring end of the temperature measuring sensor, heat conducting glue is filled between the copper tube and the temperature measuring end, and the copper tube is hermetically mounted in the temperature measuring hole 227.

At this time, when the hot water in the hot water output cavity 222 flows through the temperature measuring hole 227, the temperature measuring sensor is used for detecting the temperature of the hot water in the hot water output cavity 222, and a detection signal is sent to the display screen, and the display screen is used for displaying the detection temperature, so that the use is convenient.

A plurality of connecting columns 229 are integrally connected to the water delivery cavity 22, and threaded holes are formed in the connecting columns 229.

In this embodiment, the water outlet hole 228 is communicated with a water delivery electricity-proof wall assembly 5, the water delivery electricity-proof wall assembly 5 includes a water delivery pressure reducing pipe 51, one end of the water delivery pressure reducing pipe 51 is communicated with the water outlet hole 228, and the other end of the water delivery pressure reducing pipe 51 is connected with the connector 52.

The water delivery pressure reducing pipe 51 is made of a plastic hose.

The overall length of the water-conveying pressure-reducing pipe 51 is 197mm-500mm, and the diameter of the cross section of the water-conveying pressure-reducing pipe 51 is 6mm.

Design like this, accessible water delivery step-down pipe 51 can reduce the electric energy that heater strip 213 conducted to aquatic, makes power frequency 220V municipal voltage reduce to below the safe voltage of 5V, and then can prevent the electric leakage phenomenon.

In the present embodiment, the voltage and resistance relationship is used to extend the resistance of the water by extending the water passage of the water delivery pressure reducing pipe 51; the voltage-reducing switch is used on the premise that the total voltage passing through the switch is not changed, so that the passing current is reduced, and the electricity-preventing function is realized.

The end of the connector 52 far away from the water delivery pressure reducing pipe 51 is provided with a bubbler 53.

In this embodiment, the bubbler 53 has resistance, and the resistance acts on the water flow in the water pressure reducing pipe 51, so as to reduce the water flow speed and improve the heating effect in the heating chamber 211.

In this embodiment, in order to ensure safety during use, the connector 52 is made of a metal material, and a ground wire is connected to the connector 52, so as to improve safety during use.

In this embodiment, the water inlet pipe 23 is provided with an external thread, and the water inlet pipe 23 is connected with the municipal water pipeline through thread matching.

Outside this embodiment, the external screw thread has been seted up on the inlet tube 23, inlet tube 23 threaded connection has the outer pipe of taking over.

And the external connecting pipe is a metal pipe, external threads are arranged on the outside of the external connecting pipe, and the external connecting pipe is connected with the municipal water pipeline through thread matching.

Design like this, the accessible is taken over outward and is improved the overall structure intensity and the life of inlet tube 23 to improve inlet tube 23 and municipal administration hydraulic line's joint strength, improve the result of use.

As shown in fig. 1-6When the heating device is used, the water inlet pipe 23 is firstly connected with the municipal water pipeline through thread matching, when hot water is needed, the water inlet pipe 23 can be opened, at the moment, cold water enters the heating cavity 211 through the water inlet pipe 23 and the water inlet connecting cavity 221, then the heating wire 213 is started, the heating wire 213 works to heat water flowing in the heating cavity 211, the heated water enters the hot water output cavity 222 and is then discharged from the water outlet hole 228, and at the moment, the water outlet hole 228 outputs hot water.

And the hot water output from the water outlet hole 228 enters the water delivery pressure reducing pipe 51, at this time, the water delivery pressure reducing pipe 51 can reduce the voltage of the electric energy conducted to the water by the heating wire 213, so that the power frequency 220V municipal voltage is reduced to a safe voltage below 5V, and further, the electric leakage phenomenon can be prevented; the hot water is then output through a water pressure reducing pipe 51, a connector 52 and a bubbler 53.

For those skilled in the art, based on the teachings of the present invention, changes, modifications, substitutions and variations can be made to the embodiments without departing from the principles and spirit of the invention.

Claims (10)

1. The utility model provides an electrical heating is intake heating cavity for tap which characterized in that: the heating cavity comprises a heating cavity body (21), wherein a water delivery cavity body (22) is integrally connected to one side of the heating cavity body (21) and is close to the lower end of the heating cavity body, and the heating cavity body (21) and the water delivery cavity body (22) are vertically arranged; a water inlet pipe (23) is integrally connected below the water delivery cavity (22), and a plugging anti-freezing component is installed above the heating cavity main body (21).

2. The inlet heating chamber for the electrically heated faucet of claim 1, wherein: two heating chambers (211) which are arranged in parallel are arranged in the heating chamber main body (21), a partition plate (212) is arranged between the two heating chambers (211) in the heating chamber main body (21), an opening is formed in the upper end of the partition plate (212), and the two heating chambers (211) are communicated through the openings above.

3. The inlet heating chamber for the electrically heated faucet of claim 2, wherein: the heating device is characterized in that a corner positioning block (214) is installed at the upper end of the partition plate (212), the same heating wire (213) is installed between the two heating cavities (211), the middle of the heating wire (213) is bent along the upper end of the corner positioning block (214), and two ends of the heating wire (213) are respectively arranged in the two heating cavities (211).

4. The inlet heating chamber for the electrically heated faucet of claim 3, wherein: the lower extreme of heating chamber main part (21) and the corresponding position punishment in two heating chambers (211) have seted up the mounting hole respectively, and the mounting hole runs through heating chamber main part (21), and sealing installation has binding post (215) respectively in two mounting holes, the both ends of heater strip (213) respectively with corresponding binding post (215) electric connection.

5. The inlet heating chamber of claim 4, wherein: a first blocking cavity (216) is formed in the heating cavity main body (21) and located above the partition plate (212), and the blocking anti-freezing assembly is installed in the first blocking cavity (216).

6. The inlet heating chamber of claim 5, wherein: the plugging anti-freezing assembly comprises a plugging head (217), and the outer surface of the plugging head (217) is connected with the inner surface of the first plugging cavity (216) in a sealing mode; the positions, corresponding to the two heating cavities (211), above the blocking head (217) are respectively provided with an anti-freezing cavity (218), the lower ends of the two anti-freezing cavities (218) are respectively provided with a first communication hole (219), and the lower end of the first communication hole (219) penetrates through the lower end face of the blocking head (217) to be communicated with the corresponding heating cavity (211).

7. The inlet heating chamber of claim 6, wherein: a first blocking head (2111) is installed in the anti-freezing cavity (218) in a sliding and sealing mode, and the first blocking head (2111) slides in the anti-freezing cavity (218) and can be used for adjusting a water storage cavity of the anti-freezing cavity (218).

8. The inlet heating chamber of claim 7, wherein: and the upper end of the first blocking head (2111) is provided with a jacking spring (2112), and the jacking spring (2112) outputs elastic force for jacking the first blocking head (2111) to move towards one side close to the first communicating hole (219).

9. The inlet heating chamber of claim 8, wherein: water inlet connection cavity (221) and hot water output cavity (222) are arranged in the water conveying cavity (22), the water inlet connection cavity (221) and the hot water output cavity (222) are independent cavities respectively, and one ends of the water inlet connection cavity (221) and the hot water output cavity (222) close to the two heating cavities (211) penetrate through the heating cavity body (21) respectively and are communicated with the corresponding heating cavities (211).

10. The inlet heating chamber of claim 9, wherein: the water inlet pipe (23) is arranged below the water delivery cavity (22), and one end, close to the water delivery cavity (22), of the water inlet pipe (23) is communicated with the water inlet connecting cavity (221); a temperature measuring hole (227) and a water outlet hole (228) are formed in the position, close to the hot water output cavity (222), of the water conveying cavity (22), and the temperature measuring hole (227) and the water outlet hole (228) are respectively communicated with the hot water output cavity (222).

Images