CN214009588U - Honeycomb ceramic heating body - Google Patents

Abstract

The utility model belongs to the water heating field provides a honeycomb ceramic heating body, which comprises a housin, the thermal cycle honeycomb pipeline, the honeycomb end cover of intaking, go out water honeycomb end cover, the end cover of intaking, go out water end cover and ceramic heating pipe, be equipped with odd number limbers on the thermal cycle honeycomb pipeline, the honeycomb end cover of intaking, be equipped with respectively on the play water honeycomb end cover with a first basin and the third basin corresponding with a limbers, several second basin and fourth basin corresponding with two limbers, be equipped with the first recess that corresponds with first basin or third basin on the end cover of intaking and the play water end cover, the second recess that corresponds with second basin or fourth basin, the limbers that first basin and third basin correspond link to each other. Compared with the prior art, the utility model discloses can realize that water makes a round trip to flow at thermal cycle honeycomb pipeline, increase the area of contact of water with the heating member, prolong the circulation route of water, make ceramic heating pipe more abundant with the heat exchange of water, improve the heating efficiency of water.

Description

Honeycomb ceramic heating body

Technical Field

The utility model belongs to the water heating field, concretely relates to honeycomb ceramic heating body.

Background

The existing household water heater comprises a solar water heater, an electric water heater, a gas water heater, an air energy water heater and the like, and an inner container of a water tank is mainly made of stainless steel, enamel, plastic, silica gel, rubber and the like. The stainless steel water tank has the defects that the welding seam is easy to corrode and leak water and the jacks of the heat collecting pipes made of thin materials are easy to deform; the enamel water tank has the defects of corrosion and water leakage after the porcelain layer falls off; plastic, silica gel and rubber water tanks have the defects of no high temperature resistance and easy deformation, and water has peculiar smell after being heated; in addition, the current water heater rivers mode is single, and heating efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that to prior art's current situation, and provide a honeycomb ceramic heating body.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: a honeycomb ceramic heating body is proposed, comprising:

a housing;

the thermal circulation honeycomb pipeline is arranged in the shell, and odd number of water through holes are formed in the periphery of the thermal circulation honeycomb pipeline and are honeycomb-shaped;

the water inlet honeycomb end cover is in threaded connection with one end of the thermal cycle honeycomb pipeline, a first water tank and a plurality of second water tanks are arranged on the water inlet honeycomb end cover, the size of the first water tank is consistent with that of one water through hole, the size of the second water tank is consistent with that of two water through holes, and when the water inlet honeycomb end cover is in threaded connection with one end of the thermal cycle honeycomb pipeline, the first water tank and the second water tank respectively correspond to the water through holes;

the water outlet honeycomb end cover is in threaded connection with one end of the thermal cycle honeycomb pipeline, the water outlet honeycomb end cover is provided with a third water tank and a plurality of fourth water tanks, the size of the third water tank is consistent with that of one water through hole, the size of the fourth water tank is consistent with that of two water through holes, when the water outlet honeycomb end cover is in threaded connection with the two ends of the thermal cycle honeycomb pipeline, the third water tank and the fourth water tank correspond to the water through holes respectively, and the water through holes corresponding to the first water tank are connected with the water through holes corresponding to the third water tank.

In foretell honeycomb ceramic heating body, the one end of casing corresponds intake honeycomb end cover, play water honeycomb end cover are equipped with into water end cover and play water end cover, the inboard of intake end cover and play water end cover all be equipped with intake honeycomb end cover and a plurality of second recess that play water honeycomb end cover corresponds, first recess with first basin or third basin are corresponding, the second recess with second basin or fourth basin are corresponding.

In the honeycomb ceramic heating body, the inner side edges of the water inlet end cover and the water outlet end cover are circumferentially provided with clamping grooves, the two sides of the inner side of the second groove are provided with limiting blocks, when the water inlet end cover or the water outlet end cover is connected to one side of the shell and the thermal circulation honeycomb pipeline, one end of the shell is clamped in the clamping grooves, and the limiting blocks are inserted into the second water tank or the fourth water tank.

In foretell honeycomb ceramic heating body, the inlet end cover outside is connected with the inlet tube, the inlet tube with first recess link up mutually, one side of inlet tube is connected with the sensor of intaking through first connecting block, the outlet end cover outside is connected with the outlet pipe, the outlet pipe with first recess link up mutually, one side of outlet pipe is connected with the sensor of going out through the second connecting block.

In the honeycomb ceramic heating body, the water inlet sensor and the water outlet sensor are both water temperature sensors.

In foretell honeycomb ceramic heating body, thermal cycle honeycomb pipeline center is equipped with first circular through-hole, intake honeycomb end cover, play water honeycomb end cover correspond the circular through-hole of second has all been seted up to first circular through-hole, the third circular through-hole has all been seted up at the center of intake end cover and play water end cover, be equipped with in the casing and pass the ceramic heating pipe of third circular through-hole, the circular through-hole of second and first circular through-hole.

In the above-mentioned honeycomb ceramic heating body, the case is provided with a terminal.

Compared with the prior art, the utility model has the advantages of:

(1) the honeycomb ceramic heating body of the utility model can realize the back and forth flow of water in the thermal circulation honeycomb pipeline by adopting the thermal circulation honeycomb pipeline, the honeycomb end cover and the end cover, thereby increasing the contact area of the water and the heating body, prolonging the circulation path of the water, leading the heat exchange between the ceramic heating pipe and the water to be more sufficient and improving the heating efficiency of the water;

(2) the utility model discloses a honeycomb ceramic heating body adopts ceramic heating pipe, and ceramic heating pipe electric heat conversion efficiency is high, and it is fast to heat up, high temperature resistant, corrosion-resistant, long service life, and dielectric strength is high, and pollution-free, free from extraneous odour can be compared about 30% energy-conservation with other electric heating element.

Drawings

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

fig. 2 is a schematic diagram of an explosive structure according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a thermal cycle honeycomb duct and inlet and outlet honeycomb end caps according to an embodiment of the present invention;

fig. 4 is a schematic view of the internal structure of the inlet end cap or the outlet end cap according to an embodiment of the present invention.

In the figure, 100-ceramic heating tube; 200-a housing; 210-thermal cycling honeycomb ducts; 211-vent; 212-a first circular through hole; 220-water inlet honeycomb end cover; 221-a first water tank; 222-a second water tank; 230-outlet honeycomb end cover; 231-a third water tank; 232-a fourth water tank; 240-water inlet end cover; 241-a water inlet pipe; 242 — first connection block; 243-water inflow sensor; 250-water outlet end cover; 251-a water outlet pipe; 252-a second connection block; 253-a water-out sensor; 300-a second circular through hole; 400-a first groove; 500-a second groove; 600-a card slot; 700-a limiting block; 800-a third circular through hole; 900-terminal.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1, 2 and 3, the honeycomb ceramic heating body includes: a housing 200; the thermal circulation honeycomb pipeline 210 is arranged inside the shell 200, and odd number of water through holes 211 are formed around the thermal circulation honeycomb pipeline 210 and are honeycomb-shaped; the water inlet honeycomb end cover 220 is in threaded connection with one end of the thermal circulation honeycomb pipeline 210, a first water tank 221 and a plurality of second water tanks 222 are arranged on the water inlet honeycomb end cover 220, the first water tank 221 is consistent with one water through hole 211 in size, the second water tank 222 is consistent with two water through holes 211 in size, and when the water inlet honeycomb end cover 220 is in threaded connection with one end of the thermal circulation honeycomb pipeline 210, the first water tank 221 and the second water tank 222 correspond to the water through holes 211 respectively; the water outlet honeycomb end cover 230 is in threaded connection with one end of the thermal circulation honeycomb pipeline 210, the water outlet honeycomb end cover 230 is provided with a third water tank 231 and a plurality of fourth water tanks 232, the size of the third water tank 231 is consistent with that of one water through hole 211, the size of the fourth water tank 232 is consistent with that of two water through holes 211, when the water outlet honeycomb end cover 230 is in threaded connection with the two ends of the thermal circulation honeycomb pipeline 210, the third water tank 231 and the fourth water tank 232 correspond to the water through holes 211 respectively, and the water through holes 211 corresponding to the first water tanks 221 are connected with the water through holes 211 corresponding to the third water tanks 231.

In the present embodiment, the heat-circulating honeycomb duct 210 is provided with 5 water passage holes 211, which are numbered as No. 1 water passage hole, No. 2 water passage hole, No. 3 water passage hole, No. 4 water passage hole, and No. 5 water passage hole in this order. The water inlet honeycomb end cover 220 is provided with a first water tank 221 and two second water tanks 222, the No. 1 water through hole 211 corresponds to the first water tank 221, the No. 2 and No. 3 water through holes 211 correspond to one second water tank 222, and the No. 4 and No. 5 water through holes 211 correspond to the other second water tank 222. The outlet honeycomb end cover 230 is provided with a third water tank 231 and two fourth water tanks 232, the No. 1 and No. 2 water through holes 211 correspond to one fourth water tank 232, the No. 3 and No. 4 water through holes 211 correspond to the other fourth water tank 232, and the No. 5 water through holes 211 correspond to the third water tank 231. In use, water flows from the first water tank 211 on the inlet end cover 220 into the No. 1 water through hole 211 of the thermal cycle honeycomb pipe 210, flows from the No. 1 water through hole 211 to the fourth water tank 232 of the outlet end cover 230, flows from the No. 1 water through hole 211 to the No. 2 water through hole 211 at the fourth water tank 232, flows to the second water tank 222 of the inlet end cover 220 through the No. 2 water through hole 211 at the second water tank 222, flows to the No. 3 water through hole 211 at the second water tank 222, flows to the fourth water tank 232 of the outlet end cover 230 through the No. 3 water through hole 211 at the fourth water tank 232, flows to the No. 4 water through hole 211 at the second water tank 222 of the inlet end cover 220, flows to the No. 5 water through hole 211 at the second water tank 222, and finally flows to the third water tank 231 of the outlet end cover 230 through the No. 5 water through hole, and exits the thermal cycle honeycomb duct 210 from the third water tank 231. The utility model discloses a thermal cycle honeycomb pipeline 210 and intake, play water honeycomb end cover realize that water makes a round trip 5 flows at thermal cycle honeycomb pipeline 210, make water and ceramic heating pipe carry out abundant heat exchange, have increased the area of contact of water with the heating member, have prolonged the circulation route of water, have improved the heating efficiency of water.

As shown in fig. 1, 2, and 4, one end of the housing 200 is provided with a water inlet end cover 240 and a water outlet end cover 250 corresponding to the water inlet honeycomb end cover 220 and the water outlet honeycomb end cover 230, the inner sides of the water inlet end cover 240 and the water outlet end cover 250 are provided with a first groove 400 and a plurality of second grooves 500 corresponding to the water inlet honeycomb end cover 220 and the water outlet honeycomb end cover 230, the first groove 400 corresponds to the first water tank 221 or the third water tank 231, and the second groove 500 corresponds to the second water tank 222 or the fourth water tank 232.

In this embodiment, the inner sides of the water inlet end cap 240 and the water outlet end cap 250 are respectively provided with a first groove 400 and two second grooves 500, the first groove 400 corresponds to the first water tank 221 or the third water tank 231, and the two second grooves 500 correspond to the two second water tanks 222 or the two fourth water tanks 232. The water flows in through the inlet end cover 240, flows through the first groove 400, flows into the No. 1 limber hole 211 through the first water tank 221 of the inlet honeycomb end cover 220, flows from the No. 1 limber hole 211 to the fourth water tank 232 of the outlet honeycomb end cover 230, flows out through the fourth water tank 232 to the second groove 500 at the outlet end cover 250, flows back to the fourth water tank 232 through the second groove 500, flows to the No. 2 limber hole 211 corresponding to the fourth water tank 232, flows from the No. 2 limber hole to the second water tank 222 of the inlet honeycomb end cover 220, flows out from the second water tank 222 to the second groove 500 at the inlet end cover 240, flows back to the second water tank 222 through the second groove 500, flows to the No. 3 limber hole 211 corresponding to the second water tank 222, flows through the No. 3 limber hole and the No. 4 limber hole, and flows back to the second water tank 222 through the second groove 500 at the inlet end cover 220, flows to the No. 5 water through hole 211 corresponding to the second water tank 222, and then flows to the third water tank 231 at the outlet honeycomb end cover 230 through the No. 5 water through hole, and flows out of the third water tank 231 to the first groove 400 of the outlet end cover 250. The water inlet end cover 240 and the water outlet end cover 250 are arranged at one end of the water inlet honeycomb end cover 220 and one end of the water outlet honeycomb end cover 230, the first groove 400 and the second groove 500 are arranged on the water inlet end cover 240 and the water outlet end cover 250, backflow of water at the second water tank 222 and the fourth water tank 232 is achieved, multiple back-and-forth flows of water in the thermal circulation honeycomb pipeline 210 are achieved, the contact area of the water and a heating body is increased, the circulation path of the water is prolonged, and the heating efficiency of the water is improved.

As shown in fig. 4, the inner side edges of the water inlet end cover 240 and the water outlet end cover 250 are both provided with a clamping groove 600 along the circumferential direction, the inner sides of the second groove 500 are both provided with a limiting block 700, when the water inlet end cover 240 or the water outlet end cover 250 is connected to one side of the housing 200 and the thermal cycling honeycomb pipeline 210, one end of the housing 200 is clamped in the clamping groove 600, and the limiting block 700 is inserted into the second water tank 222 or the fourth water tank 232.

When the water inlet end cover 240 or the water outlet end cover 250 is connected to one side of the housing 200 and the thermal cycle honeycomb pipeline 210, one end of the housing 200 is clamped in the clamping groove 600 at the inner side of the water inlet end cover 240 or the water outlet end cover 250, and only when the first groove 400 at the inner side of the water inlet end cover 240 or the water outlet end cover 250 corresponds to the first water tank 221 or the third water tank 231, the second groove 500 at the inner side of the water inlet end cover 240 or the water outlet end cover 250 corresponds to the second water tank 222 or the fourth water tank 232, at this time, the limiting blocks 700 at the two sides at the inner side of the second groove 500 can be clamped at the two sides in the second water tank 222 or the fourth water tank 232, and the clamping groove 600 at the water inlet end cover 240 or the water outlet end cover 250 can be tightly connected with the housing, so as to prevent the device from leaking water. Therefore, the positioning block 700 is arranged to ensure the positioning and installation of the water inlet end cover 240 and the water outlet end cover 250, the water inlet honeycomb end cover 220 and the water outlet honeycomb end cover 230, and ensure the smoothness of water flow.

As shown in fig. 1, 2 and 4, a water inlet pipe 242 is connected to the outer side of the water inlet end cover 240, the water inlet pipe 241 is communicated with the first groove 400, a water inlet sensor 243 is connected to one side of the water inlet pipe 241 through the first connecting block 242, a water outlet pipe 251 is connected to the outer side of the water outlet end cover 250, the water outlet pipe 251 is communicated with the first groove 400, and a water outlet sensor 253 is connected to one side of the water outlet pipe 251 through the second connecting block 252.

The water inlet pipe 241 is communicated with the first groove 400, and the water flows into the first groove 400 of the water inlet end cover 240 through the water inlet pipe 241, flows into the No. 1 water through hole 211 of the thermal cycle honeycomb pipeline 210 from the first groove 400 through the first water tank 221 of the water inlet honeycomb end cover 220, and then starts to flow back and forth among the thermal cycle honeycomb pipeline 210, the water inlet honeycomb end cover 220, the water inlet end cover 240, the water outlet honeycomb end cover 230 and the water inlet end cover 250. And finally, the water flows to the third water tank 231 at the water outlet honeycomb end cover 230 through the No. 5 limber hole, flows out of the third water tank 231 and flows to the first groove 400 of the water outlet end cover 250, the water outlet pipe 251 is communicated with the first groove 400, and the water flows out of the water outlet pipe 251.

As shown in fig. 1 and 2, the water inlet sensor 243 and the water outlet sensor 254 are both water temperature sensors.

A water inlet sensor 243 is arranged at the position of the water inlet pipe 242, which can prejudge the temperature of the inflowing water and is convenient for setting the time required for heating; the water outlet sensor 254 is arranged at the water outlet pipe 241, so that the temperature of the water body at the water outlet pipe 254 can be conveniently measured, and a user can conveniently select to continue heating or stop heating as required.

As shown in fig. 3 and 4, a first circular through hole 212 is formed in the center of the thermal circulation honeycomb pipeline 210, second circular through holes 300 are formed in the water inlet honeycomb end cover 220 and the water outlet honeycomb end cover 230 corresponding to the first circular through hole 212, third circular through holes 800 are formed in the centers of the water inlet end cover 240 and the water outlet end cover 250, and a ceramic heating pipe 100 penetrating through the third circular through hole 800, the second circular through hole 300 and the first circular through hole 212 is arranged in the casing 200.

The ceramic heating pipe 100 which runs through the thermal cycle honeycomb pipeline 210, the water inlet honeycomb end cover 220, the water outlet honeycomb end cover 230, the water inlet end cover 240 and the water outlet end cover 250 is arranged, the water in all parts of the heating body can be heated, the contact area of the ceramic heating pipe 100 and the water is increased, the heating efficiency is improved, the ceramic heating pipe is adopted, the electric heat conversion efficiency is high, the temperature is fast increased, the temperature is high, the corrosion is resistant, the service life is long, the insulation strength is high, no pollution is caused, no peculiar smell exists, and the energy can be saved by about 30% compared with other electric heating elements.

As shown in fig. 1, the housing 200 is provided with a terminal 900.

The ceramic heating tube 100 is connected to an external power source through the terminal 900, so that water inside the heating body is heated.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein will be apparent to those skilled in the art without departing from the scope and spirit of the invention as defined in the accompanying claims.

Claims (7)

1. Honeycomb ceramic heating body, its characterized in that includes:

a housing;

the thermal circulation honeycomb pipeline is arranged in the shell, and odd number of water through holes are formed in the periphery of the thermal circulation honeycomb pipeline and are honeycomb-shaped;

the water inlet honeycomb end cover is in threaded connection with one end of the thermal cycle honeycomb pipeline, a first water tank and a plurality of second water tanks are arranged on the water inlet honeycomb end cover, the size of the first water tank is consistent with that of one water through hole, the size of the second water tank is consistent with that of two water through holes, and when the water inlet honeycomb end cover is in threaded connection with one end of the thermal cycle honeycomb pipeline, the first water tank and the second water tank respectively correspond to the water through holes;

the water outlet honeycomb end cover is in threaded connection with one end of the thermal cycle honeycomb pipeline, the water outlet honeycomb end cover is provided with a third water tank and a plurality of fourth water tanks, the size of the third water tank is consistent with that of one water through hole, the size of the fourth water tank is consistent with that of two water through holes, when the water outlet honeycomb end cover is in threaded connection with the two ends of the thermal cycle honeycomb pipeline, the third water tank and the fourth water tank correspond to the water through holes respectively, and the water through holes corresponding to the first water tank are connected with the water through holes corresponding to the third water tank.

2. A honeycomb ceramic heater as claimed in claim 1, wherein one end of the housing is provided with a water inlet end cap and a water outlet end cap corresponding to the water inlet honeycomb end cap and the water outlet honeycomb end cap, the inner sides of the water inlet end cap and the water outlet end cap are provided with a first groove and a plurality of second grooves corresponding to the water inlet honeycomb end cap and the water outlet honeycomb end cap, the first groove corresponds to the first water tank or the third water tank, and the second groove corresponds to the second water tank or the fourth water tank.

3. A honeycomb ceramic heater as set forth in claim 2, wherein the inner side edges of the inlet end cap and the outlet end cap are provided with a groove along the circumferential direction, the inner sides of the second groove are provided with a stopper, when the inlet end cap or the outlet end cap is connected to one side of the housing and the thermal cycle honeycomb duct, one end of the housing is clamped in the groove, and the stopper is inserted into the second water tank or the fourth water tank.

4. A honeycomb ceramic heating body according to claim 2, wherein a water inlet pipe is connected to the outside of the water inlet end cover, the water inlet pipe is communicated with the first groove, a water inlet sensor is connected to one side of the water inlet pipe through a first connecting block, a water outlet pipe is connected to the outside of the water outlet end cover, the water outlet pipe is communicated with the first groove, and a water outlet sensor is connected to one side of the water outlet pipe through a second connecting block.

5. A honeycomb ceramic heater as set forth in claim 4, wherein the water inlet sensor and the water outlet sensor are both water temperature sensors.

6. A honeycomb ceramic heating body as claimed in claim 2, wherein the thermal cycle honeycomb pipe has a first circular through hole at the center, the inlet end cap and the outlet end cap have a second circular through hole corresponding to the first circular through hole, the inlet end cap and the outlet end cap have a third circular through hole at the center, and the housing has a ceramic heating pipe passing through the third circular through hole, the second circular through hole and the first circular through hole.

7. A honeycomb ceramic heating body as set forth in claim 6, wherein the case is provided with a terminal.

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