CN210007913U - graphite alkene generate heat board and graphite alkene hot water system - Google Patents

Abstract

The utility model discloses an graphite alkene heating panel and graphite alkene hot water equipment, relate to hot water heating equipment field, including the heating panel body, the electrical connector, the outer silk of hexagonal connects, the wire, the conduit and set firmly in the fixed plate of hot-water tank, this body coupling of heating panel is provided with two electrical connector, and the heating panel body overlaps in electrical connector's outside and is equipped with the outer silk of hexagonal connects, two outer silk of hexagonal connect all through activity joint sealing connection have conduit, two conduit's end all seals in addition and wears to locate the fixed plate, the wire that is connected with electrical connector connects through the outer silk of hexagonal, conduit and fixed plate extend to the outside of hot-water tank after.

Description

graphite alkene generate heat board and graphite alkene hot water system

Technical Field

The utility model relates to a hot water heating equipment field, more specifically kinds of graphite alkene generate heat board and graphite alkene hot water system.

Background

In the prior art, hot water heating is mainly carried out by a boiler, a gas furnace and an electric heating structure, mainly equipment for transferring heat generated by mass energy, electric energy and electromagnetic energy to cold fluid plays an important role in chemical industry, petroleum, textile, pharmacy, heating, food, planting, breeding and a plurality of industrial productions, but the existing hot water heating equipment has the defects of high energy consumption, low heat energy conversion efficiency and the like, and meanwhile, equipment mainly based on mass energy also has environmental influence in use.

Disclosure of Invention

The utility model discloses an graphite alkene generate heat board and graphite alkene hot water equipment, aim at solves the above-mentioned problem that exists among the prior art.

The utility model adopts the following technical scheme:

graphene heating plates comprise a heating plate body, two conductive connectors, a hexagonal outer wire connector, a lead and a fixing plate, wherein the heating plate body is provided with the two conductive connectors in a connecting manner, the hexagonal outer wire connector is sleeved outside the conductive connectors of the heating plate body, the heating plate further comprises lead pipes and a fixing plate fixedly arranged in a hot water tank, the two hexagonal outer wire connectors are connected with the lead pipes in a sealing manner through movable connectors, the other ends of the two lead pipes are arranged on the fixing plate in a sealing and penetrating manner, and the lead connected with the conductive connectors extends to the outside of the hot water tank after passing through the hexagonal outer wire connector, the lead pipes and the fixing plate.

And , further comprising a limit convex edge, a nut and a sealing gasket, wherein the limit convex edge is fixedly arranged on the outer wall of the conduit, the conduit is provided with an external thread section, the nut is screwed on the external thread section, and the fixing plate and the sealing gasket are fastened between the nut and the limit convex edge.

And , connecting outer sealing covers to the outer end faces of the fixing plates in a threaded manner, converging the two leads in the outer sealing covers into a cable, and extending the cable to the outside of the outer sealing covers through the through holes for connecting a controller.

And , fixedly arranging a plurality of ceramic support pads for the lead to penetrate through in the end opening of the lead pipe close to the fixed plate.

, the heating plate body comprises a graphite plate, and a graphene electric conduction heating layer, an insulation heat conduction layer and a stainless steel heat conduction panel which are sequentially stacked on the upper surface and the lower surface of the graphite plate from inside to outside, wherein electric conduction connectors connected with the graphene electric conduction heating layer are fixedly arranged at the left end and the right end of the graphite plate, the two stainless steel heat conduction panels are welded and sealed to form a body, pipe bodies used for penetrating the electric conduction connectors are arranged at the left end and the right end of the heating plate body, a ceramic heat insulation pad is sleeved between the electric conduction connectors and the pipe bodies, high-temperature silica gel is filled in the electric conduction connectors, and the pipe bodies are welded with hexagonal external thread connectors in a sealing.

, arranging through holes at the left end and the right end of the graphite plate, arranging silver electrodes formed by silver conductive coatings on the surface of the graphene conductive heating layer around the through hole, arranging a U-shaped groove and a second through hole penetrating through the U-shaped groove at the end of the conductive joint, and respectively assembling the U-shaped grooves of the two conductive joints at the left end and the right end of the graphite plate and fixing the two conductive joints through bolts to connect the silver electrodes with the conductive joints.

, the cross section of the stainless steel heat conducting panel is in a convex shape, the left end and the right end of the stainless steel heat conducting panel are both provided with groove bodies matched with the electric conduction connectors, and after the two stainless steel heat conducting panels are welded in a sealing mode, the upper groove body and the lower groove body are spliced into a pipe body.

, the left and right sides of the heating plate body are provided with side lugs with holes which are formed with the stainless steel heat-conducting panel .

graphite alkene hot-water apparatus, including the hot-water tank and fixed bolster fixed mounting in the hot-water tank, characterized in that, the fixed bolster fixed mounting has at least structures like above-mentioned graphite alkene heating plate.

From the above description to the structure of the present invention, the present invention has the following advantages:

(1) the wire conduit that is used for laying the wire is connected through airtight and detachable mode at graphite alkene heating plate's both ends about, lets the wire extend to the outside of water tank, has good waterproof, insulating, airtight performance such as, can greatly improve the life of product. (2) Adopt the utility model discloses a graphite alkene board that generates heat directly carries out high temperature heating to water, has reduced hot water and heating unit's energy consumption, has improved heat exchange efficiency, has structural design rationally, firm in connection, the heating homogeneity is good, advantages such as security height. (3) The graphene conductive heating layer is coated with silver electrodes on the surface of the contact conductive connector, the silver electrodes, the conductive connector and the graphene conductive heating layer are utilized to form a contact surface with good conductive performance, and the phenomenon that the power density of the electrode is too high when the graphene conductive heating layer is electrified to cause the two ends of the graphene conductive heating layer to generate heat too high is avoided.

Drawings

Fig. 1 is the utility model discloses in, the structural schematic diagram of graphite alkene board that generates heat.

Fig. 2 is a partial cross-sectional view of the graphene heating plate of the present invention.

Fig. 3 is a schematic view of the local decomposition of the graphene heating plate of the present invention.

Fig. 4 is a partial sectional view of the graphene heating plate of the present invention.

Fig. 5 is the utility model discloses in, hot water equipment's fixed bolster and graphite alkene generate heat the assembly structure sketch map of board a.

The reference numbers indicate that a heating plate body-1, a hexagonal external thread connector-2, a lead-3, an electric conductive connector-4, a bolt-5, a silver electric conductive coating-6, a stainless steel heat conduction panel-7, an insulating heat conduction layer-8, a graphene electric conductive heating layer-9, a graphite plate-10, a movable connector-11, a lead pipe-12, a pipe body-13, a U-shaped groove-14, a through hole-15, a second through hole-16, a groove body-17, a ceramic heat insulation pad-18, a lead terminal-19, a nut-20, high-temperature silica gel-21, a connecting pipe-22, a perforated side lug-23, a limiting convex edge-24, a sealing pad-25, a fixing plate-26, a nut-27, a ceramic supporting pad-28, an external sealing cover-29, a cable-30, a fixing bracket-31 and a graphene heating plate-32.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

Referring to fig. 1, 2 and 3, kinds of graphene heating plates include a heating plate body 1 and an electrical connector 4, where the heating plate body 1 includes a graphite plate 10, and a graphene conductive heating layer 9, an insulating heat conduction layer 8 and a stainless steel heat conduction panel 7 stacked on the upper and lower surfaces of the graphite plate 10 in sequence from inside to outside, conductive connectors 4 are fixed at both left and right ends of the graphite plate 10, and the conductive connectors 4 are connected with wires 3. specifically, both left and right ends of the graphite plate 10 are provided with through holes 15, silver electrodes formed by silver conductive coatings 6 are arranged on the surface of the graphene conductive heating layer 9 around the through holes 15, a U-shaped groove 14 and a second through hole 16 penetrating through the U-shaped groove 14 are formed at end of the conductive connector 4, ends of the wires 3 are connected to the conductive connector 4, the U-shaped grooves 14 of the two conductive connectors 4 are respectively assembled at both left and right ends of the graphite plate 10, and are fixed with the conductive connectors 4 by bolts 5 penetrating through the second through hole 16 and the through hole 15.

Referring to fig. 1, 2 and 3, more specifically, the wire 3 is connected to the conductive contact 4 in a specific manner that a threaded section is provided at the other end of the conductive contact 4, the end of the wire 3 is connected to the threaded section through a wire terminal 19 and is screwed and fixed by a nut 20, the wire terminal 19 is a conductive ring body, a connecting pipe 22 is fixedly connected to the side of the conductive ring body, and during installation, the end of the wire 3 is inserted into the connecting pipe 22, the connecting pipe 22 is clamped by a tool and is bent to be flat by 90 degrees, and the wire 3 is tightly fixed therein.

Referring to fig. 1 to 3, two stainless steel heat conducting panels 7 are welded and sealed to form bodies, the left end and the right end of a heating plate body 1 are both provided with a pipe body 13 for penetrating an electric conduction connector 4, and a ceramic heat insulation insulating pad 18 is sleeved between the electric conduction connector 4 and the pipe body 13. specifically, the cross section of the stainless steel heat conducting panel 7 is in a convex shape, the left end and the right end are both provided with groove bodies 17 matched with the electric conduction connector 4, after the two stainless steel heat conducting panels 7 are welded in a sealing manner, the upper groove body 17 and the lower groove body 17 are spliced to form the pipe body 13. in addition, for convenience of installation, the left side and the right side of the heating plate body 1 are provided with a plurality of perforated side lugs 23 formed with stainless steel heat conducting panels 7 bodies.

Referring to fig. 1 to 3, the graphene heating plate further includes a ceramic thermal insulation pad 18, a hexagonal external thread joint 2, a wire conduit 12, and a movable joint 11. The heating plate body 1 is welded with the hexagonal outer wire joints 2 on the pipe bodies 13 on the left side and the right side in a sealing mode, and the wire joints 4 are sleeved inside the hexagonal outer wire joints 2. The hexagonal outer screwed joint 2 is internally filled with high-temperature silica gel 21, and the end part of the hexagonal outer screwed joint is sealed by a plug 1. Specifically, the plug 1 is screwed into the hexagonal male connector 2 by means of a screw connection (a structure embodying the screw connection in the figure), and the lead 3 is extended to the outside of the hexagonal male connector 2. The hexagonal external screw joints 2 on the left side and the right side are hermetically connected with a conduit 12 through the movable joints 11 matched with external threads.

Referring to fig. 1, 2 and 4, the graphene heating plate further includes a fixing plate 26 fixedly disposed in a hot water tank (not shown), ends of the left and right wire conduits 12 are sealingly inserted into the fixing plate 26, and specifically, the graphene heating plate further includes a limiting convex edge 24, a nut 27 and a sealing gasket 25, the outer wall of the wire conduit 12 is fixedly disposed with the limiting convex edge 24 formed with a body thereof, the wire conduit 24 is disposed with an external thread section, the nut 27 is screwed onto the external thread section, and the fixing plate 26 and the sealing gasket 25 are fastened between the nut 27 and the limiting convex edge 24, and the left and right wires 3 extend to the outside of the hot water tank through the hexagonal external thread connector 2, the wire conduit 12 and the fixing plate 26.

Referring to fig. 1, 2 and 4, the outer end face of the fixing plate 26 is screwed with outer cover 29, two wires are converged in the outer cover 29 to form an electric cable 30, and the electric cable 30 extends to the outside of the outer cover 29 through a through hole for connecting a controller (not shown).

Referring to fig. 2 and 4, preferably, a plurality of ceramic support pads 28 for passing wires are fixedly disposed inside the end of the conduit 12 close to the fixing plate 26.

Referring to fig. 1 to 5, kinds of graphene hot water equipment includes a hot water tank (not shown) and a fixing bracket 31 fixedly installed inside the hot water tank, the fixing bracket 31 is constructed by welding a plurality of stainless steel bars, the fixing bracket 31 is fixedly installed inside the hot water tank by welding, and both the front and rear sides of the fixing bracket 31 are matched with vertical graphene heating plates 32 with hole side lugs 23 through bolts.

The above-mentioned be the utility model discloses a concrete implementation way, nevertheless the utility model discloses a design concept is not limited to this, and the ordinary use of this design is right the utility model discloses carry out immaterial change, all should belong to the act of infringement the protection scope of the utility model.

Claims (9)

1. The utility model provides a graphite alkene heating panel, including heating panel body, conductive joint, outer silk of hexagonal connect and wire, the heating panel body coupling is provided with two conductive joint, and the heating panel body overlaps in the outside of conductive joint and is equipped with outer silk of hexagonal connect, its characterized in that still includes the conduit and sets firmly the fixed plate in the hot-water tank, two outer silk of hexagonal connect all through activity joint sealing connection with the conduit, the other end of two conduits all seals to wear to locate the fixed plate, the wire that is connected with conductive joint extends to the outside of hot-water tank behind outer silk of hexagonal connect, conduit and fixed plate.
2. 2. The graphene heating board of claim 1, further comprising a limiting convex edge, a nut, and a sealing pad, wherein the limiting convex edge is fixedly disposed on the outer wall of the conduit, the conduit is provided with an external thread section, the nut is screwed onto the external thread section, and the fixing plate and the sealing pad are fastened between the nut and the limiting convex edge.
3. 3. The kinds of graphite alkene heating panels of claim 1, wherein the outer end face of the fixed plate is screwed with outer sealing cover, the two wires are converged into a cable inside the outer sealing cover, the cable extends to the outside of the outer sealing cover through the through hole for connecting with the controller.
4. 4. The kinds of graphite alkene heating panels of claim 1, wherein the conduit close to the fixed plate port is internally and fixedly provided with a plurality of ceramic supporting pads for wires to pass through.
5. 5. The graphene heating plate of claim 1, wherein the heating plate body comprises a graphite plate, and a graphene conductive heating layer, an insulating heat-conducting layer and a stainless steel heat-conducting panel stacked on the upper and lower surfaces of the graphite plate in sequence from inside to outside, the left and right ends of the graphite plate are respectively fixedly provided with electric connectors connected with the graphene conductive heating layer, the two stainless steel heat-conducting panels are welded and sealed to form a body, the left and right ends of the heating plate body are respectively provided with a tube body for the electric connectors to penetrate through, a ceramic heat-insulating pad is sleeved between the electric connectors and the tube body, and the tube body is filled with high-temperature silica gel, and the tube body is welded with the hexagonal external screw connector in a sealing manner.
6. 6. The kinds of graphene heating plates of claim 5, wherein the left and right ends of the graphite plate are each provided with a th through hole, the surface of the graphene conductive heating layer around the th through hole is provided with a silver electrode formed by a silver conductive coating, the end of the conductive connector is provided with a U-shaped groove and a second through hole penetrating through the U-shaped groove, and the U-shaped grooves of the two conductive connectors are respectively assembled at the left and right ends of the graphite plate and are fixed by bolts so that the silver electrode is connected with the conductive connector.
7. 7. The kinds of graphene heating plates of claim 5, wherein the cross section of the stainless steel heat-conducting panels is convex, the left and right ends of the stainless steel heat-conducting panels are respectively provided with a groove body matched with the electric-conducting connector, and after the two stainless steel heat-conducting panels are sealed and welded, the upper and lower groove bodies are spliced into the pipe body.
8. 8. The kinds of graphene heating plates of claim 5, wherein the left and right sides of the heating plate body are provided with side lugs with holes formed with the stainless steel heat-conducting panel .
9. 9, kinds of graphite alkene hot-water apparatus, including the hot-water tank and fixed bolster fixed mounting in the hot-water tank, characterized in that, the fixed bolster fixed mounting has at least structures as in claims 1 to 8 graphite alkene heating plate.

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