CN218510983U

CN218510983U - Energy storage heating equipment

Info

Publication number: CN218510983U
Application number: CN202222188362.0U
Authority: CN
Inventors: 王强; 张玉娟
Original assignee: Shanxi Norrester Energy Conservation And Environmental Protection Co ltd
Current assignee: Shanxi Norrester Energy Conservation And Environmental Protection Co ltd
Priority date: 2022-08-19
Filing date: 2022-08-19
Publication date: 2023-02-21
Anticipated expiration: 2032-08-19

Abstract

The utility model provides an energy storage heating device, which relates to the technical field of energy storage heating devices and comprises a wall body part and a heating mechanism, wherein the outer side of the wall body part is provided with a power generation assembly assembled by bolts, the inner top side of the wall body part is provided with an energy storage component assembled by bolts, and the inner side of the wall body part is provided with the heating mechanism assembled by bolts; the utility model discloses mainly be the insulating swivel nut of the outside installation bolted connection of wall body including the utilization, make the block terminal can not produce the leakage of power, make the block terminal can carry out accurate autonomic control to equipment circuit according to user's concrete needs, user's direct operation has been avoided, operating efficiency has been promoted, simultaneously because bracket and bolt are even parallel to each other, and the outside laminating of backplate has the heating sleeve pipe of multiunit, and the heating sleeve pipe presents porous strip structure again, make the heater strip when the equipment starting operation, the efficient that can be quick distributes away the heat, and can promote user's user equipment's comfort level.

Description

Energy storage heating equipment

Technical Field

The utility model relates to an energy storage heating equipment technical field especially relates to an energy storage heating equipment.

Background

The heating facility is usually kept in a proper heat state in the space where people live or produce, and the preheated liquid is usually continuously flowed through the heat radiator so as to achieve the heating effect.

Current energy storage heating equipment is difficult to give the comparatively comfortable regulation environment of indoor staff in the use, can produce the not high efficient scheduling problem of efficiency that heaies up moreover, consequently, the utility model provides an energy storage heating equipment is in order to solve the problem that exists among the prior art.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides an energy storage heating equipment, this energy storage heating equipment mainly is the insulating spiral shell board of the outside construction bolt connection of wall body including the utilization, make the block terminal can not produce the leakage of power, make the block terminal can carry out accurate autonomic control to equipment circuit according to user's concrete needs, user's direct operation has been avoided, operation efficiency has been promoted, simultaneously because bracket and bolt are even parallel to each other, and the outside laminating of backplate has the heating sleeve pipe of multiunit, and the heating sleeve pipe presents porous strip structure again, make the heater strip when the equipment starting operation, the efficient that can be quick distributes away the heat, and can promote user's user equipment's comfort level.

For realizing the purpose of the utility model, the utility model discloses a following technical scheme realizes: an energy storage and heat supply device comprises a wall body part and a heat supply mechanism, wherein a power generation assembly assembled by bolts is arranged on the outer side of the wall body part, an energy storage component assembled by bolts is arranged on the inner top side of the wall body part, and the heat supply mechanism assembled by bolts is arranged on the inner side of the wall body part;

heat supply mechanism includes insulating swivel nut, bracket, block terminal, bolt even strip, backplate, grafting piece, heating wire and heating sleeve pipe, insulating swivel nut bolted connection is in wall body parts's inboard, the front side of insulating swivel nut is provided with the bracket and the bolt even strip of mutual parallel distribution, the top side of bracket is provided with the block terminal, the front side that the bolt even strip is provided with the backplate, just the inboard of backplate is provided with the grafting piece, the grafting piece is pegged graft and is had the heating wire, the outside laminating of backplate has the heating sleeve pipe.

The heating sleeve is in a long-hole strip structure, and the support is parallel to the bolt connecting strip, the inserting blocks and the heating wires are distributed on the rear side of the protective plate in parallel in multiple groups.

The improved structure of the wall body component is characterized in that the wall body component comprises a floor, an outer wall body and an inner wall body, the outer wall body is arranged above the outer end of the floor, and the inner wall body is arranged above the inner end of the floor.

The improved wind power generation assembly is characterized in that the power generation assembly comprises a bolt base, a clamping sleeve seat, an insertion rod, a plate frame, a solar photovoltaic plate, a bolt disc, a wind power motor set and a wind power blade, the bolt base is connected with the outer side of the outer wall body through a bolt, the outer side of the bolt base is provided with the clamping sleeve seat, the clamping sleeve seat is inserted with the insertion rod, the top side of the insertion rod is provided with the plate frame, and the top side of the plate frame is provided with the solar photovoltaic plate.

The improved wind power generator is characterized in that a bolt disc is connected to the outer side of the inserting rod through a bolt, a wind power generator set is arranged at one end of the bolt disc, and wind power blades are arranged at two ends of the wind power generator set.

The energy storage component comprises a bolt substrate, a damping spring, a protection frame, a disc, an energy storage battery, a counter current lead and a transmission lead, wherein the bolt substrate is arranged on the top side of the floor, the top side of the bolt substrate supports the protection frame through the damping spring, the disc is arranged above the bolt substrate, the energy storage battery is arranged on the top side of the disc, and the counter current lead and the transmission lead are distributed on two sides of the energy storage battery.

The utility model has the advantages that:

the utility model discloses mainly be the insulating swivel nut that utilizes the outside construction bolt of inner wall body to connect, make the block terminal can not produce the leakage of power, make the block terminal can carry out accurate autonomous control to the equipment circuit according to user's concrete needs, user's direct operation has been avoided, the operating efficiency has been promoted, simultaneously because bracket and bolt are even parallel to each other, and the outside laminating of backplate has the heating sleeve pipe of multiunit, and the heating sleeve pipe presents porous strip structure again, make the heater strip when the equipment starting operation, the efficient that can be quick distributes away the heat, and can promote user's user equipment's comfort level.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic side view of the three-dimensional structure of the present invention;

fig. 3 is a schematic perspective view of the energy storage member of the present invention;

fig. 4 is a schematic view of the three-dimensional structure of the plug-in block and the heating wire of the present invention.

Wherein: 1. a wall member; 101. a floor; 102. an outer wall body; 103. an inner wall body; 2. a power generation assembly; 201. a bolt base; 202. a clamping sleeve seat; 203. a plug rod; 204. a plate frame; 205. a solar photovoltaic panel; 206. a bolt disk; 207. a wind power generator set; 208. a wind blade; 3. an energy storage member; 301. a bolt substrate; 302. a damping spring; 303. protecting the frame; 304. a disc; 305. an energy storage battery; 306. a reverse conducting wire; 307. a power transmission conductor; 4. a heat supply mechanism; 401. an insulating screw plate; 402. a bracket; 403. a distribution box; 404. connecting bolts; 405. a guard plate; 406. an insertion block; 407. an electric heating wire; 408. a heating sleeve.

Detailed Description

In order to deepen the understanding of the present invention, the following embodiments will be combined to make the present invention do further details, and the present embodiment is only used for explaining the present invention, and does not constitute the limitation of the protection scope of the present invention.

According to the drawings of fig. 1-4, the embodiment provides an energy storage and heat supply device, which comprises a wall body part 1 and a heat supply mechanism 4, wherein a bolt-assembled power generation assembly 2 is arranged on the outer side of the wall body part 1, a bolt-assembled energy storage component 3 is arranged on the inner top side of the wall body part 1, and the bolt-assembled heat supply mechanism 4 is arranged on the inner side of the wall body part 1;

the heating mechanism 4 comprises an insulating spiral plate 401, a bracket 402, a distribution box 403, a bolt connecting strip 404, a protection plate 405, an inserting block 406, a heating wire 407 and a heating sleeve 408, the insulating spiral plate 401 is connected to the inner side of the wall body part 1 through bolts, the front side of the insulating spiral plate 401 is provided with the bracket 402 and the bolt connecting strip 404 which are distributed in parallel, the top side of the bracket 402 is provided with the distribution box 403, the front side of the bolt connecting strip 404 is provided with the protection plate 405, the inner side of the protection plate 405 is provided with the inserting block 406, the inserting block 406 is inserted with the heating wire 407, and the outer side of the protection plate 405 is attached with the heating sleeve 408.

The bracket 402 and the bolt connecting bar 404 are parallel to each other, the plug-in blocks 406 and the heating wires 407 are distributed in parallel on the rear side of the guard plate 405 in multiple groups, and the heating sleeve 408 is in a long-hole strip-shaped structure.

In this embodiment, when energy storage battery 305 stores a certain amount of electric energy, through set up block terminal 403 in the top of bracket 402 and play the effect of control for the circuit, play the connection that block terminal 403 formed the circuit as required, make the heating wire 407 of pegging graft on plug-in block 406 produce the heat, because the outside installation heating sleeve 408 of backplate 405, heating sleeve 408 is the strip structure of slot hole, can increase the area of contact with the air, thereby can be quick make the environment around play the effect of heat supply, in order to help the user to keep warm.

The wall component 1 comprises a floor 101, an outer wall 102 and an inner wall 103, wherein the outer wall 102 is arranged above the outer end of the floor 101, and the inner wall 103 is arranged above the inner end of the floor 101.

In this embodiment, the positions are selected at the working site, so that the outer wall 102 and the inner wall 103 are respectively installed above both ends of the floor 101, so that a space is formed between the outer wall 102 and the inner wall 103.

The power generation assembly 2 comprises a bolt base 201, a clamping sleeve seat 202, a plug rod 203, a plate frame 204, a solar photovoltaic panel 205, a bolt disc 206, a wind power generator set 207 and wind power blades 208, the bolt base 201 is connected to the outer side of the outer wall body 102 through bolts, the clamping sleeve seat 202 is arranged on the outer side of the bolt base 201, the plug rod 203 is connected to the clamping sleeve seat 202 in a plugging mode, the plate frame 204 is arranged on the top side of the plug rod 203, and the solar photovoltaic panel 205 is arranged on the top side of the plate frame 204.

In this embodiment, the bolt base 201 is then bolted to the outer side of the outer wall 102, so that the fastening sleeve base 202 is bolted to the outer side of the outer wall 102 through the bolt base 201, and then the plugging rod 203 is plugged into the fastening sleeve base 202 to support the fastening, and the solar photovoltaic panel 205 is installed by using the panel frame 204 on the top side of the plugging rod 203, so that the solar photovoltaic panel 205 can generate electricity, and the electric energy is stored in the energy storage battery 305 through the inverter.

The bolt disc 206 is bolted to the outer side of the plug rod 203, and a wind power generator set 207 is arranged at one end of the bolt disc 206, and wind blades 208 are arranged at two ends of the wind power generator set 207.

In this embodiment, the outer side of the insertion rod 203 is connected to the wind turbine 207 by using the bolt disk 206, so that the wind blades 208 are disposed at two ends of the wind turbine 207, and the electric energy can be stored in the energy storage battery 305 when wind exists.

The energy storage component 3 comprises a bolt substrate 301, a damping spring 302, a protection frame 303, a disc 304, an energy storage battery 305, a counter current lead 306 and a power transmission lead 307, wherein the bolt substrate 301 is arranged on the top side of the floor 101, the top side of the bolt substrate 301 supports the protection frame 303 through the damping spring 302, the disc 304 is arranged above the bolt substrate 301, the energy storage battery 305 is arranged on the top side of the disc 304, and the counter current lead 306 and the power transmission lead 307 are distributed on two sides of the energy storage battery 305.

In this embodiment, the bolt base plate 301 is bolted on the top side of the floor 101 between the outer wall 102 and the inner wall 103, so that the damping spring 302 is used to support the protection frame 303 on the top side of the bolt base plate 301 to achieve the damping effect, the energy storage battery 305 is not dangerous when being placed on the disc 304, and the reverse current lead 306 and the power transmission lead 307 are respectively installed at two ends of the energy storage battery 305 to be installed with other components.

The working principle of the energy storage and heat supply equipment is as follows: firstly, by selecting the position at the working site, the outer wall 102 and the inner wall 103 are respectively installed above the two ends of the floor 101, so that a space is formed between the outer wall 102 and the inner wall 103, the bolt substrate 301 is bolted on the top side of the floor 101 between the outer wall 102 and the inner wall 103, so that the top side of the bolt substrate 301 is supported by the damping spring 302 to achieve the damping effect, the energy storage battery 305 can not cause dangerous accidents when being placed on the disc 304, the counter current lead 306 and the power transmission lead 307 are respectively installed at the two ends of the energy storage battery 305 to be installed with other components, then the bolt base 201 is bolted on the outer side of the outer wall 102, so that the clamping sleeve seat 202 is bolted on the outer side of the outer wall 102 through the bolt base 201, and then the inserting rod 203 is inserted on the clamping sleeve seat 202 to play a role of supporting clamping, the solar photovoltaic panel 205 is installed on the top side of the inserting rod 203 by utilizing the panel frame 204, so that the solar photovoltaic panel 205 can generate electricity, the energy storage battery 305 is stored with electric energy by the inverter, the wind power generator set 207 is connected on the outer side of the inserting rod 203 by utilizing the bolt disc 206, the wind power blades 208 are arranged at two ends of the wind power generator set 207, so that the electric energy can be stored for the energy storage battery 305 when wind power exists, when the energy storage battery 305 stores a certain amount of electric energy, the effect of controlling is achieved by arranging the distribution box 403 above the bracket 402 for a circuit, the connection of the distribution box 403 for forming a circuit is achieved as required, so that the heating wire 407 inserted on the inserting block 406 generates heat, and as the outer side of the protective plate 405 is provided with the heating sleeve 408, and the heating sleeve 408 is in a long-hole structure, the contact area with air can be increased, therefore, the surrounding environment can be quickly heated, and a user can be helped to get warm.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. An energy storage heating equipment, includes wall body part (1) and heating mechanism (4), its characterized in that: the power generation assembly (2) assembled by bolts is arranged on the outer side of the wall body part (1), the energy storage component (3) assembled by bolts is arranged on the inner top side of the wall body part (1), and the heat supply mechanism (4) assembled by bolts is arranged on the inner side of the wall body part (1);

the heating mechanism (4) comprises an insulating spiral plate (401), a bracket (402), a distribution box (403), a bolt connecting strip (404), a protective plate (405), an inserting block (406), a heating wire (407) and a heating sleeve (408), wherein the insulating spiral plate (401) is connected with the inner side of the wall body part (1) through bolts, the bracket (402) and the bolt connecting strip (404) which are distributed in parallel are arranged on the front side of the insulating spiral plate (401), the top side of the bracket (402) is provided with the distribution box (403), the protective plate (405) is arranged on the front side of the bolt connecting strip (404), the inserting block (406) is arranged on the inner side of the protective plate (405), the heating wire (407) is inserted into the inserting block (406), and the heating sleeve (408) is attached to the outer side of the protective plate (405).

2. An energy-storing and heat-supplying apparatus according to claim 1, wherein: the bracket (402) and the bolt connecting bar (404) are parallel to each other, the insertion blocks (406) and the heating wires (407) are distributed on the rear side of the guard plate (405) in parallel in multiple groups, and the heating sleeve (408) is in a long-hole strip-shaped structure.

3. An energy-storing and heat-supplying apparatus according to claim 1, wherein: the wall component (1) comprises a floor (101), an outer wall body (102) and an inner wall body (103), wherein the outer wall body (102) is arranged above the outer end of the floor (101), and the inner wall body (103) is arranged above the inner end of the floor (101).

4. An energy-storing and heat-supplying apparatus according to claim 3, wherein: the power generation assembly (2) comprises a bolt base (201), a clamping sleeve seat (202), a plug rod (203), a plate frame (204), a solar photovoltaic plate (205), a bolt disc (206), a wind power generator set (207) and wind power blades (208), wherein the bolt base (201) is connected with the bolt in the outer side of the outer wall body (102), the outer side of the bolt base (201) is provided with the clamping sleeve seat (202), the clamping sleeve seat (202) is plugged with the plug rod (203), the top side of the plug rod (203) is provided with the plate frame (204), and the top side of the plate frame (204) is provided with the solar photovoltaic plate (205).

5. An energy-storing and heat-supplying apparatus according to claim 4, wherein: the bolt disc (206) is connected to the outer side of the insertion rod (203) through bolts, a wind power generator set (207) is arranged at one end of the bolt disc (206), and wind blades (208) are arranged at two ends of the wind power generator set (207).

6. An energy-storing and heat-supplying apparatus according to claim 3, wherein: the energy storage component (3) comprises a bolt substrate (301), a damping spring (302), a protection frame (303), a disc (304), an energy storage battery (305), a counter current lead (306) and a power transmission lead (307), wherein the bolt substrate (301) is arranged on the top side of the floor (101), the top side of the bolt substrate (301) supports the protection frame (303) through the damping spring (302), the disc (304) is arranged above the bolt substrate (301), the energy storage battery (305) is arranged on the top side of the disc (304), and the counter current lead (306) and the power transmission lead (307) are distributed on two sides of the energy storage battery (305).