CN114576684A

CN114576684A - Adjustable energy storage heating device

Info

Publication number: CN114576684A
Application number: CN202210181020.8A
Authority: CN
Inventors: 隗娜; 宁华; 王继勇
Original assignee: Anhui Anze Electric Co ltd
Current assignee: Anhui Anze Electric Co ltd
Priority date: 2022-02-25
Filing date: 2022-02-25
Publication date: 2022-06-03

Abstract

The invention provides an adjustable energy storage heating device, which comprises: the casing, and be fixed in the heat accumulator in the casing and alternate the electrothermal tube in the heat accumulator, wherein: the heat accumulator is provided with a plurality of through air channels, the air channels are horizontally arranged, a movable first plug is arranged in a port at one end of each air channel, a movable second plug is arranged in a port at the other end of each air channel, and the first plugs and the second plugs are provided with through channels. The invention realizes the control of the opening amount of the air duct, further realizes the control of the heat release and avoids the waste of heat energy.

Description

Adjustable energy storage heating device

Technical Field

The invention relates to the technical field of energy storage and heat supply equipment, in particular to an adjustable energy storage and heat supply device.

Background

The energy storage heating device is a new, scientific, efficient, environment-friendly, safe, economic and energy-saving heating mode. The electric energy is quickly converted into heat energy to be stored in a heat accumulator of the equipment by using the electricity generated by cheap electric energy or wind energy in the night valley period. When needs are with hot, through the operation of intelligent PLC control frequency conversion fan, make the air at high temperature heat accumulator inner loop, take out the heat in the heat accumulator, become the hot-air of high temperature, the hot-air of high temperature converts the hot water after passing through high-efficient heat exchanger again, and heating unit utilizes the hot water to realize heating. Briefly, the electric energy storage and heat supply device converts electric energy into heat energy by using off-peak electricity and an electric heating pipe inserted in a heat accumulator, the heat accumulator can quickly absorb and store the heat energy, and the heat energy is released by secondary heat exchange when heat supply is needed and is used by a user. Therefore, how to control the heat release amount of the heat accumulator according to the needs becomes another important index of the quality of the energy storage and heat supply device.

Disclosure of Invention

In order to solve the technical problems in the background art, the invention provides an adjustable energy storage heating device.

The invention provides an adjustable energy storage heating device, which comprises: the casing, and be fixed in the heat accumulator in the casing and alternate the electrothermal tube in the heat accumulator, wherein:

the heat accumulator is provided with a plurality of through air channels, the air channels are horizontally arranged, a movable first plug is arranged in a port at one end of each air channel, a movable second plug is arranged in a port at the other end of each air channel, and the first plugs and the second plugs are provided with through channels.

Preferably, the air duct comprises a first plugging chamber, a second plugging chamber and a flow passage communicating the first plugging chamber and the second plugging chamber, and the sectional areas of the flow passage are respectively smaller than those of the first plugging chamber and the second plugging chamber; the first plug is positioned in the first plug chamber, and the second plug is positioned in the second plug chamber.

Preferably, the first plug chamber is a spherical cavity; the first plug is a ball head, and the outer wall of the first plug is attached to the inner wall of the first plug chamber; the passage is a linear passage through the center of the sphere.

Preferably, the second plug chamber is a spherical cavity, the second plug is a ball head, and the outer wall of the second plug is attached to the inner wall of the second plug chamber; the passage is a linear passage through the center of the sphere.

Preferably, the first plug chamber is a cylindrical cavity, the first plug is of a cylindrical structure, and the outer wall of the first plug is attached to the inner wall of the first plug chamber; the channel is a through hole which is radially penetrated.

Preferably, the second plug chamber is a cylindrical cavity, the second plug is of a cylindrical structure, and the outer wall of the second plug is attached to the inner wall of the second plug chamber; the channel is a through hole which is radially penetrated.

Preferably, the first plug chamber is a disc-shaped chamber; the first plug is of a disc-shaped structure, and the outer wall of the first plug is attached to the inner wall of the first plug chamber; the channel is a radial channel passing through the center of a circle.

Preferably, the second plug chamber is a disc-shaped chamber; the second plug is of a disc-shaped structure, and the outer wall of the second plug is attached to the inner wall of the second plug chamber; the channel is a radial channel passing through the center of a circle.

Preferably, all the air channels on the heat accumulator are arranged in rows, and each row has at least one air channel; the first plugs in the same row of air channels are connected with each other through first control rods to form a whole, and the second plugs in the same row of air channels are connected with each other through second control rods to form a whole; the first control rod and the second control rod are vertically arranged, and one ends of the first control rod and the second control rod penetrate through the heat accumulator to extend to the outside of the shell.

Preferably, the first control rod comprises a main rod part and a plurality of connecting parts, one end of the main rod part is positioned outside the casing, and the other end of the main rod part is fixed with the uppermost first plug in the same column; each connecting part is arranged between each first plug in a one-to-one correspondence manner, each connecting part is coaxial with the main rod part, and two ends of each connecting part are respectively connected with two adjacent first plugs.

Preferably, the second control rod comprises a main rod part and a plurality of connecting parts, one end of the main rod part is positioned outside the casing, and the other end of the main rod part is fixed with the uppermost first plug in the same column; each connecting part is arranged between each first plug in a one-to-one correspondence manner, each connecting part is coaxial with the main rod part, and two ends of each connecting part are respectively connected with two adjacent first plugs.

According to the invention, the first plug and the second plug are respectively arranged in the ports at the two ends of the air duct, and are provided with the through channels, and can move in the ports. In the use process, a user can adjust the rotation directions of the first plug and the second plug as required so that the first plug and the second plug respectively plug two ends of the air duct to enable the air duct to enter a closed state, or channels in the first plug and the second plug are communicated with the air duct to enable the air duct to enter an open state. The control of the opening amount of the air channel is realized, the control of heat release is realized, and the waste of heat energy is avoided.

Drawings

Fig. 1 is a schematic structural diagram of an air duct in an adjustable energy-storage heating device according to the present invention in an open state.

Fig. 2 is a schematic structural diagram of the air duct in the regulated energy-storage heating device according to the present invention in a closed state.

Fig. 3 is a first schematic structural diagram of the first plug in the adjustable energy-storage and heat-supply device according to the present invention.

Fig. 4 is a second schematic structural diagram of the first plug in the adjustable energy-storage and heat-supply device according to the present invention.

Fig. 5 is a third schematic structural diagram of the first plug in the adjustable energy-storage and heat-supply device according to the present invention.

Detailed Description

Referring to fig. 1-2, the invention provides an adjustable energy storage heating device, comprising: casing 1, and be fixed in heat accumulator 2 and the electrothermal tube 3 of interlude in heat accumulator 2 in casing 1, wherein:

the heat accumulator 2 is provided with a plurality of through air channels, the air channels are horizontally arranged, a movable first plug 4 is arranged in a port at one end of each air channel, a movable second plug 5 is arranged in a port at the other end of each air channel, and the first plugs 4 and the second plugs 5 are provided with through channels. When the air duct opening device is used, a user can adjust the rotation directions of the first plug 4 and the second plug 5 according to needs, so that the first plug 4 and the second plug 5 respectively plug two ends of the air duct to enable the air duct to enter a closed state, or channels in the first plug 4 and the second plug 5 are communicated with the air duct to enable the air duct to enter an open state.

In the invention, the first plug 4 and the second plug 5 are respectively arranged in the ports at the two ends of the air duct, the first plug 4 and the second plug 5 are both provided with a through channel, and the first plug 4 and the second plug 5 can move in the ports. The first plug 4 and the second plug 5 are matched to control the opening amount of the air channel, so that the heat release is controlled, and the waste of heat energy is avoided.

In addition, in the embodiment, all the air channels on the heat accumulator 2 are arranged in rows, and each row has at least one air channel; the first plugs 4 in the same row of air channels are connected with each other through first control rods 6 to form a whole, and the second plugs 5 in the same row of air channels are connected with each other through second control rods 7 to form a whole; the first control rod 6 and the second control rod 7 are both vertically arranged, and one ends of the first control rod and the second control rod extend to the outside of the shell 1 through the heat accumulator 2. In use, the first control rod 6 is rotated to drive each first plug 4 in the same row to rotate synchronously, so as to adjust the orientation of the channel, and make one end of the row of air channels enter a closed state or an open state. The second control rod 7 is rotated to drive each second plug 5 in the same row to rotate synchronously so as to adjust the direction of the channel, so that the other end of the row of air channels enters a closed state or an open state. In specific use, when the heat accumulator 2 needs to absorb heat, the first control rod 6 and the second control rod 7 are rotated to close each air channel, so that the interior of the heat accumulator 2 is in a closed state, and the heat storage efficiency of the heat accumulator is improved.

Specifically, the method comprises the following steps: the first control rod 6 comprises a main rod part 61 and a plurality of connecting parts 62, one end of the main rod part 61 is positioned outside the casing 1, and the other end of the main rod part is fixed with the uppermost first plug 4 in the same column; each connecting portion 62 is arranged between the first plugs 4 in a one-to-one correspondence manner, each connecting portion 62 is coaxial with the main rod portion 61, and both ends of each connecting portion 62 are respectively connected with two adjacent first plugs 4. The arrangement mode of the structure can avoid the reduction of the flow area of the channel caused by the fact that the first control rod 6 passes through the channel in the first plug 4 while realizing the connection of the first plugs 4.

The same principle is that: the second control rod 7 comprises a main rod part 71 and a plurality of connecting parts 72, one end of the main rod part 71 is positioned outside the machine shell 1, and the other end of the main rod part 71 is fixed with the uppermost first plug 4 in the same column; each connecting portion 72 is arranged between the first plugs 4 in a one-to-one correspondence manner, each connecting portion 72 is coaxial with the main rod portion 71, and both ends of each connecting portion 72 are connected to two adjacent first plugs 4 respectively. The arrangement mode of the structure can realize the connection of the second plugs 5 and simultaneously avoid the reduction of the flow area of the channel caused by the second control rod 7 passing through the channel.

In this embodiment, the air duct includes a first plug chamber, a second plug chamber, and a flow passage communicating the first plug chamber and the second plug chamber, and the sectional areas of the flow passage are respectively smaller than the sectional areas of the first plug chamber and the second plug chamber; the first plug 4 is positioned in the first plug chamber, and the second plug 5 is positioned in the second plug chamber. The arrangement mode can effectively enhance the plugging effect of the first plug 4 and the second plug 5 on the port of the air duct.

Referring to fig. 3, the first plug chamber is a spherical cavity; the first plug 4 is a ball head, and the outer wall of the first plug 4 is attached to the inner wall of the first plug chamber; the passage is a linear passage through the center of the sphere. The sphere center of the first plug 4 is used as a rotation center, and the first ball head 4 is rotated to adjust the direction of the channel, so that one end of the air duct is either blocked or opened.

Similarly, the second plug chamber is a spherical cavity, the second plug 5 is a ball head, and the outer wall of the second plug 5 is attached to the inner wall of the second plug chamber; the passage is a linear passage through the center of the sphere.

Referring to fig. 4, the first plug chamber is a cylindrical cavity, the first plug 4 is a cylindrical structure, and the outer wall of the first plug 4 is attached to the inner wall of the first plug chamber; the channel is a through hole which is radially penetrated. The first ball head 4 is rotated to adjust the direction of the channel by taking the axial lead of the first choke plug 4 as a rotation axis, so that one end of the air channel is either blocked or opened.

Similarly, the second plug chamber is a cylindrical cavity, the second plug 5 is a cylindrical structure, and the outer wall of the second plug 5 is attached to the inner wall of the second plug chamber; the channel is a through hole which is radially penetrated.

Referring to fig. 5, the first plug chamber is a disc-shaped cavity; the first plug 4 is of a disc-shaped structure, and the outer wall of the first plug 4 is attached to the inner wall of the first plug chamber; the channel is a radial channel passing through the center of a circle. The first ball head 4 is rotated by taking the central line of the first plug 4 as a rotation axis to adjust the direction of the channel, so that one end of the air duct is either blocked or opened.

Similarly, the second plug chamber is a disc-shaped cavity; the second plug 5 is of a disc-shaped structure, and the outer wall of the second plug 5 is attached to the inner wall of the second plug chamber; the channel is a radial channel passing through the center of a circle.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A regulated energy storage heating apparatus, comprising: casing (1), and be fixed in heat accumulator (2) in casing (1) and alternate electrothermal tube (3) in heat accumulator (2), wherein:

the heat accumulator (2) is provided with a plurality of through air channels, the air channels are horizontally arranged, a movable first plug (4) is arranged in a port of one end of each air channel, a movable second plug (5) is arranged in a port of the other end of each air channel, and the first plugs (4) and the second plugs (5) are provided with through channels.

2. The regulated energy-storing and heat-supplying device according to claim 1, wherein the air duct comprises a first plug chamber, a second plug chamber, and a flow passage communicating the first plug chamber and the second plug chamber, and the cross-sectional area of the flow passage is smaller than the cross-sectional areas of the first plug chamber and the second plug chamber; the first plug (4) is positioned in the first plug chamber, and the second plug (5) is positioned in the second plug chamber.

3. A regulated energy storing and heating apparatus as claimed in claim 2, wherein the first plug chamber is a spherical cavity; the first plug (4) is a ball head, and the outer wall of the first plug (4) is attached to the inner wall of the first plug chamber; the passage is a linear passage through the center of the sphere.

4. The adjustable energy-storage and heat-supply device according to claim 2, wherein the second plug chamber is a spherical cavity, the second plug (5) is a ball head, and the outer wall of the second plug (5) is attached to the inner wall of the second plug chamber; the passage is a linear passage through the center of the sphere.

5. The regulated energy-storing and heat-supplying device according to claim 2, wherein the first plug chamber is a cylindrical cavity, the first plug (4) is of a cylindrical structure, and the outer wall of the first plug (4) is attached to the inner wall of the first plug chamber; the channel is a through hole which is radially penetrated.

6. The regulated energy-storing and heat-supplying device according to claim 2, wherein the second plug chamber is a cylindrical cavity, the second plug (5) is of a cylindrical structure, and the outer wall of the second plug (5) is attached to the inner wall of the second plug chamber; the channel is a through hole which is radially penetrated.

7. A regulated energy storing and heating apparatus according to claim 2, wherein the first plug chamber is a disc-shaped chamber; the first plug (4) is of a disc-shaped structure, and the outer wall of the first plug (4) is attached to the inner wall of the first plug chamber; the channel is a radial channel passing through the center of a circle.

8. A regulated energy storing and heating apparatus according to claim 2, wherein the second plug chamber is a disc-shaped chamber; the second plug (5) is of a disc-shaped structure, and the outer wall of the second plug (5) is attached to the inner wall of the second plug chamber; the channel is a radial channel passing through the center of a circle.

9. A solution storage and heating installation according to any one of claims 1 to 9, characterised in that all the air ducts of the heat accumulator (2) are arranged in rows, and there is at least one air duct per row; the first plugs (4) in the same row of air channels are connected with each other through first control rods (6) to form a whole, and the second plugs (5) in the same row of air channels are connected with each other through second control rods (7) to form a whole; the first control rod (6) and the second control rod (7) are both vertically arranged, and one ends of the first control rod and the second control rod penetrate through the heat accumulator (2) and extend to the outside of the shell (1).

10. A regulated energy-storing and heating apparatus according to claim 9, wherein the first control rod (6) comprises a main rod portion (61) and a plurality of connecting portions (62), one end of the main rod portion (61) is located outside the housing (1), and the other end thereof is fixed to the uppermost first plug (4) in the same column; the connecting parts (62) are correspondingly arranged between the first plugs (4) one by one, the connecting parts (62) are coaxial with the main rod part (61), and two ends of each connecting part (62) are respectively connected with two adjacent first plugs (4);

preferably, the second control rod (7) comprises a main rod part (71) and a plurality of connecting parts (72), one end of the main rod part (71) is positioned outside the machine shell (1), and the other end of the main rod part is fixed with the uppermost first plug (4) in the same column; the connecting parts (72) are correspondingly arranged between the first plugs (4), the connecting parts (72) are coaxial with the main rod part (71), and two ends of each connecting part (72) are respectively connected with two adjacent first plugs (4).