CN220170023U - Heat energy recovery storage equipment - Google Patents

Abstract

The utility model discloses a heat energy recovery and storage device, which comprises: the support legs, the support frames, the outer cylinder body and the flue; the end parts of the support legs are fixedly connected with a support frame, the support legs are used as a support foundation, an outer cylinder body is fixedly connected in the support frame, the other end of the flue is fixedly connected with a smoke exhaust pipe, and the end parts of the smoke exhaust pipe are connected to the front part of the outer cylinder body in a penetrating manner; the cylinder cover is in threaded connection on the inner cylinder body, the inlet tube is inlayed and established to be connected with above the cylinder cover, the inner cylinder body bottom inlays and establishes and be connected with the drain valve. This heat recovery storage equipment drives the driving gear through servo motor and rotates, and after driven gear transmission, it is rotatory to drive the threaded rod, and annular scraper blade removes along the inner tube body, scrapes down the incrustation scale to be convenient for clear up incrustation scale, screw in threaded hole through the lock bolt, fix annular frame on urceolus inner peripheral surface, through heat preservation cotton and inside double-deck glass board that is the vacuum state, can prevent effectively that heat from outwards escaping, improve the heat preservation effect.

Description

Heat energy recovery storage equipment

Technical Field

The utility model relates to the technical field of heat energy recovery, in particular to heat energy recovery storage equipment.

Background

The heat recovery is to recover and reuse a large amount of waste heat discharged to the outside in the running process of the equipment in a certain mode as a final heat source or a primary heat source of a user, and the heat recovery storage equipment is a device manufactured by utilizing the principle, and the conventional heat recovery storage equipment has certain defects in use, such as;

the cold water is widely used at present to recover heat, in the recovery process, as the heat preservation effect is poor, part of the recovered heat still can be dissipated to the outside, and after the container for storing cold water is used for a long time, a large amount of scale can be generated inside the container, and the water is generally cleaned manually, so that the cleaning effect is slow, and therefore, the heat energy recovery storage device is provided, and the problems are solved.

Disclosure of Invention

The utility model aims to provide a heat energy recovery storage device, which solves the problems that the heat energy recovery storage device in the market is poor in heat preservation effect and inconvenient to clean internal scale.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a thermal energy recovery storage apparatus comprising: the support legs, the support frames, the outer cylinder body and the flue;

the support leg is fixedly connected with a support frame at the end part of the support leg, the support leg is used as a support foundation, an outer cylinder body is fixedly connected in the support frame, a heat preservation component is connected to the inner wall of the outer cylinder body, an inner cylinder body is connected in the heat preservation component, a flue is arranged on the inner wall of the inner cylinder body, one end of the flue is fixedly connected with a smoke inlet pipe, the other end of the flue is fixedly connected with a smoke outlet pipe, and the end part of the smoke outlet pipe is connected to the front part of the outer cylinder body in a penetrating manner;

the cylinder cover is in threaded connection on the inner cylinder body, the inlet tube is inlayed and established to be connected with above the cylinder cover, the inner cylinder body bottom inlays and establishes and be connected with the drain valve.

Preferably, the insulation assembly comprises: annular frame, annular chamber, double glazing board, heat preservation cotton, screw hole, lock bolt, through-hole, be connected with the annular frame on the urceolus inner peripheral surface, the annular chamber has been seted up in the annular frame, the annular intracavity interconnect has double glazing board, and is the vacuum state between the double glazing board.

Preferably, the inner peripheral surface of the annular frame is fixedly connected with heat preservation cotton, and the heat preservation cotton is arranged on the outer peripheral surface of the inner cylinder.

Preferably, a threaded hole is formed in the outer peripheral surface of the annular frame, the end part of the locking bolt is connected with the threaded hole in a threaded mode, the locking bolt is connected in a penetrating hole in a penetrating mode, and the penetrating hole is formed in one side of the outer cylinder body.

Preferably, the inner bottom surface of the inner cylinder body is provided with a groove, a bearing is connected in the groove, a rotating shaft is connected in the bearing, the top end of the rotating shaft is provided with a rectangular groove, and a rectangular block is connected in the rectangular groove in a clamping mode.

Preferably, the upper surface of the rectangular block is fixedly connected with a threaded rod, an internal thread cylinder is connected to the threaded rod in a threaded mode, a connecting rod is fixedly connected to one side of the internal thread cylinder, one end of the connecting rod is fixedly connected to the inner peripheral surface of the annular scraping plate, and the annular scraping plate is slidably connected to the inner cylinder.

Preferably, a through hole is formed in the annular scraping plate, a guide rod is connected in the through hole in a penetrating manner, and the tail end of the guide rod is fixedly connected to the inner bottom surface of the inner cylinder body.

Preferably, the threaded rod top fixedly connected with branch, the branch top runs through cover fixedly connected with driven gear, driven gear back meshing is connected with the driving gear, driving gear fixed connection is at the servo motor output, servo motor fixed connection is at outer barrel back, servo motor one side is connected with the power cord.

Compared with the prior art, the utility model has the beneficial effects that: this heat recovery storage equipment drives the driving gear through servo motor and rotates, and after driven gear transmission, it is rotatory to drive the threaded rod, and annular scraper blade removes along the inner tube body, scrapes down the incrustation scale to be convenient for clear up incrustation scale, screw in threaded hole through the lock bolt, fix annular frame on urceolus inner peripheral surface, through heat preservation cotton and inside double-deck glass board that is vacuum state, can prevent effectively that heat from outwards escaping, improve the heat preservation effect, concrete content is as follows:

1. when the water scale in the inner cylinder needs to be cleaned, the servo motor is started to drive the threaded rod to rotate, the annular scraping plate moves upwards along the inner cylinder to scrape the water scale adhered to the inner wall of the inner cylinder, and then the cylinder cover is screwed off to manually clean the water scale on the annular scraping plate, so that the efficiency of cleaning the water scale can be effectively improved;

2. the annular frame is clamped into the inner peripheral surface of the outer cylinder, then, the locking bolt penetrates through the through hole and is in threaded connection with the threaded hole, the annular frame is fixed, and the heat preservation cotton is matched with the double-layer glass plate, so that the heat preservation effect can be greatly improved, and heat dissipation is prevented.

Drawings

FIG. 1 is a schematic diagram of a front view structure of the present utility model;

FIG. 2 is a schematic side view of the present utility model;

FIG. 3 is a schematic view of an outer barrel of the present utility model;

FIG. 4 is an enlarged view of the structure of the portion A of the present utility model;

fig. 5 is an enlarged view of the structure of the portion B of the present utility model.

In the figure: 1. a support leg; 2. a support frame; 3. an outer cylinder; 4. a thermal insulation assembly; 401. an annular frame; 402. an annular cavity; 403. a double-layer glass plate; 404. thermal insulation cotton; 405. a threaded hole; 406. a locking bolt; 407. a through hole; 5. an inner cylinder; 6. a flue; 7. a smoke inlet pipe; 8. a smoke exhaust pipe; 9. a cylinder cover; 10. a water inlet pipe; 11. a drain valve; 12. a groove; 13. a bearing; 14. a rotating shaft; 15. rectangular grooves; 16. rectangular blocks; 17. a threaded rod; 18. an internal thread cylinder; 19. a connecting rod; 20. an annular scraping plate; 21. a through hole; 22. a guide rod; 23. a support rod; 24. a driven gear; 25. a drive gear; 26. a servo motor; 27. and a power supply line.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: a thermal energy recovery storage apparatus comprising: the support legs 1, the support frame 2, the outer cylinder 3 and the flue 6;

the supporting leg 1 tip fixedly connected with braced frame 2, and stabilizer blade 1 is as supporting foundation, fixedly connected with outer barrel 3 in the braced frame 2, be connected with insulation component 4 on the outer barrel 3 inner wall, insulation component 4 in-connection has inner barrel 5, flue 6 has been seted up on the inner barrel 5 inner wall, flue 6 one end fixedly connected with advances tobacco pipe 7, flue 6 other end fixedly connected with is discharged tobacco pipe 8, and discharge tobacco pipe 8 tip through connection is in outer barrel 3 front portion, cover 9, threaded connection is on inner barrel 5, cover 9 top inlays and establishes and be connected with inlet tube 10, the bottom of inner barrel 5 inlays and establishes and be connected with drain valve 11.

The insulation assembly 4 includes: the annular frame 401, the annular cavity 402, double-layer glass plate 403, heat preservation cotton 404, screw hole 405, locking bolt 406, through hole 407, be connected with annular frame 401 on the outer barrel 3 inner peripheral face, annular cavity 402 has been seted up in the annular frame 401, annular cavity 402 internal connection has double-layer glass plate 403, and be the vacuum state between the double-layer glass plate 403, pass through hole 407 through locking bolt 406, screw in screw hole 405 is internal, fix annular frame 401 on outer barrel 3 inner peripheral face, through heat preservation cotton 404 and inside double-layer glass plate 403 that is the vacuum state, can effectively prevent heat outwards to escape, improve the heat preservation effect.

The thermal insulation cotton 404 is fixedly connected to the inner peripheral surface of the annular frame 401, the thermal insulation cotton 404 is arranged on the outer peripheral surface of the inner cylinder body 5, and heat inside the inner cylinder body 5 can be protected to a certain extent through the thermal insulation cotton 404, and the thermal insulation cotton is matched with the double-layer glass plate 403, so that the thermal insulation effect can be greatly improved. The outer peripheral surface of the annular frame 401 is provided with a threaded hole 405, the end part of a locking bolt 406 is connected with the threaded hole 405 in a threaded way, the locking bolt 406 is connected in a penetrating hole 407 in a penetrating way, the penetrating hole 407 is arranged on one side of the outer cylinder body 3, and the annular frame 401 can be fixed on the inner peripheral surface of the outer cylinder body 3 by penetrating the locking bolt 406 through the penetrating hole 407 and connecting the threaded hole 405 in a threaded way.

The groove 12 is formed in the bottom surface of the inner cylinder 5, the bearing 13 is connected in the groove 12, the rotating shaft 14 is connected in the bearing 13, the rectangular groove 15 is formed in the top end of the rotating shaft 14, the rectangular block 16 is connected in the rectangular groove 15 in a clamping mode, the threaded rod 17 is connected with the rotating shaft 14 through the rectangular block 16 in the rectangular groove 15, and then when the threaded rod 17 is driven by external force, the threaded rod 17 can work more stably.

The upper surface of the rectangular block 16 is fixedly connected with a threaded rod 17, the threaded rod 17 is in threaded connection with an internal thread cylinder 18, one side of the internal thread cylinder 18 is fixedly connected with a connecting rod 19, one end of the connecting rod 19 is fixedly connected with the inner peripheral surface of an annular scraping plate 20, the annular scraping plate 20 is slidingly connected in the inner cylinder 5, the threaded rod 17 rotates to drive the internal thread cylinder 18 to move up and down along the threaded rod 17, and then the annular scraping plate 20 is driven to move up and down along the inner cylinder 5. The annular scraping plate 20 is internally provided with a through hole 21, a guide rod 22 is connected in the through hole 21 in a penetrating way, the tail end of the guide rod 22 is fixedly connected to the inner bottom surface of the inner cylinder 5, and the annular scraping plate 20 cannot rotate along with the rotation of the threaded rod 17 through the through holes 21 and the guide rod 22 at the two sides.

The top end of the threaded rod 17 is fixedly connected with a supporting rod 23, the top end of the supporting rod 23 penetrates through the cylinder cover 9 and is fixedly connected with a driven gear 24, the back of the driven gear 24 is in meshed connection with a driving gear 25, the driving gear 25 is fixedly connected with the output end of a servo motor 26, the servo motor 26 is fixedly connected with the back of the outer cylinder body 3, one side of the servo motor 26 is connected with a power wire 27, the servo motor 26 drives the driving gear 25 to rotate, after being driven by the driven gear 24, the threaded rod 17 is driven to rotate, when the threaded rod 17 rotates, the annular scraping plate 20 moves along the inner cylinder body 5 to scrape down scale, and therefore cleaning of the scale is facilitated.

To sum up: as shown in fig. 1 to 5, when using the heat energy recovery and storage device, it is simply understood that the present device is firstly to clamp the annular frame 401 on the inner circumferential surface of the outer cylinder 3, rotate the annular frame 401 to make the positions of the screw holes 405 and the through holes 407 correspond one by one, then to pass the locking bolts 406 through the through holes 407 and connect with the screw holes 405 in a threaded manner, fix the positions of the annular frame 401, at this time, the heat preservation cotton 404 is attached to the outer circumferential surface of the inner cylinder 5 to prevent heat dissipation, and meanwhile, the double-layer glass plate 403 with the vacuum inside cuts off the path of radiation heat transfer in the heat transfer route, and cooperates with the heat preservation cotton 404 to greatly improve the heat preservation effect, thereby preventing heat dissipation, secondly, to open the water inlet pipe 10 to pour cold water or normal temperature water into the inner cylinder 5, then to introduce smoke gas from the inlet 7, and the smoke flows along the smoke channel 6, heat exchange with internal cold water or normal temperature water occurs, heat in the flue gas is absorbed, finally, the heat energy in the flue gas is recovered and stored through the smoke exhaust pipe 8, finally, when the scale in the inner cylinder 5 needs to be cleaned, the servo motor 26 is started, the servo motor 26 drives the driving gear 25 to rotate anticlockwise, the driving gear 25 drives the driven gear 24 to rotate, the driven gear 24 drives the threaded rod 17 to rotate through the supporting rod 23, the threaded rod 17 is connected with the annular scraping plate 20 through the internal thread cylinder 18 in a threaded manner, the annular scraping plate 20 is connected with the guide rod 22 in a sliding manner through the through hole 21, therefore, when the driving gear 25 rotates anticlockwise, the annular scraping plate 20 moves upwards along the inner cylinder 5, the scale adhered to the inner wall of the inner cylinder 5 is scraped, then, the cylinder cover 9 is screwed down, the scale on the annular scraping plate 20 is cleaned manually, and the servo motor 26 is started again, the servo motor 26 drives the driving gear 25 to rotate clockwise, the annular scraping plate 20 is reset to prepare for the next cleaning, when the internal components are required to be overhauled, the cylinder cover 9 is screwed down, the driving gear 25 is pulled upwards, the rectangular block 16 is separated from the rectangular groove 15, the internal components can be taken out, after the overhauling is finished, the rectangular block 16 is inserted into the rectangular groove 15 from top to bottom, the guide rod 22 of the rectangular block penetrates through the through hole 21, and after the driving gear 25 is meshed with the driven gear 24, the cylinder cover 9 is screwed again, and the details which are not described in detail in the specification belong to the prior art known to the expert in the field.

Although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (8)

1. A thermal energy recovery storage apparatus comprising: the device is characterized by comprising support legs (1), a support frame (2), an outer cylinder body (3) and a flue (6);

the support leg is characterized in that the end part of the support leg (1) is fixedly connected with a support frame (2), an outer cylinder body (3) is fixedly connected in the support frame (2), a heat preservation component (4) is connected to the inner wall of the outer cylinder body (3), an inner cylinder body (5) is connected in the heat preservation component (4), a flue (6) is arranged on the inner wall of the inner cylinder body (5), one end of the flue (6) is fixedly connected with a smoke inlet pipe (7), the other end of the flue (6) is fixedly connected with a smoke outlet pipe (8), and the end part of the smoke outlet pipe (8) is connected to the front part of the outer cylinder body (3) in a penetrating manner;

the cylinder cover (9) is in threaded connection on the inner cylinder body (5), a water inlet pipe (10) is embedded and arranged above the cylinder cover (9), and a drain valve (11) is embedded and arranged at the bottom of the inner cylinder body (5).

2. A thermal energy recovery storage apparatus according to claim 1, wherein: the insulation assembly (4) comprises: annular frame (401), annular chamber (402), double glazing board (403), heat preservation cotton (404), screw hole (405), locking bolt (406), through-hole (407), be connected with annular frame (401) on outer barrel (3) inner peripheral face, annular chamber (402) have been seted up in annular frame (401), annular chamber (402) in-connection has double glazing board (403), and is the vacuum state between double glazing board (403).

3. A thermal energy recovery storage apparatus according to claim 2, wherein: and the inner peripheral surface of the annular frame (401) is fixedly connected with heat preservation cotton (404), and the heat preservation cotton (404) is arranged on the outer peripheral surface of the inner cylinder body (5).

4. A thermal energy recovery storage apparatus according to claim 3, wherein: threaded holes (405) are formed in the outer peripheral surface of the annular frame (401), locking bolt (406) ends are connected to the threaded holes (405) in an internal threaded mode, the locking bolts (406) are connected in penetrating holes (407) in a penetrating mode, and the penetrating holes (407) are formed in one side of the outer cylinder body (3).

5. A thermal energy recovery storage apparatus according to claim 1, wherein: the novel rotary drum is characterized in that a groove (12) is formed in the inner bottom surface of the inner drum body (5), a bearing (13) is connected in the groove (12), a rotating shaft (14) is connected in the bearing (13), a rectangular groove (15) is formed in the top end of the rotating shaft (14), and a rectangular block (16) is connected in the rectangular groove (15) in a clamping mode.

6. A thermal energy recovery storage apparatus according to claim 5, wherein: the novel scraper comprises a rectangular block (16), wherein a threaded rod (17) is fixedly connected to the upper surface of the rectangular block, an internal thread cylinder (18) is connected to the threaded rod (17) in a threaded mode, a connecting rod (19) is fixedly connected to one side of the internal thread cylinder (18), one end of the connecting rod (19) is fixedly connected to the inner peripheral surface of an annular scraper (20), and the annular scraper (20) is slidably connected into the inner cylinder (5).

7. A thermal energy recovery storage apparatus according to claim 6, wherein: the annular scraping plate (20) is internally provided with a through hole (21), a guide rod (22) is connected in the through hole (21) in a penetrating way, and the tail end of the guide rod (22) is fixedly connected to the inner bottom surface of the inner cylinder body (5).

8. A thermal energy recovery storage apparatus according to claim 7, wherein: threaded rod (17) top fixedly connected with branch (23), branch (23) top runs through cover (9) fixedly connected with driven gear (24), driven gear (24) back meshing is connected with driving gear (25), driving gear (25) fixed connection is at servo motor (26) output, servo motor (26) fixed connection is at outer barrel (3) back, servo motor (26) one side is connected with power cord (27).