CN210740938U - Novel energy-saving system for heat supply - Google Patents

Abstract

The utility model discloses a novel economizer system of heat supply belongs to heating equipment technical field. A novel heat supply energy-saving system comprises a bottom plate, wherein a heat supply box is fixedly connected to the top of the bottom plate, the outer wall of the heat supply box is connected with a motor, the output end of the motor is connected with a rotating shaft, one end, away from the motor, of the rotating shaft penetrates through the heat supply box and is connected with a drying box, the drying box is rotatably connected into the heat supply box, the outer wall of the rotating shaft is connected with a first gear, two sides of the first gear are respectively meshed with a second gear, the first gear and the second gear are respectively rotatably connected to the outer wall of the drying box, the outer wall of the drying box is slidably connected with a first rack meshed with the first gear, and; the utility model discloses a control second gear reciprocating motion, the couple that makes the axis of rotation outside can self be rotatory along with stoving case pivoted in, has guaranteed that article remain the developments all the time at the stoving in-process, further realizes carrying out the purpose of evenly drying to article.

Description

Novel energy-saving system for heat supply

Technical Field

The utility model relates to a heating equipment technical field especially relates to a novel economizer system of heat supply.

Background

At present, people can dry meat or vegetables by utilizing some heat supply resources outdoors, and prepared dried products, such as preserved meat, preserved fish, preserved sausage and the like are popular, the unique preparation method is derived from the wisdom of farmers, each family in rural areas kills pig and slaughtered sheep before and after winter solstice in winter every year, and the salted products are pickled, aired and dried, fresh meat is made into the preserved products, are necessary pickles on dining tables at night and year, are also necessary first-class food materials on the dining tables in whole winter, and the preserved products need to be dried by utilizing the outdoor heat supply resources.

Chinese utility model with patent number CN201820424208.X in the prior art discloses an energy-saving device for outdoor heat supply, which comprises a bottom plate, a heat supply box is fixedly connected to the top of the bottom plate, a heat supply device is fixedly connected to the bottom of the inner cavity of the heat supply box, the heat supply device comprises a support plate, vertical columns are fixedly connected to both sides of the support plate, a sliding groove is arranged at the top of the support plate, and a sliding block is slidably connected to the inside of the sliding groove. The drying of the articles in the drying box is uneven, the drying quality is poor, more heat is needed to dry the articles, and energy conservation is not facilitated.

Disclosure of Invention

The utility model aims at solving the problems existing in the prior art and providing a novel energy-saving system for heat supply.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a novel heat supply energy-saving system comprises a bottom plate, wherein the top of the bottom plate is fixedly connected with a heat supply box, the bottom wall of the heat supply box is fixedly connected with a heat supply mechanism, the top of the heat supply mechanism is provided with a combustion furnace, the outer wall of the heat supply box is fixedly connected with a feeding door matched with the combustion furnace, the inner wall of the heat supply box is also connected with a drying box and a heat exchange box, the outer wall of the heat supply box is connected with a motor, the output end of the motor is connected with a rotating shaft, one end of the rotating shaft, far away from the motor, penetrates through the heat supply box and is connected with the drying box, the drying box is rotatably connected in the heat supply box, the outer wall of the rotating shaft is connected with a first gear, the two sides of the first gear are respectively connected with a second gear in a meshing manner, the first gear and the second gear are respectively rotatably connected, two the second gear outer wall all is connected with the lead screw, two the lead screw all rotates to be connected in the stoving incasement, lead screw outer wall threaded connection has the sleeve, sleeve outer wall connection has the axis of rotation, axis of rotation outer wall connection has the third gear, stoving incasement wall connection has the second rack with third gear matched with, telescopic one end is kept away from to the axis of rotation is connected with the couple.

Preferably, the outer wall of the first rack is connected with a sliding block, and the outer wall of the drying box is provided with a sliding groove matched with the sliding block in a chiseled mode.

Preferably, the inner wall of the heat supply box is connected with a main filter screen, and the main filter screen is connected between the combustion furnace and the drying box.

Preferably, the outer wall of the drying box is provided with meshes.

Preferably, the top of stoving case still is connected with assists the filter screen, the one end that the stoving case was kept away from to assist the filter screen is connected with the active carbon filter layer, just the active carbon filter layer links to each other with the heat exchange case.

Preferably, the inside of heat exchange box is connected with main heat exchange tube and supplementary heat exchange tube respectively, the outer wall of heat exchange box has set gradually and runs through and extend to the inlet tube and the outlet pipe in the heat supply case outside.

Compared with the prior art, the utility model provides a novel economizer system of heat supply possesses following beneficial effect:

1. the novel heat supply energy-saving system needs to control the articles to keep dynamic to improve the drying uniformity of the articles when the articles are dried, controls the motor to run, enables the output end of the motor to drive the drying box to integrally rotate through the rotating shaft, the first gear rotates along with the rotating shaft and is meshed with the first rack to control the first rack to move upwards, is intermittent due to the unique tooth number of the first gear, when the first gear is meshed with the second gear, the second gear is also meshed with the first rack to enable the first rack to move downwards, the first gear continues to rotate and is meshed with the first rack to enable the first rack to continue to move upwards, the second gear reciprocates to rotate, the second gear drives the screw rod to rotate back and forth, the sleeve on the screw rod also reciprocates to move back and forth, and avoids the sleeve from moving towards the final direction, and when the sleeve moves, the rotating shaft is driven to move, the third gear is meshed with the second rack, the rotating shaft is driven to hook, and therefore the hook is rotated, articles on the hook are uniformly dried, waste heat resources after drying enter the heat exchange box, cold water resources are entered through the water inlet pipe, heat exchange is conducted through the main heat exchange pipe and the auxiliary heat exchange pipe, hot water after heating is discharged through the water outlet pipe, waste heat resources are prevented from directly losing to the air, waste of resources is caused, and the purposes of energy conservation and environmental protection are achieved.

The device does not relate to the part and all is the same with prior art or can adopt prior art to realize, the utility model discloses a control second gear reciprocating motion, the couple that makes the axis of rotation outside can self be rotatory along with stoving case pivoted in, has guaranteed that article remain the developments all the time at the stoving in-process, further realizes carrying out the purpose of evenly drying to article to improve the oven-dry mass of article, avoided the stoving to need provide more heats, cause the waste of resource.

Drawings

Fig. 1 is a front view of a novel heat supply energy-saving system provided by the present invention;

fig. 2 is the structural schematic diagram of the drying box of the novel heat supply energy-saving system provided by the utility model.

In the figure: 1. a base plate; 2. a heat supply box; 3. a heat supply mechanism; 4. a combustion furnace; 5. a feed gate; 6. a drying box; 601. a chute; 602. mesh openings; 7. a heat exchange box; 701. a main heat exchange tube; 702. auxiliary heat exchange pipes; 703. a water inlet pipe; 704. a water outlet pipe; 8. a motor; 801. a rotating shaft; 9. a first gear; 10. a second gear; 11. a first rack; 111. a slider; 12. a screw rod; 13. a sleeve; 14. a rotating shaft; 15. a third gear; 16. a second rack; 17. hooking; 18. a main filter screen; 19. auxiliary filter screen; 20. an active carbon filter layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1-2, a novel heat supply energy-saving system comprises a bottom plate 1, a heat supply box 2 is fixedly connected to the top of the bottom plate 1, a heat supply mechanism 3 is fixedly connected to the bottom wall of the heat supply box 2, a combustion furnace 4 is arranged at the top of the heat supply mechanism 3, a feed door 5 matched with the combustion furnace 4 is fixedly connected to the outer wall of the heat supply box 2, a drying box 6 and a heat exchange box 7 are further connected to the inner wall of the heat supply box 2, a motor 8 is connected to the outer wall of the heat supply box 2, a rotating shaft 801 is connected to the output end of the motor 8, one end of the rotating shaft 801 far away from the motor 8 penetrates through the heat supply box 2 to be connected with the drying box 6, the drying box 6 is rotatably connected to the heat supply box 2, a first gear 9 is connected to the outer wall of the rotating shaft 801, a second gear 10 is respectively engaged to two sides of the first gear 9, the first gear 9 and the, two second gear 10 outer walls all are connected with lead screw 12, and two lead screws 12 all rotate to be connected in stoving case 6, and lead screw 12 outer wall threaded connection has sleeve 13, and sleeve 13 outer wall is connected with axis of rotation 14, and 14 outer wall connections of axis of rotation have third gear 15, and 6 inner wall connections of stoving case have with third gear 15 matched with second rack 16, and the one end that sleeve 13 was kept away from to axis of rotation 14 is connected with couple 17.

Referring to fig. 2, a sliding block 111 is connected to an outer wall of first rack 11, and a sliding groove 601 matched with sliding block 111 is cut on an outer wall of drying box 6.

Referring to fig. 1, a main filter 18 is connected to an inner wall of the heat supply box 2, and the main filter 18 is connected between the combustion furnace 4 and the drying box 6.

Referring to fig. 2, the outer wall of the drying box 6 is provided with meshes 602.

Referring to fig. 1, the top of the drying box 6 is further connected with an auxiliary filter screen 19, one end of the auxiliary filter screen 19, which is far away from the drying box 6, is connected with an activated carbon filter layer 20, and the activated carbon filter layer 20 is connected with the heat exchanging box 7.

Referring to fig. 1, a main heat exchange pipe 701 and an auxiliary heat exchange pipe 702 are connected to the inside of the heat exchange box 7, and a water inlet pipe 703 and a water outlet pipe 704 penetrating and extending to the outside of the heat supply box 2 are sequentially disposed on the outer wall of the heat exchange box 7.

In the utility model, when drying the object, the object is required to be controlled to keep dynamic to improve the drying uniformity of the object, the motor 8 is controlled to operate, the output end of the motor 8 drives the drying box 6 to rotate integrally through the rotating shaft 801, the first gear 9 rotates along with the rotating shaft 801 and is meshed with the first rack 11 to control the first rack 11 to move upwards, due to the unique tooth number of the first gear 9, the meshing of the first gear 9 and the first rack 11 is intermittent, when the first gear 9 is meshed with the second gear 10, the second gear 10 is also meshed with the first rack 11 to make the first rack 11 move downwards, the first gear 9 rotates continuously and is meshed with the first rack 11, and the first rack 11 moves continuously upwards, so that the second gear 10 rotates in a reciprocating manner, the second gear 10 drives the screw rod 12 to rotate back and forth, and the sleeve 13 on the screw rod 12 also moves back and forth, the sleeve 13 is prevented from moving towards one direction all the time, the sleeve 13 drives the rotating shaft 14 to move while moving, the third gear 15 is meshed with the second rack 16, the rotating shaft 14 drives the hook 17 to rotate, so that articles on the hook 17 are uniformly dried, the dried waste heat resources enter the heat exchange box 7, the cold water resources enter through the water inlet pipe 703 and are subjected to heat exchange through the main heat exchange pipe 701 and the auxiliary heat exchange pipe 702, the heated hot water is discharged through the water outlet pipe 704, the waste of the resources caused by the fact that the waste heat resources are directly lost into the air is avoided, and the purposes of energy conservation and environmental protection are achieved; the utility model discloses a control second gear 10 reciprocating motion, make the couple 17 in the 14 outsides of axis of rotation along with stoving case 6 pivoted in, can self be rotatory, guaranteed that article remain the developments all the time at the stoving in-process, further realize carrying out the purpose of evenly drying to article to improve the oven-dry mass of article, avoided the stoving to need provide more heats, cause the waste of resource.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. A novel heat supply energy-saving system comprises a bottom plate (1), wherein a heat supply box (2) is fixedly connected to the top of the bottom plate (1), a heat supply mechanism (3) is fixedly connected to the bottom wall of the heat supply box (2), a combustion furnace (4) is arranged at the top of the heat supply mechanism (3), a feeding door (5) matched with the combustion furnace (4) is fixedly connected to the outer wall of the heat supply box (2), a drying box (6) and a heat exchange box (7) are further connected to the inner wall of the heat supply box (2), the novel heat supply energy-saving system is characterized in that a motor (8) is connected to the outer wall of the heat supply box (2), the output end of the motor (8) is connected with a rotating shaft (801), one end, far away from the motor (8), of the rotating shaft (801) penetrates through the heat supply box (2) to be connected with the drying box (6), the drying box (6) is rotatably connected in the heat supply box (2), both sides of the first gear (9) are engaged with second gears (10), the first gear (9) and the second gear (10) are rotatably connected to the outer wall of the drying box (6), the outer wall of the drying box (6) is connected with a first rack (11) meshed with a first gear (9) in a sliding way, the outer walls of the two second gears (10) are connected with screw rods (12), the two screw rods (12) are rotationally connected in the drying box (6), the outer wall of the screw rod (12) is connected with a sleeve (13) in a threaded manner, the outer wall of the sleeve (13) is connected with a rotating shaft (14), the outer wall of the rotating shaft (14) is connected with a third gear (15), the inner wall of the drying box (6) is connected with a second rack (16) matched with the third gear (15), one end of the rotating shaft (14) far away from the sleeve (13) is connected with a hook (17).

2. A novel energy-saving system for heat supply according to claim 1, characterized in that the outer wall of the first rack (11) is connected with a sliding block (111), and the outer wall of the drying box (6) is provided with a sliding groove (601) matched with the sliding block (111).

3. A novel energy-saving system for heat supply according to claim 1, characterized in that the inner wall of the heat supply box (2) is connected with a main filter screen (18), and the main filter screen (18) is connected between the combustion furnace (4) and the drying box (6).

4. A new energy saving system for heat supply according to claim 3, characterized in that the outer wall of the drying box (6) is provided with meshes (602).

5. A novel energy-saving system for supplying heat according to claim 4, characterized in that the top of the drying box (6) is further connected with an auxiliary filter screen (19), one end of the auxiliary filter screen (19) far away from the drying box (6) is connected with an activated carbon filter layer (20), and the activated carbon filter layer (20) is connected with the heat exchange box (7).

6. A novel energy-saving system for heat supply according to claim 5, characterized in that the interior of the heat exchange box (7) is connected with a main heat exchange pipe (701) and an auxiliary heat exchange pipe (702), and the outer wall of the heat exchange box (7) is sequentially provided with a water inlet pipe (703) and a water outlet pipe (704) which penetrate through and extend to the outside of the heat supply box (2).

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