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CN-224206669-U - Heat reusable oven with temperature-adjustable heat channel structure

CN224206669UCN 224206669 UCN224206669 UCN 224206669UCN-224206669-U

Abstract

A heat reusable oven with a temperature-adjustable hot runner structure comprises a storage unit, a high-temperature unit and a low-temperature unit. The high-temperature unit comprises a high-temperature box body, an electric heating disc and at least one heat outlet. The low temperature unit includes a low temperature cabinet, a housing, a spacer layer, a heat path, a first temperature adjustment assembly, and a second temperature adjustment assembly. The low-temperature box body is provided with a first heat inlet and a second heat inlet. A hot runner outlet is provided on the housing. The heat channel is communicated with the inside of the low-temperature box body through the heat outlet, and is communicated with the inside of the low-temperature box body through the first heat inlet and the second heat inlet. The first temperature adjusting component and the second temperature adjusting component are used for controlling the heat inlet of the first heat inlet and the second heat inlet, and further adjusting and controlling the temperature in the low-temperature box body.

Inventors

  • YANG YONGFU

Assignees

  • 安派智厨(浙江)有限公司

Dates

Publication Date
20260508
Application Date
20250422

Claims (10)

  1. 1. The heat recycling oven with the temperature-adjustable heat channel structure is characterized by comprising a storage unit, a high-temperature unit arranged on one side of the storage unit, and a low-temperature unit fixedly arranged on one side of the high-temperature unit, wherein the high-temperature unit comprises a high-temperature box body arranged on the storage unit, an electrothermal disk fixedly arranged on the top of the high-temperature box body, and at least one heat outlet arranged on the top of the high-temperature box body, the low-temperature unit comprises a low-temperature box body fixedly arranged on the high-temperature unit, a shell arranged on the outer side of the low-temperature box body, a spacer layer arranged between the low-temperature box body and the shell, a heat channel arranged between the spacer layer and the low-temperature box body, a first temperature adjusting component arranged in the heat channel, and a second temperature adjusting component arranged on the shell, wherein the low-temperature box body is provided with a first heat inlet and a second heat inlet and a heat outlet which are communicated with the first heat inlet and the heat outlet through the first heat inlet and the first heat channel and the first heat inlet and the heat outlet.
  2. 2. The heat reusable oven with the adjustable thermal tunnel structure of claim 1 wherein the first temperature adjustment assembly comprises a first stationary hood fixedly disposed on a side of the low temperature cabinet facing the spacing layer and a first moving hood slidably disposed on a side of the low temperature cabinet facing the spacing layer.
  3. 3. The heat reusable oven with the adjustable temperature hot aisle structure of claim 2, wherein the first stationary hood comprises a first stationary hood body fixedly mounted within the hot aisle and a plurality of first heat dissipating holes equally spaced on the first stationary hood body.
  4. 4. The heat reusable oven with the adjustable thermal tunnel structure of claim 3, wherein the first movable hood comprises a first movable hood body on a side of the first stationary hood facing the high temperature unit, a plurality of first seals provided on one side of the first movable hood body, a plurality of second seals provided on the other side of the first movable hood body, a plurality of first sliding holes provided on a side of the low temperature cabinet facing the first movable hood body, a plurality of mounting members for mounting the first movable hood body, and a movable handle for moving the first movable hood body.
  5. 5. The heat reusable oven with the adjustable thermal tunnel structure of claim 4 wherein the first moving housing body is "L" shaped.
  6. 6. The heat reusable oven with the temperature-adjustable hot runner structure of claim 4, wherein the first heat inlet and the first heat dissipation hole are arranged in a staggered manner.
  7. 7. The heat reusable oven with adjustable thermal tunnel structure of claim 1 wherein the second temperature adjustment assembly comprises a second stationary hood fixedly disposed on the housing and a second moving hood slidably mounted on the second stationary hood.
  8. 8. The heat reusable oven with the adjustable thermal tunnel structure of claim 7, wherein the second stationary cover comprises a second stationary cover body fixedly mounted on the top of the housing, a plurality of second heat dissipating holes spaced apart from the second stationary cover body, and two second sliding holes symmetrically disposed on both sides of the second stationary cover body.
  9. 9. The heat reusable oven with the adjustable hot runner structure of claim 8, wherein the second movable hood comprises a second movable hood body slidably connected to the second stationary hood body, a plurality of third seals corresponding to the second heat dissipating holes, and two sliding handles symmetrically disposed on both sides of the second movable hood body.
  10. 10. The heat reusable oven with the adjustable thermal tunnel structure of claim 9 wherein the length of the second moving hood is shorter than the length of the second stationary hood body.

Description

Heat reusable oven with temperature-adjustable heat channel structure Technical Field The utility model relates to the field of ovens, in particular to a heat reusable oven with a temperature-adjustable heat channel structure. Background Ovens are a common household appliance that is used primarily for baking and toasting items. For some large ovens used in process production, the baking space is much larger than that of a conventional oven, so that the heating element needs to continuously output higher temperature in order to maintain the temperature in the oven in a stable and balanced state to meet the baking requirements. And the temperature released by the heating element is maintained by only one part after the temperature in the oven is stable, and the other part can timely dissipate heat through a fan and the like so as to avoid damage to the oven caused by overheating. Thus, the oven often causes a lot of heat waste during operation. In the prior art, the utility model of patent publication No. CN210802026U provides a novel high-temperature oven capable of recycling heat, which comprises a visual window embedded in a sealing cover plate, rollers arranged at corners of the lower surface of a main body of the high-temperature oven and a tray arranged in the main body of the high-temperature oven. One side of the high-temperature oven main body is provided with a heat collecting component, and a supporting component is connected below the tray. The heat collection assembly can store heat in the high-temperature oven main body in the water storage tank, so that cold water in the water storage tank is converted into hot water for use, the heat utilization rate is improved, and the heat loss is reduced. The oven has the advantages that although the heat is secondarily utilized, the water storage tank irrelevant to the function of the oven is added, and the using space of the oven is increased. Meanwhile, when the water temperature rises to a certain temperature, the heat absorption effect is greatly reduced, and the heat dissipation of the oven is not facilitated. Disclosure of Invention In view of the above, the present utility model provides a heat reusable oven with a temperature-adjustable hot runner structure to solve the above problems. A heat reusable oven with a temperature-adjustable heat channel structure comprises a storage unit, a high-temperature unit arranged on one side of the storage unit, and a low-temperature unit fixedly arranged on one side of the high-temperature unit. The high-temperature unit comprises a high-temperature box body arranged on the storage unit, an electric heating disc fixedly arranged at the top of the high-temperature box body, and at least one heat outlet arranged at the top of the high-temperature box body. The low temperature unit comprises a low temperature box body fixedly arranged on the high temperature unit, a shell arranged on the outer side of the low temperature box body, a spacing layer arranged between the low temperature box body and the shell, a heat channel arranged between the spacing layer and the low temperature box body, a first temperature adjusting component arranged in the heat channel, and a second temperature adjusting component arranged on the shell. The low-temperature box body is provided with a first heat inlet and a second heat inlet. A hot runner outlet is provided on the housing. The heat channel is communicated with the inside of the high-temperature box body through the heat outlet, and is communicated with the inside of the low-temperature box body through the first heat inlet and the second heat inlet. The first temperature adjusting component and the second temperature adjusting component are used for controlling the heat inlet of the first heat inlet and the second heat inlet, and further adjusting and controlling the temperature in the low-temperature box body. Further, the first temperature adjusting assembly comprises a first fixed cover fixedly arranged on one side of the low-temperature box body, which faces the spacing layer, and a first movable cover slidingly arranged on one side of the low-temperature box body, which faces the spacing layer. Further, the first fixed cover comprises a first fixed cover body fixedly installed in the heat channel and a plurality of first radiating holes which are arranged on the first fixed cover body at equal intervals. Further, the first moving cover includes a first moving cover body located at a side of the first fixed cover toward the high temperature unit, a plurality of first seals provided at a side of the first moving cover body, a plurality of second seals provided at the other side of the first moving cover body, a plurality of first sliding holes provided at a side of the low temperature casing toward the first moving cover body, a plurality of mounting members for mounting the first moving cover body, and a moving handle for moving the first moving cover body. Further, the f