A tilting double retort assembly

CN224450633UActive Publication Date: 2026-07-03YELLOW CRANE TOWER WINE (XIANNING) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YELLOW CRANE TOWER WINE (XIANNING) CO LTD
Filing Date
2025-06-04
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

The existing still assembly is not convenient for assisting in lifting, tilting and tilting during assembly and use, which affects the efficiency of operation.

Method used

A tiltable double-layer still assembly was designed, comprising a bottom pot, a top cover, a first still grate, and a second still grate. By setting up a lifting component and a tilting component, the lifting component enables convenient flipping and movement of the bottom pot and the still grate, and the moving component improves the ease of operation.

Benefits of technology

It enables convenient flipping and moving of the bottom pot and the steaming grate, improving operational efficiency, facilitating cleaning and material handling, and enhancing the practicality and convenience of the still components.

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Abstract

The utility model discloses a kind of tiltable double-layer wine retort components, including bottom pan part, top cover part, first retort grate and second retort grate, the bottom pan part bottom is equipped with heating part, and top cover part top is connected with steam pipe part, the second retort grate and first retort grate are sequentially assembled between top cover part and bottom pan part from top to bottom;The bottom pan part bottom is provided with support, the support bottom is equipped with moving assembly, and support surface is supported with outer support frame, and outer support frame cover is equipped in top cover part and bottom pan part outside, and outer support frame top is equipped with the jacking assembly corresponding with top cover part, the bottom pan part, first retort grate and second retort grate side are provided with corresponding lifting assembly.The utility model is convenient to assist jacking overturning and dumping according to needs when assembling and using, and it is beneficial to improve operation efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of brewing technology, specifically to a tiltable double-layer still assembly. Background Technology

[0002] In the brewing process, the distillation of the mash is a crucial step. It involves heating the mash to convert it into alcoholic vapor, which is then cooled to produce alcohol. The still, as the core equipment in this step, mainly consists of a bottom pot and heating components, a lid, and a grate. Its operation relies on the principle of distillation to achieve brewing. The fermented mash is placed inside the grate, and steam is generated with the help of the bottom pot. Steam is introduced through the steam inlet. As the steam rises, it comes into full contact with the mash, vaporizing the alcohol and other volatile substances in the mash. After the steam rises to the lid, it enters the cooling device through the steam pipe, where the temperature drops rapidly. The alcohol and other volatile substances in the steam recondense into liquid and are collected through a diversion device, thus obtaining baijiu (Chinese liquor).

[0003] For example, Chinese patent application number CN202220710711.8 discloses a wine steamer, including a pot body and a pot lid. The bottom of the pot body is provided with two bottom plates, and the bottom plates are provided with several steam holes. The inner end of the bottom plate is rotatably connected to the pot body. The outer end of the top surface of the bottom plate is provided with a connector. A limit hook is fixed at the inner wall of the opening end of the pot body. The upper end of the connector is provided with a hanging ring corresponding to the limit hook. Several hanging rings are provided on the outer side of the pot body. When the hanging ring is hung on the limit hook, the bottom surface of the pot body is closed by the two bottom plates.

[0004] However, existing still components are inconvenient to lift, tilt, and tilt as needed during assembly and use, which affects operational efficiency.

[0005] Therefore, in order to solve the above problems, a tiltable double-layer still assembly is proposed. Summary of the Invention

[0006] To solve the aforementioned technical problems, this utility model provides a tiltable double-layer still assembly.

[0007] The technical solution provided by this utility model is as follows:

[0008] A tiltable double-layer still assembly includes a bottom pot, a top cover, a first still grate, and a second still grate. The bottom pot is equipped with a heating element, and the top cover is connected to a steam pipe. The second still grate and the first still grate are sequentially mounted between the top cover and the bottom pot from top to bottom. A support is provided at the bottom of the bottom pot, and a movable component is mounted at the bottom of the support. An outer support frame supports the surface of the support and covers the top cover and the bottom pot. A lifting component corresponding to the top cover is mounted on the top of the outer support frame. Corresponding lifting components are provided on the sides of the bottom pot, the first still grate, and the second still grate.

[0009] The lifting assembly includes an upper hanger, which is supported on the side wall and above the top cover. Hanging rods are fixed on both sides of the upper hanger, and the hanging rods are inserted through the upper part of the outer support frame. A top plate is fixed on the top of the hanging rods, and a top telescopic cylinder is supported between the bottom of the top plate and the top of the outer support frame.

[0010] The lifting assembly includes a bottom pot shaft, a grate shaft, and a grate shaft respectively mounted on both sides of the bottom pot, the first grate, and the second grate. A first telescopic cylinder, a second telescopic cylinder, and a third telescopic cylinder, corresponding to the outer ends of the bottom pot shaft, the first grate shaft, and the second grate shaft, are mounted and supported on both sides of the support. The outer ends of the bottom pot shaft, the first grate shaft, and the second grate shaft are all supported and assembled with the telescopic ends of the first telescopic cylinder, the second telescopic cylinder, and the third telescopic cylinder through a tilting assembly.

[0011] Furthermore, both the tilting assembly and the lifting assembly are located outside the outer support frame. The tilting assembly includes a support base, which is supported on the top of the telescopic end of the third telescopic cylinder. The outer end of the second grate shaft is inserted and assembled inside the support base, and a bearing is assembled between the inside of the support base and the outer end of the second grate shaft. An assembly screw head is integrally fixed to the outer end of the second grate shaft, and a limiting ring plate is sleeved on the outer wall of the assembly screw head. External support posts are fixed on both sides of the top of the limiting ring plate, and the external support posts are inclined upwards. The first grate shaft, the second telescopic cylinder, the bottom pot shaft, and the first telescopic cylinder are all assembled with the corresponding tilting assembly in this way.

[0012] Furthermore, the inner end of the assembly screw head is integrally fixed with an inner retaining seat, and the inner retaining seat has a hexagonal cross-section. The center of the limiting ring plate has a groove identical to that of the inner retaining seat, and the assembly screw head is tightened by an assembly nut threaded on the outside. A screw pin is threaded into the upper part of the limiting ring plate, and the inner end of the screw pin is inserted into the upper end of the support base. The upper end of the support base has a corresponding insertion hole. This facilitates the auxiliary assembly of the tilting component, thereby facilitating the auxiliary lifting and subsequent rotation and tilting of the lifting component and the bottom pot, the first steamer grate and the second steamer grate.

[0013] Furthermore, the bottom and sides of the bottom pot and heating part are supported by bottom brackets, and the center of the outer wall of the bottom brackets on both sides is welded and fixed to the bottom pot shaft. The bottom pot shaft, the first grate shaft, and the second grate shaft are all inserted through the inside of the side wall of the outer support frame, and the side wall of the outer support frame is provided with a connecting side sliding groove from top to bottom.

[0014] Furthermore, levers corresponding to the outer support posts are placed on both sides of the bottom of the outer support frame, and through holes corresponding to the outer support posts are opened at both ends of the levers; this facilitates stable support of the bottom of the pot and the heating part, and also facilitates the auxiliary movement of the outer support posts, making it easier to tilt later.

[0015] Furthermore, the bottom of the top telescopic cylinder is supported at the center of the top of the outer support frame, and the telescopic end of the top telescopic cylinder is fixedly assembled with the center of the top plate. A limiting plate is fixedly provided at the lower part of the rod, and a spring is sleeved in the middle of the rod. The spring is located between the limiting plate and the inner top wall of the outer support frame. This facilitates the lifting and lowering of the top cover and the steam pipe, and facilitates subsequent operation, opening and assisted closing assembly.

[0016] Furthermore, the movable component includes casters fixed around the bottom of the support, and corresponding limit supports are provided around the inside of the support. The limit supports are threaded into the support, and the bottom of the limit supports is fixed with a foot, and the bottom of the foot is fixed with an anti-slip pad. The surface of the limit supports is threaded with a limit nut, and two sets of limit nuts are located above and below the support. The top of the limit supports is integrally provided with a torsion block; this facilitates the auxiliary movement and limit support of the support, making subsequent use more convenient.

[0017] The beneficial effects of this utility model are:

[0018] 1) The lifting and tilting components are designed to facilitate the lifting and separation of the bottom pot, the first grate and the second grate during assembly and use. They also facilitate the tilting and tilting of the bottom pot, the first grate and the second grate through the tilting components, making operation and use more convenient, and facilitating subsequent cleaning and material handling, thereby improving the convenience and practicality of the tiltable double-layer still assembly.

[0019] 2) The lifting components facilitate the auxiliary lifting and opening / closing of the top cover and steam pipe section. At the same time, the outer support frame and support facilitate stable support of the bottom pot section. In addition, with the cooperation of the moving components, it is also easy to move and limit the support, making operation more convenient and improving the convenience and practicality of the tilting double-layer wine steamer component. Attached Figure Description

[0020] Figure 1 This is a frontal perspective three-dimensional schematic diagram of the overall structure of this utility model;

[0021] Figure 2 This is a side-view perspective view of the overall structure of this utility model;

[0022] Figure 3 This is a bottom-view perspective view of the overall structure of this utility model;

[0023] Figure 4 This is a three-dimensional side view sectional view of a partial structure of the lifting assembly and tilting assembly of this utility model;

[0024] Figure 5 This is a frontal three-dimensional schematic diagram of the structure of this utility model when it is raised, lowered, or tilted.

[0025] In the diagram: 100, Bottom pot section; 101, Heating section; 102, Top cover section; 103, Steam pipe section; 104, First steam grate; 105, Second steam grate; 110, Support; 120, Outer support frame; 121, Side sliding groove; 130, Lifting assembly; 131, Upper hanging frame; 132, Hanging rod; 133, Top plate; 134, Top telescopic cylinder; 135, Limiting plate; 136, Spring; 140, Lifting assembly; 141, Bottom pot shaft; 142, Grate first shaft; 143, Grate second shaft; 144, First extension... 145. Second telescopic cylinder; 146. Third telescopic cylinder; 147. Base bracket; 150. Tilting assembly; 151. Support seat; 152. Bearing; 153. Assembly screw head; 154. Limiting ring plate; 155. Inner card seat; 156. Assembly nut; 157. Outer support column; 158. Screw pin; 159. Insertion hole; 160. Moving assembly; 161. Caster wheel; 162. Limiting support column; 163. Support foot; 164. Anti-slip pad; 165. Limiting nut; 166. Torque block; 170. Wrench bar. Detailed Implementation

[0026] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention.

[0027] It should be noted that in the description of this utility model, terms such as "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," and "outer" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. These terms are used only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model. Example

[0028] like Figures 1 to 5 As shown, a tiltable double-layer still assembly includes a bottom pot 100, a top cover 102, a first still grate 104, and a second still grate 105. A heating element 101 is mounted at the bottom of the bottom pot 100, and a steam pipe 103 is connected to the top of the top cover 102. The second still grate 105 and the first still grate 104 are sequentially mounted between the top cover 102 and the bottom pot 100 from top to bottom. A support is provided at the bottom of the bottom pot 100. The base 110 has a movable component 160 mounted at its bottom, and an outer support frame 120 is supported on the surface of the base 110. The outer support frame 120 covers the top cover 102 and the bottom pot 100. The top of the outer support frame 120 is equipped with a lifting component 130 corresponding to the top cover 102. The bottom pot 100, the first steamer 104, and the second steamer 105 are provided with corresponding lifting components 140 on their sides.

[0029] The lifting assembly 130 includes an upper hanger 131, which is supported on the side wall and above the top cover 102. Hanging rods 132 are fixed on both sides of the upper hanger 131, and the hanging rods 132 are inserted through the upper part of the outer support frame 120. A top plate 133 is fixed on the top of the hanging rods 132, and a top telescopic cylinder 134 is supported between the bottom of the top plate 133 and the top of the outer support frame 120.

[0030] The lifting assembly 140 includes a bottom pot shaft 141, a first grate shaft 142, and a second grate shaft 143 respectively mounted on both sides of the bottom pot 100, the first grate 104, and the second grate 105. The support 110 has a first telescopic cylinder 144, a second telescopic cylinder 145, and a third telescopic cylinder 146 corresponding to the outer ends of the bottom pot shaft 141, the first grate shaft 142, and the second grate shaft 143. The outer ends of the bottom pot shaft 141, the first grate shaft 142, and the second grate shaft 143 are all supported and assembled with the telescopic ends of the first telescopic cylinder 144, the second telescopic cylinder 145, and the third telescopic cylinder 146 through a tilting assembly 150.

[0031] As a further technical solution in this embodiment, the lifting assembly 140 and the tilting assembly 150 are located outside the outer support frame 120. The tilting assembly 150 includes a support base 151, which is supported on the top of the telescopic end of the third telescopic cylinder 146. The outer end of the grate shaft 143 is inserted and assembled inside the support base 151, and a bearing 152 is assembled between the inside of the support base 151 and the outer end of the grate shaft 143. An assembly screw head 153 is integrally fixed to the outer end of the grate shaft 143, and a limiting ring plate 154 is sleeved on the outer wall of the assembly screw head 153. The top two of the limiting ring plate 154 are... Each side is fixed with an outer support column 157, which is inclined upwards. The first grate shaft 142, the second telescopic cylinder 145, the bottom pot shaft 141, and the first telescopic cylinder 144 are all assembled with the corresponding tilting assembly 150 in this way. During assembly and use, the second grate shaft 143 is stably supported by the support seat 151 and the bearing 152. Then, it is easy to lift the second grate shaft 143 with the third telescopic cylinder 146. Then, with the cooperation of the limiting ring plate 154 and the outer support column 157, it is easy to assist in tilting and overturning, making operation and use more convenient.

[0032] As a further technical solution of this embodiment, an inner retainer 155 is integrally fixed to the inner end of the assembly screw head 153, and the inner retainer 155 has a hexagonal cross-section. The center of the inner end of the limiting ring plate 154 has the same groove as the inner retainer 155. The assembly screw head 153 is threadedly fastened to the outside by the assembly nut 156. A screw pin 158 is threaded into the upper part of the limiting ring plate 154, and the inner end of the screw pin 158 is inserted into the upper end of the support base 151. The upper end of the support base 151 has a corresponding insertion hole 159. During assembly and use, it is convenient to stably support the assembly of the limiting ring plate 154, which makes it easier to assist the rotation of the grate shaft 143 through the outer support pin 157, making the operation and use more convenient. With the cooperation of the screw pin 158 and the insertion hole 159, it is convenient to limit and support the limiting ring plate 154 and the grate shaft 143, so that they can remain relatively horizontal when not flipped.

[0033] As a further technical solution of this embodiment, the bottom of the pot 100 and the heating part 101 are supported by a bottom bracket 147 on the bottom and both sides. The bottom bracket 147 is welded and fixed to the center of the outer wall on both sides of the bottom bracket 147 with the bottom pot shaft 141. The bottom pot shaft 141, the first grate shaft 142 and the second grate shaft 143 are all inserted through the inside of the side wall of the outer support frame 120. The side wall of the outer support frame 120 is provided with a connecting side sliding groove 121 from top to bottom. This facilitates auxiliary stable support and limit lifting, making operation and use more convenient.

[0034] As a further technical solution of this embodiment, the bottom two sides of the outer support frame 120 are provided with levers 170 corresponding to the outer support levers 157, and both ends of the levers 170 are provided with through holes corresponding to the outer support levers 157; this facilitates the auxiliary levers 157 to be moved, making operation and use more convenient and tilting operation more convenient.

[0035] As a further technical solution of this embodiment, the bottom of the top telescopic cylinder 134 is supported at the center of the top of the outer support frame 120, and the telescopic end of the top telescopic cylinder 134 is fixedly assembled with the center of the top plate 133. The lower part of the suspension rod 132 is fixedly provided with a limiting plate 135, and a spring 136 is sleeved in the middle of the suspension rod 132. The spring 136 is located between the limiting plate 135 and the inner top wall of the outer support frame 120. This facilitates the lifting of the top plate 133 and the suspension rod 132 by the top telescopic cylinder 134, thereby driving the lifting of the upper frame 131 and the top cover 102, making operation and use more convenient. Under the elastic force of the spring 136, it is convenient to assist the limiting plate 135 in driving the suspension rod 132 to press the top cover 102 when it descends, making operation and use more convenient.

[0036] As a further technical solution of this embodiment, the movable component 160 includes casters 161 fixed around the bottom of the support 110, and corresponding limit pillars 162 are provided around the inside of the support 110. The limit pillars 162 are threaded into the inside of the support 110. The bottom of the limit pillar 162 is fixed with a foot 163, and the bottom of the foot 163 is fixed with an anti-slip pad 164. The surface of the limit pillar 162 is threaded with a limit nut 165, and two sets of limit nuts 165 are located above and below the support 110. The top of the limit pillar 162 is integrally provided with a torsion block 166. This facilitates the limited movement and support of the support 110. The movement is carried out by the casters 161, and then the limit pillar 162 is turned with the cooperation of the torsion block 166, so that the limit pillar 162 touches the ground with the cooperation of the foot 163 and the anti-slip pad 164. Then, it is tightened with the cooperation of the limit nut 165 to maintain the limited support.

[0037] The working principle of this utility model:

[0038] 1) During assembly and use, the dual setup of the first grate 104 and the second grate 105 facilitates the subsequent distillation of the mash. Simultaneously, before and after processing, the third telescopic cylinder 146, in conjunction with the tilting assembly 150, lifts the second grate shaft 143, thereby raising the second grate 105. Subsequently, with the cooperation of the lever 170 and the outer support column 157, the lever 170 is inserted outside the outer support column 157, facilitating the movement of the limiting ring plate 154, thereby rotating the second grate shaft 143 and tilting the second grate 105. Similarly, auxiliary lifting and tilting operations can be performed with the cooperation of the first grate shaft 142 and the second telescopic cylinder 145. Lifting and tilting can also be performed with the cooperation of the bottom pot shaft 141 and the first telescopic cylinder 144, making feeding, discharging, and cleaning more convenient.

[0039] 2) During operation, the top cover 102 and the steam pipe 103 can be raised and lowered in conjunction with the top telescopic cylinder 134, making it easier to open and close the cover. With the support of the outer support frame 120 and the support 110, the operation is more convenient and stable. The casters 161 facilitate movement, and the limit support column 162 and the support foot 163 facilitate limit support, making the use more stable. The operation ends here.

[0040] The embodiments described above are merely preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model. Various modifications and improvements made to the technical solutions of the present utility model by those skilled in the art without departing from the principles and essence of the present utility model should fall within the protection scope defined by the claims of the present utility model.

Claims

1. A tilting double retort assembly characterized by, It includes a bottom pot, a top cover, a first steamer grate, and a second steamer grate. The bottom pot is equipped with a heating element, and the top cover is connected to a steam pipe. The second steamer grate and the first steamer grate are installed between the top cover and the bottom pot from top to bottom. The bottom of the pot is provided with a support, the bottom of the support is equipped with a moving component, and the surface of the support is supported by an outer support frame. The outer support frame covers the outside of the top cover and the pot, and the top of the outer support frame is equipped with a lifting component corresponding to the top cover. The sides of the pot, the first grate and the second grate are provided with corresponding lifting components. The lifting assembly includes an upper hanger, which is supported on the side wall and above the top cover. Hanging rods are fixed on both sides of the upper hanger, and the hanging rods are inserted through the upper part of the outer support frame. A top plate is fixed on the top of the hanging rods, and a top telescopic cylinder is supported between the bottom of the top plate and the top of the outer support frame. The lifting assembly includes a bottom pot shaft, a grate shaft, and a grate shaft respectively mounted on both sides of the bottom pot, the first grate, and the second grate. A first telescopic cylinder, a second telescopic cylinder, and a third telescopic cylinder, corresponding to the outer ends of the bottom pot shaft, the first grate shaft, and the second grate shaft, are mounted and supported on both sides of the support. The outer ends of the bottom pot shaft, the first grate shaft, and the second grate shaft are all supported and assembled with the telescopic ends of the first telescopic cylinder, the second telescopic cylinder, and the third telescopic cylinder through a tilting assembly.

2. A tilting, dual layer retort assembly according to claim 1 wherein, Both the tilting assembly and the lifting assembly are located outside the outer support frame. The tilting assembly includes a support base, which is supported on the top of the telescopic end of the third telescopic cylinder. The outer end of the second grate shaft is inserted and assembled inside the support base, and a bearing is assembled between the inside of the support base and the outer end of the second grate shaft. An assembly screw head is integrally fixed to the outer end of the second grate shaft, and a limiting ring plate is sleeved on the outer wall of the assembly screw head. External support posts are fixed on both sides of the top of the limiting ring plate, and the external support posts are inclined upwards. The first grate shaft, the second telescopic cylinder, the bottom pot shaft, and the first telescopic cylinder are all assembled with the corresponding tilting assembly in this way.

3. An inclined double retort assembly according to claim 2, wherein The inner end of the assembly screw head is integrally fixed with an inner retainer, and the inner retainer has a hexagonal cross-section. The center of the limiting ring plate has the same groove as the inner retainer, and the assembly screw head is tightened by the threaded assembly nut. A screw pin is threaded into the upper part of the limiting ring plate, and the inner end of the screw pin is inserted into the upper part of the support base. The upper part of the support base has a corresponding insertion hole.

4. The inclined double deck retort assembly of claim 2 wherein, The bottom of the pot and the heating part are supported by a bottom bracket on both sides, and the bottom bracket is welded and fixed to the center of the outer wall on both sides. The bottom pot shaft, the first grate shaft, and the second grate shaft are all inserted through the inside of the side wall of the outer support frame, and the side wall of the outer support frame is provided with a connecting side sliding groove from top to bottom.

5. A tiltable double-layer still assembly according to claim 2, characterized in that, The bottom two sides of the outer support frame are provided with levers corresponding to the outer support posts, and both ends of the levers are provided with through holes corresponding to the outer support posts.

6. The inclined double deck retort assembly of claim 1 wherein, The bottom of the top telescopic cylinder is supported at the center of the top of the outer support frame, and the telescopic end of the top telescopic cylinder is fixedly assembled with the center of the top plate. The lower part of the hanging rod is fixed with a limiting plate, and the middle part of the hanging rod is fitted with a spring. The spring is located between the limiting plate and the inner top wall of the outer support frame.

7. An inclined double deck retort assembly according to claim 1 wherein, The movable component includes casters fixed around the bottom of the support, and corresponding limit pillars are provided around the inside of the support. The limit pillars are threaded into the inside of the support. The bottom of the limit pillar is fixed with a foot, and the bottom of the foot is fixed with an anti-slip pad. The surface of the limit pillar is threaded with a limit nut, and two sets of limit nuts are located above and below the support. The top of the limit pillar is integrally provided with a torsion block.