CN-224225751-U - Food material dynamic fresh-keeping cabin structure based on multilayer vacuum negative pressure

Abstract

The utility model discloses a food material dynamic fresh-keeping cabin structure based on multilayer vacuum negative pressure, and relates to the technical field of fresh keeping. The fresh-keeping cabin comprises a fresh-keeping cabin, wherein an adjustable baffle mechanism and a locking mechanism are arranged on the fresh-keeping cabin, the adjustable baffle mechanism comprises two first hinge blocks fixedly connected to the inner wall of the bottom of the fresh-keeping cabin, first hinge rods are hinged to the first hinge blocks, second hinge blocks are hinged to the tops of the first hinge rods, a connecting block is fixedly connected between the second hinge blocks, an electric telescopic rod is fixedly connected between the two connecting blocks, and second hinge rods are hinged to the second hinge blocks. The adjustable partition plate mechanism is arranged, so that the problems that when the conventional fresh-keeping cabin body structure is used, the partition plate interval is inconvenient to adjust, sufficient space is difficult to provide for food materials, and the fixed space can cause damage and deterioration caused by extrusion of large-volume food materials, so that loss is caused are solved.

Inventors

• YANG QIYANG

Assignees

• 广东生之源集团有限公司

Dates

Publication Date

20260512

Application Date

20250521

Claims (7)

1. 1. The food material dynamic fresh-keeping cabin structure based on the multilayer vacuum negative pressure is characterized by comprising a fresh-keeping cabin (1), wherein an adjustable baffle mechanism (2) and a locking mechanism (3) are arranged on the fresh-keeping cabin (1); The adjustable baffle mechanism (2) comprises two first hinge blocks (211) fixedly connected to the inner wall of the bottom of the fresh-keeping cabin (1), first hinge rods (212) are hinged to the first hinge blocks (211), second hinge blocks (213) are hinged to the top of the first hinge rods (212), connecting blocks (214) are fixedly connected between the second hinge blocks (213), electric telescopic rods (215) are fixedly connected between the connecting blocks (214), second hinge rods (216) are hinged to the second hinge blocks (213), and the locking mechanism (3) comprises a sealing baffle door (311) hinged to the front side of the fresh-keeping cabin (1).
2. 2. The food dynamic fresh-keeping cabin structure based on the multi-layer vacuum negative pressure according to claim 1, wherein the tops of the two hinge rods II (216) are hinged with hinge blocks III (217), and the tops of the two hinge blocks III (217) are fixedly connected with a ventilation baffle plate (218).
3. 3. The food dynamic fresh-keeping cabin structure based on the multilayer vacuum negative pressure according to claim 2, wherein rectangular slide bars (219) are fixedly connected to the left side inner wall and the right side inner wall of the fresh-keeping cabin (1), the two rectangular slide bars (219) penetrate through the ventilation partition plate (218), the two rectangular slide bars (219) are in sliding connection with the ventilation partition plate (218), and an air outlet pipeline (111) is arranged on the right side of the fresh-keeping cabin (1) in a communicating manner.
4. 4. The food dynamic fresh-keeping cabin structure based on the multi-layer vacuum negative pressure according to claim 3, wherein two rectangular sliding grooves (312) are formed in the front side of the fresh-keeping cabin (1), and the inner walls of the two rectangular sliding grooves (312) are both connected with a first rectangular sliding block (313) in a sliding mode.
5. 5. The food dynamic fresh-keeping cabin structure based on the multi-layer vacuum negative pressure according to claim 4, wherein the front sides of the first rectangular sliding blocks (313) are fixedly connected with second rectangular sliding blocks (315) respectively, and the inner walls of the second rectangular sliding blocks (314) are slidably connected with the second rectangular sliding blocks (314).
6. 6. The food dynamic fresh-keeping cabin structure based on the multi-layer vacuum negative pressure according to claim 5, wherein two rectangular sliding blocks (315) are fixedly connected with Z-shaped connecting blocks (316) on one sides, which are close to each other, of the two rectangular sliding blocks, and rectangular limiting rods (317) are fixedly connected with the rear sides of the two Z-shaped connecting blocks (316).
7. 7. The food dynamic fresh-keeping cabin structure based on multilayer vacuum negative pressure according to claim 6, wherein the right sides of the two rectangular boxes (314) are fixedly connected with handles (318), the front sides of the two rectangular sliding blocks (315) are fixedly connected with spring telescopic rods (319), the front sides of the two spring telescopic rods (319) are fixedly connected with the rectangular boxes (314), one sides of the two rectangular boxes (314) close to each other are provided with limit sliding grooves (3110), the inner walls of the two limit sliding grooves (3110) are respectively connected with two Z-shaped connecting blocks (316) in a sliding mode, the front sides of the fresh-keeping cabin (1) are fixedly connected with two locks (3111), and the two locks (3111) are matched with the rectangular limit rods (317).

Description

Food material dynamic fresh-keeping cabin structure based on multilayer vacuum negative pressure Technical Field The utility model belongs to the technical field of preservation, and particularly relates to a food material dynamic preservation cabin structure based on multilayer vacuum negative pressure. Background With the improvement of the living standard of people and the increasing importance of the safety and quality of foods, the food material fresh-keeping technology is more critical in daily life and food industry, and the food material dynamic fresh-keeping cabin structure based on the multi-layer vacuum negative pressure has been widely focused and applied in the food material fresh-keeping field because of the capability of effectively prolonging the quality guarantee period of food materials and keeping the freshness and nutrition components of the food materials. However, when the existing fresh-keeping cabin body structure is used, the interlayer interval is inconvenient to adjust, sufficient space is difficult to provide for food materials, and the fixed space can lead to large-volume food materials to be extruded so as to cause damage and deterioration, thereby causing loss. Disclosure of utility model The utility model aims to provide a food material dynamic fresh-keeping cabin structure based on multilayer vacuum negative pressure, and solves the problems that the prior fresh-keeping cabin structure is inconvenient to adjust interlayer intervals and difficult to provide sufficient space for food materials when in use, and the fixed space can cause damage and deterioration caused by extrusion of large-volume food materials, thereby causing loss. In order to solve the technical problems, the utility model is realized by the following technical scheme: The utility model relates to a food material dynamic fresh-keeping cabin structure based on multilayer vacuum negative pressure, which comprises a fresh-keeping cabin, wherein an adjustable baffle mechanism and a locking mechanism are arranged on the fresh-keeping cabin; The adjustable baffle mechanism comprises two first hinge blocks fixedly connected to the inner wall of the bottom of the fresh-keeping cabin, first hinge rods are hinged to the first hinge blocks, second hinge blocks are hinged to the top of the first hinge rods, connecting blocks are fixedly connected between the second hinge blocks, electric telescopic rods are fixedly connected between the connecting blocks, second hinge rods are hinged to the second hinge blocks, the locking mechanism comprises a sealing baffle door hinged to the front side of the fresh-keeping cabin, third hinge blocks are hinged to the top of the second hinge rods, and a ventilating baffle is fixedly connected to the top of the third hinge blocks. Further, the left side and the right side inner wall of fresh-keeping cabin are all fixedly connected with rectangle slide bar, two rectangle slide bar all runs through ventilative baffle, two rectangle slide bar all with ventilative baffle sliding connection, the right side intercommunication of fresh-keeping cabin is provided with the pipeline of giving vent to anger, two rectangle spouts have been seted up to the front side of fresh-keeping cabin, two equal sliding connection of inner wall of rectangle spout has rectangle slider one. Further, the front sides of the first rectangular sliding blocks are fixedly connected with rectangular boxes, the inner walls of the second rectangular sliding blocks are fixedly connected with the second rectangular sliding blocks in a sliding mode, one sides of the second rectangular sliding blocks, which are close to each other, are fixedly connected with Z-shaped connecting blocks, and the rear sides of the two Z-shaped connecting blocks are fixedly connected with rectangular limiting rods. Further, two right side fixedly connected with handle of rectangle box, two equal fixedly connected with spring telescopic link of front side of rectangle slider two, two the front side of spring telescopic link all with rectangle box fixed connection, two spacing spout has all been seted up to one side that the rectangle box is close to each other, two the inner wall of spacing spout respectively with two Z shape connecting block sliding connection, the front side fixedly connected with of fresh-keeping cabin two hasp, two hasp and rectangle gag lever post looks adaptation. The utility model has the following beneficial effects: 1. Through setting up adjustable baffle mechanism, during the use, will give vent to anger pipeline and vacuum pump intercommunication, can take out the air in the fresh-keeping cabin, reach the effect of vacuum fresh-keeping, when adjusting ventilative baffle height, thereby start electric telescopic handle, electric telescopic handle stretches and drives two articulated blocks two and keep away from each other through two connecting blocks, and then two articulated blocks two drive two articulated rods and tw