CN218982213U - Substitute tea preparation filter equipment - Google Patents

Abstract

The utility model discloses a substitute tea preparation and filtration device, which comprises a conveyor belt assembly, wherein the conveyor belt assembly comprises a first conveyor belt and a second conveyor belt, and the second conveyor belt is positioned at the downstream of the first conveyor belt; an impurity collection tank located below the conveyor belt assembly; the number of the impurity collecting tanks is matched with that of the conveying belts, and the impurity collecting tanks are hung below the corresponding conveying belts through connecting structures; the surface of the conveying belt is provided with a filtering hole, and small particle impurities pass through the filtering hole and enter the impurity collecting tank. According to the filtering device, the conveying belts and the impurity collecting tanks are connected into a whole through the connecting structure, the filtering holes with the size capable of ensuring the small particle impurities to pass through are formed in the surfaces of the conveying belts, the impurities enter the impurity collecting tanks with larger section sizes from the filtering holes to be intensively recovered, the two-time filtering and normal transportation of raw materials are realized through the sequential transportation of the two groups of conveying belts, and various problems caused by the secondary damage of the raw materials due to the transportation are avoided.

Description

Substitute tea preparation filter equipment

Technical Field

The utility model relates to the technical field of substitute tea production and processing, in particular to a substitute tea preparation and filtering device.

Background

The production process adopted by the substituted tea is different according to the different required raw materials, and the two process steps of raw material transportation and raw material filtering exist no matter what process is used for producing the substituted tea.

At present, the filtering of raw materials mainly adopts a screen type filtering structure, the aperture of a screen mesh is designed according to experience, impurities are filtered through the screen, and the raw materials are conveyed to the downstream of the process through a conveying belt so as to be subjected to subsequent processing by downstream equipment of the process.

At present, the screen filtering device is generally a separate device, so that external equipment is needed for transporting the obtained raw materials to the conveyor belt after filtering, and the transporting process also causes secondary damage to the raw materials and regenerates impurities, so that the process structure at present reduces the production efficiency of the raw materials, and the production cost is also increased due to the secondary damage.

Accordingly, based on the above technical problems, there is a need for developing a substitute tea preparation filter device.

Disclosure of Invention

The utility model aims to provide the device for preparing the substituted tea, which integrates the conveying device and the filtering device, completes impurity filtration while conveying, directly conveys the filtered raw materials to the downstream of the process by the conveying belt, and avoids secondary damage caused by transportation.

In order to achieve the above object, the present utility model provides the following technical solutions:

the utility model relates to a substitute tea preparation filtering device, which comprises:

a conveyor belt assembly comprising a first conveyor belt and a second conveyor belt, the second conveyor belt being located downstream of the process of the first conveyor belt and receiving feedstock conveyed by the first conveyor belt;

an impurity collection trough located below the conveyor belt assembly;

the impurity collecting tanks are matched with the conveying belts in number, and are suspended below the corresponding conveying belts through connecting structures;

the surface of the conveying belt is provided with a filtering hole, and small particle impurities pass through the filtering hole and enter the impurity collecting tank.

Further, the filtering device includes:

the two box bodies are arranged along the vertical direction and are a first treatment box and a second treatment box respectively;

the first conveying belt is positioned in the first treatment box, and the second conveying belt is positioned in the second treatment box;

the first conveyor belt is obliquely arranged in the first treatment box, a feed hopper is arranged above the process upstream end of the first conveyor belt, and external equipment inputs raw materials into the first conveyor belt from the feed hopper;

the second conveyor belt is obliquely arranged in the second treatment box, the process upstream end of the second conveyor belt is positioned right below the process downstream end of the first conveyor belt, and raw materials output by the first conveyor belt fall to the process upper end of the second conveyor belt and are continuously conveyed to the process downstream by the second conveyor belt.

Further, the first treatment tank and the second treatment tank are each configured in a structure with an upper end and a lower end open;

the first treatment box and the second treatment box are stacked together;

the inclination angle of the first conveying belt and the second conveying belt relative to the horizontal plane is 15-30 degrees; the first conveyor belt and the second conveyor belt are inclined in opposite directions.

Further, the impurity collecting grooves are arranged in parallel with the corresponding conveying belts;

the connection structure includes:

a connecting screw; and

a fastening nut positioned at one side of the impurity collecting tank;

the width of the impurity collecting tank is larger than the width of the conveying belt, and the length of the impurity collecting tank is smaller than the length of the conveying belt;

the process downstream ends of the first conveyor belt and the second conveyor belt extend to the outer side of the impurity collecting tank;

the side of the edge of the conveying belt is provided with a mounting ring, the connecting screw rod penetrates through the mounting ring, and the lower end of the connecting screw rod penetrates through the impurity collecting tank and is fastened through the fastening nut so as to realize the connection between the impurity collecting tank and the corresponding conveying belt.

In the technical scheme, the preparation and filtration device for the tea substitute provided by the utility model has the following beneficial effects:

according to the filtering device, the conveying belts and the impurity collecting tanks are connected into a whole through the connecting structure, the filtering holes with the size capable of ensuring the small particle impurities to pass through are formed in the surfaces of the conveying belts, the impurities enter the impurity collecting tanks with larger section sizes from the filtering holes to be intensively recovered, the two-time filtering and normal transportation of raw materials are realized through the sequential transportation of the two groups of conveying belts, and various problems caused by the secondary damage of the raw materials due to the transportation are avoided.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic diagram of a device for preparing and filtering tea substitute according to an embodiment of the present utility model;

fig. 2 is a top view of a conveyor belt and an impurity collection tank of a tea substitute preparation and filtration device according to an embodiment of the present utility model.

Reference numerals illustrate:

101. a first conveyor belt; 102. a second conveyor belt; 103. a filter hole;

2. an impurity collection tank; 3. a connection structure;

301. a connecting screw; 302. a fastening nut; 303. a mounting ring;

401. a first treatment tank; 402. and a second treatment tank.

Detailed Description

In order to make the technical scheme of the present utility model better understood by those skilled in the art, the present utility model will be further described in detail with reference to the accompanying drawings.

See fig. 1-2;

a tea substitute preparation filter device of this embodiment, the filter device comprising:

a conveyor belt assembly comprising a first conveyor belt 101 and a second conveyor belt 102, the second conveyor belt 102 being located downstream of the process of the first conveyor belt 101 and receiving feedstock conveyed by the first conveyor belt 101;

an impurity collection tank 2 located below the conveyor belt assembly;

the number of the impurity collecting tanks 2 is matched with that of the conveying belts, and the impurity collecting tanks 2 are hung below the corresponding conveying belts through the connecting structures 3;

the surface of the conveyor belt is provided with filter holes 103, and small particle impurities pass through the filter holes 103 and enter the impurity collecting tank 2.

Specifically, this embodiment discloses a filter equipment, and it passes through connection structure 3 with conveyer belt subassembly and impurity collecting vat 2 and connects as an organic wholely, and simultaneously, the conveyer belt subassembly of this embodiment can also filter the raw materials in order to realize carrying, has designed first conveyer belt 101 and second conveyer belt 102, and first conveyer belt 101 is as the part of the first filtration and the transportation of raw materials, and second conveyer belt 102 is as the part of the second filtration and the transportation of raw materials. The impurity collecting tank 2 is fixed below the conveyor belt and is arranged in parallel with the conveyor belt, impurities enter the impurity collecting tank 2 to be collected intensively along with filtration, and other raw materials are conveyed to the downstream end of the process sequentially through the first conveyor belt 101 and the second conveyor belt 102.

Preferably, the filtering device of the present embodiment includes:

two tanks arranged in the vertical direction, a first processing tank 401 and a second processing tank 402, respectively;

the first conveyor belt 101 is positioned in a first processing tank 401 and the second conveyor belt 102 is positioned in a second processing tank 402;

the first conveyor belt 101 is disposed obliquely in the first processing tank 401, and a feed hopper (not shown) is provided above the process upstream end of the first conveyor belt 101, from which an external device inputs raw materials into the first conveyor belt 101;

the second conveyor belt 102 is disposed obliquely in the second processing box 402, the process upstream end of the second conveyor belt 102 is located directly below the process downstream end of the first conveyor belt 101, and the raw material output from the first conveyor belt 101 falls to the process upper end of the second conveyor belt 102 and is continuously conveyed downstream by the second conveyor belt 102.

Preferably, the first and second treatment tanks 401 and 402 of the present embodiment are each configured in an open-ended structure at the upper and lower ends;

the first treatment tank 401 and the second treatment tank 402 are stacked together;

the inclination angle of the first conveying belt 101 and the second conveying belt 102 relative to the horizontal plane is 15-30 degrees; the first conveyor belt 101 and the second conveyor belt 102 are inclined in opposite directions.

The processing box of this embodiment can restrain workshop raise dust effectively as dustproof effect, and inside conveyer belt then can be connected with corresponding processing box, and the inclination of design is for supplementary transportation, even, and even, the conveyer belt of this application also can adopt horizontal arrangement, but the inclination is arranged and can be driven big granule raw materials to remove by oneself and improve the filter effect, consequently, with foretell angle of arrangement is the best.

Preferably, in order to be able to collect the impurities better, the impurity collection tank 2 of the present embodiment is arranged in parallel with the corresponding conveyor belt;

the connection structure 3 includes:

a connecting screw 301; and

a fastening nut 302 located at one side of the impurity collection tank 2;

the width of the impurity collecting tank 2 is larger than the width of the conveying belt, and the length of the impurity collecting tank 2 is smaller than the length of the conveying belt;

the process downstream ends of the first conveyor belt 101 and the second conveyor belt 102 both extend to the outside of the impurity collection tank 2;

the side of the edge of the conveyor belt is provided with a mounting ring 303, the connecting screw 301 passes through the mounting ring 303, and the lower end of the connecting screw 301 passes through the impurity collection tank 2 and is fastened by a fastening nut 302 to achieve connection of the impurity collection tank 2 and the corresponding conveyor belt.

The impurity collection tank 2 is bent through a steel plate to form a rectangular groove, and is suspended below the conveyor belt by a connecting screw 301.

In the technical scheme, the preparation and filtration device for the tea substitute provided by the utility model has the following beneficial effects:

according to the filtering device, the conveying belt and the impurity collecting tank 2 are connected into a whole through the connecting structure 3, the filtering holes 103 with the size capable of ensuring the small particle impurities to pass through are formed in the surface of the conveying belt, the impurities enter the impurity collecting tank 2 with the larger section size from the filtering holes 103 and are intensively recovered, the two-time filtering and normal transportation of raw materials are realized through the sequential transportation of the two groups of conveying belts, and various problems caused by the secondary damage of the raw materials due to the transportation are avoided.

While certain exemplary embodiments of the present utility model have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the utility model, which is defined by the appended claims.

Claims (4)

1. A tea substitute preparation filter device, characterized in that the filter device comprises:

a conveyor belt assembly comprising a first conveyor belt (101) and a second conveyor belt (102), the second conveyor belt (102) being located downstream of the process of the first conveyor belt (101) and receiving feedstock conveyed by the first conveyor belt (101);

an impurity collection trough (2) located below the conveyor belt assembly;

the number of the impurity collecting tanks (2) is matched with that of the conveying belts, and the impurity collecting tanks (2) are hung below the corresponding conveying belts through connecting structures (3);

the surface of the conveying belt is provided with a filtering hole (103), and small particle impurities pass through the filtering hole (103) and enter the impurity collecting tank (2).

2. A tea substitute preparation filter device according to claim 1, characterized in that the filter device comprises:

two tanks arranged along the vertical direction, namely a first treatment tank (401) and a second treatment tank (402);

the first conveyor belt (101) is positioned in the first treatment box (401), and the second conveyor belt (102) is positioned in the second treatment box (402);

the first conveyor belt (101) is obliquely arranged in the first treatment box (401), a feed hopper is arranged above the process upstream end of the first conveyor belt (101), and external equipment inputs raw materials into the first conveyor belt (101) from the feed hopper;

the second conveying belt (102) is obliquely arranged in the second treatment box (402), the process upstream end of the second conveying belt (102) is located right below the process downstream end of the first conveying belt (101), and raw materials output by the first conveying belt (101) fall to the process upper end of the second conveying belt (102) and are continuously conveyed to the process downstream by the second conveying belt (102).

3. A tea substitute preparation filter device according to claim 2, characterized in that the first treatment tank (401) and the second treatment tank (402) are each configured in an open-top and a lower-end structure;

the first treatment tank (401) and the second treatment tank (402) are stacked together;

the inclination angle of the first conveying belt (101) and the second conveying belt (102) relative to the horizontal plane is 15-30 degrees; the first conveyor belt (101) and the second conveyor belt (102) are inclined in opposite directions.

4. A tea substitute preparation filter device according to claim 2, characterized in that the impurity collection tank (2) is arranged parallel to the corresponding conveyor belt;

the connection structure (3) comprises:

a connecting screw (301); and

a fastening nut (302) positioned at one side of the impurity collection tank (2);

the width of the impurity collecting tank (2) is larger than the width of the conveying belt, and the length of the impurity collecting tank (2) is smaller than the length of the conveying belt;

the process downstream ends of the first conveyor belt (101) and the second conveyor belt (102) extend to the outer side of the impurity collecting tank (2);

the side of the edge of the conveyor belt is provided with a mounting ring (303), the connecting screw rod (301) passes through the mounting ring (303), and the lower end of the connecting screw rod (301) passes through the impurity collecting tank (2) and is fastened by the fastening nut (302) so as to realize the connection between the impurity collecting tank (2) and the corresponding conveyor belt.

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