CN218166740U - Automatic quantitative feeding device in packaging process of sparassis crispa - Google Patents

Abstract

The utility model discloses an automatic quantitative feeding device of sparassis crispa in system package technology, including first loading hopper, second loading hopper, first conveyer belt, first solenoid valve is installed to the bottom of first loading hopper, the second solenoid valve is installed to the bottom of second loading hopper, the upper end fixed mounting of second loading hopper has correlation type photoelectric sensor, a plurality of flourishing material frames of surface interval equidistance fixedly connected with of first conveyer belt, the lower extreme of first conveyer belt is connected with the electronic weighing platform. The utility model provides a material of settlement weight can be got to flourishing material frame automatic weighing to fall out through the fourth loading hopper and system package, and can make first loading hopper carry out automatic feed supplement to the second loading hopper automatically, the third loading hopper carries out automatic feed supplement to first loading hopper through the second conveyer belt, degree of automation is high, system package is efficient.

Description

Automatic quantitative feeding device in packaging process of sparassis crispa

Technical Field

The utility model relates to an sparassis crispa technical field especially relates to an automatic quantitative feeding device of sparassis crispa in system package technology.

Background

Sparassis crispa is a fungus of Basidiomycetes and Sparassidaceae, is named after being shaped like Sparassis crispa, is a precious wild mushroom fungus, contains a large amount of beta glucan, antioxidant substances, vitamin C and vitamin E, is used as an effective component of a beauty product, and has a good effect of removing skin problems such as melanin precipitation.

The sparassis crispa needs to be packaged in the production process, namely, the sparassis crispa needs to be guaranteed to have the same weight under the same package so as to be convenient for subsequent reprocessing and delivery.

Therefore, an automatic quantitative feeding device in the packaging process of the sparassis crispa is provided to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an automatic quantitative feeding device of sparassis crispa in system package technology in order to solve the problem that proposes in the background art.

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

the utility model provides an automatic quantitative feeding device of sparassis crispa in system package technology, includes first loading hopper, second loading hopper, first conveyer belt, first solenoid valve is installed to the bottom of first loading hopper, the second solenoid valve is installed to the bottom of second loading hopper, the upper end fixed mounting of second loading hopper has correlation type photoelectric sensor, a plurality of material containing frames of surface interval equidistance fixedly connected with of first conveyer belt, the lower extreme of first conveyer belt is connected with the electronic weighing platform, the equal electrically connected with PLC programmable controller of electronic weighing platform, correlation type photoelectric sensor, first solenoid valve, second solenoid valve.

Preferably, a fourth hopper for receiving materials is arranged at the conveying end of the first conveying belt.

Preferably, the correlation type photoelectric sensor comprises a transmitting end and a receiving end which are symmetrically and fixedly arranged at the upper end of the second loading hopper.

Preferably, a load bearing roller belt is fixedly mounted at the upper end of the electronic weighing platform, and the outer surface of the load bearing roller belt is in surface-to-surface contact with the inner surface of the first conveyor belt.

Preferably, an electric screw rod is fixedly arranged at the upper end of the first hopper, and the lower end of the electric screw rod is arranged close to the first electromagnetic valve.

Preferably, the device also comprises a third hopper and a second conveyor belt, wherein a manual switch valve is installed at the bottom of the third hopper, the second conveyor belt is obliquely arranged, the lower end of the third hopper is positioned at the beginning of conveying of the second conveyor belt, and the tail end of the conveying of the second conveyor belt is positioned above the first hopper.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model provides a material of settlement weight can be got to flourishing material frame automatic weighing to fall out through the fourth loading hopper and system package, and can make first loading hopper carry out automatic feed supplement to the second loading hopper automatically, the third loading hopper carries out automatic feed supplement to first loading hopper through the second conveyer belt, degree of automation is high, system package is efficient.

Drawings

FIG. 1 is a sectional view of a front view of a part of an automatic quantitative feeding device for Sparassis crispa in a bag-making process;

fig. 2 is a schematic structural diagram of another part of an automatic quantitative feeding device for the Sparassis crispa in the bag-making process according to the present invention.

In the figure: the device comprises a first feeding hopper 1, an electric screw rod 11, a first electromagnetic valve 12, a second feeding hopper 2, a correlation photoelectric sensor 21, a second electromagnetic valve 22, a first conveyor belt 3, a material containing frame 31, a load bearing roller belt 32, a bracket 33, an electronic weighing table 34, a second conveyor belt 4, a third feeding hopper 5 and a manual switch valve 51.

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.

Referring to fig. 1-2, an automatic quantitative feeding device for sparassis crispa in a packaging process comprises a first feeding hopper 1, a second feeding hopper 2 and a first conveying belt 3, wherein a first electromagnetic valve 12 is installed at the bottom of the first feeding hopper 1, an electric screw rod 11 is fixedly arranged at the upper end of the first feeding hopper 1, the lower end of the electric screw rod 11 is arranged close to the first electromagnetic valve 12, the electric screw rod 11 is composed of a motor and a screw rod fixedly installed at the output end of the motor and is fixedly arranged, and a fixed structure is not drawn in the drawing.

A second electromagnetic valve 22 is installed at the bottom of the second feeding hopper 2, an opposite type photoelectric sensor 21 is fixedly installed at the upper end of the second feeding hopper 2, the opposite type photoelectric sensor 21 comprises a transmitting end and a receiving end which are symmetrically and fixedly installed at the upper end of the second feeding hopper 2, the opposite type photoelectric sensor 21 is the prior art, and materials can be timely supplemented when the materials in the second feeding hopper 2 are sensed to be insufficient.

The outer surface of the first conveyor belt 3 is fixedly connected with a plurality of material containing frames 31 at equal intervals, the material containing frames 31 are preferably arranged in a vertically symmetrical distribution mode, the influence on the electronic weighing platform 34 is reduced, the lower end of the first conveyor belt 3 is connected with the electronic weighing platform 34, the electronic weighing platform 34 is also the prior art, a load bearing roller belt 32 is fixedly installed at the upper end of the electronic weighing platform 34, the outer surface of the load bearing roller belt 32 is in surface-to-surface contact with the inner surface of the first conveyor belt 3, gravity can be uniformly acted on the electronic weighing platform 34 by arranging the load bearing roller belt 32, the electronic weighing platform 34, the correlation type photoelectric sensor 21, the first electromagnetic valve 12 and the second electromagnetic valve 22 are electrically connected with a PLC (programmable logic controller), and the PLC can control other electric equipment after the electronic weighing platform 34 weighs the set material weight and the light of the correlation type photoelectric sensor 21 is transmitted and received.

The device still includes third loading hopper 5 and second conveyer belt 4, manual switch valve 51 is installed to the bottom of third loading hopper 5, but manual operation manual switch valve 51, the discharge gate of later utilization falling material to third loading hopper 5 carries out the shutoff, second conveyer belt 4 slope sets up, the lower extreme of third loading hopper 5 is located the conveying beginning of second conveyer belt 4, the conveying end of second conveyer belt 4 is located the top of first loading hopper 1, can upwards convey the material in the third loading hopper 5 to in first loading hopper 1.

The end of the first conveyor belt 3 is provided with a fourth hopper, not shown, for receiving the material, which is a can hopper and has a smooth inner surface to allow the material to fall out and be collected.

The working principle of the utility model is as follows:

it should be noted that, the material holding frames 31 on the outer surface of the first conveyor belt 3 are spaced far apart, the downward pressure generated on the electronic weighing platform 34 by the load roller belt 32 includes the sum of the weight of the material holding frames 31, the partial first conveyor belt 3 and the material, but the electronic weighing platform 34 has a peeling function, so that the material with the same mass can be weighed. Therefore, two material containing frames 31 can be arranged on the outer surface of the first conveyor belt 3, so that the space is saved, and the influence on the electronic weighing platform 34 is reduced.

The first conveyor belt 3 adopts step-by-step transmission, namely, after each opening and closing, one of the material containing frames 31 is positioned under the second hopper 2, one of the material containing frames 31 is positioned in an inverted state and positioned above the fourth hopper, and the distance between the material containing frames 31 is transmitted each time so as to pour all the materials in the material containing frames 31 into the fourth hopper for making bags.

Specifically, it is assumed that the number of the material containing frames 31 is two, after the transmission of the first conveyor belt 3 is finished, the second electromagnetic valve 22 is opened, and is automatically closed after the electronic weighing platform 34 weighs the required weight in real time, the first conveyor belt 3 continues to perform step-by-step transmission, the material containing frames 31 already containing the material gradually dump the material to the fourth hopper, the material containing frames 31 not containing the material rotate to the position right below the second hopper 2, and the above process is repeated, so that the material in the second hopper 2 can gradually decrease, after the receiving end in the correlation type photoelectric sensor 21 receives the light emitted by the emitting end, the first electromagnetic valve 12 is opened, the electric spiral rod 11 and the second conveyor belt 4 synchronously work, the material in the first hopper 1 is rapidly added to the second hopper 2 for material supplement, the material falling from the third hopper 5 is conveyed into the first hopper 1 through the second conveyor belt 4 for material supplement, until the correlation type photoelectric sensor 21 cannot receive a light signal, the second electromagnetic valve 22 is closed, and the electric spiral rod 11 and the second conveyor belt 4 stops working.

In the process, the manual switch valve 51 is in an open state, and the third hopper 5 automatically blocks materials by dropping the materials on the second conveyor belt 4; the electrical equipment is electrically connected with the PLC, and the PLC receives signals of the correlation type photoelectric sensor 21 and controls other electrical equipment to be turned on or off.

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. An automatic quantitative feeding device in a packaging process of sparassis crispa is characterized in that: including first loading hopper (1), second loading hopper (2), first conveyer belt (3), first solenoid valve (12) are installed to the bottom of first loading hopper (1), second solenoid valve (22) are installed to the bottom of second loading hopper (2), the upper end fixed mounting of second loading hopper (2) has correlation type photoelectric sensor (21), a plurality of material containing frames (31) of surface interval equidistance fixedly connected with of first conveyer belt (3), the lower extreme of first conveyer belt (3) is connected with electronic weighing platform (34), correlation type photoelectric sensor (21), first solenoid valve (12), the equal electric connection of second solenoid valve (22) have PLC programmable controller.

2. The automatic quantitative charging device for the sparassis crispa in the bag-making process as claimed in claim 1, wherein: and a fourth feeding hopper for receiving materials is arranged at the conveying tail end of the first conveying belt (3).

3. The automatic quantitative charging device for the Sparassis crispa in the bag-making process according to claim 1, which is characterized in that: the opposite type photoelectric sensor (21) comprises a transmitting end and a receiving end which are symmetrically and fixedly arranged at the upper end of the second feeding hopper (2).

4. The automatic quantitative charging device for the Sparassis crispa in the bag-making process according to claim 1, which is characterized in that: and a loading roller belt (32) is fixedly mounted at the upper end of the electronic weighing table (34), and the outer surface of the loading roller belt (32) is in surface-to-surface contact with the inner surface of the first conveyor belt (3).

5. The automatic quantitative charging device for the Sparassis crispa in the bag-making process according to claim 1, which is characterized in that: an electric screw rod (11) is fixedly arranged at the upper end of the first feeding hopper (1), and the lower end of the electric screw rod (11) is arranged close to the first electromagnetic valve (12).

6. The automatic quantitative charging device for the sparassis crispa in the bag-making process as claimed in claim 1, wherein: the device still includes third loading hopper (5) and second conveyer belt (4), manual ooff valve (51) are installed to the bottom of third loading hopper (5), second conveyer belt (4) slope sets up, the lower extreme of third loading hopper (5) is located the conveying of second conveyer belt (4) and opens the end, the conveying end of second conveyer belt (4) is located the top of first loading hopper (1).

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