CN220410974U - Multi-unit dish-shaped container quantitative filling device with high working efficiency - Google Patents

Abstract

The utility model provides a multi-unit dish form container ration filling device that work efficiency is high, includes frame and installs electronic combination balance, ration filling mechanism, dish form container conveying mechanism in the frame respectively, ration filling mechanism includes ration filling unit, removes the distribution hopper actuating mechanism, and ration filling unit includes a plurality of graduated flask of installing respectively in the frame, still be provided with interim storage device between a plurality of graduated flasks of removal distribution hopper and ration filling unit, interim storage device includes locating rack, export closing plate, drive arrangement, a plurality of interim storage hopper. The utility model has the beneficial effects that as the temporary storage device is additionally arranged, the movable distribution hopper does not need to wait for the measuring cup to finish filling, and the work of injecting quantitative materials into each temporary storage hopper can be continuously carried out on the first temporary storage hopper which is immediately moved back after the temporary storage is finished, so that the waiting time is effectively saved, and the production efficiency is greatly improved.

Description

Multi-unit dish-shaped container quantitative filling device with high working efficiency

Technical Field

The utility model relates to a quantitative filling device, in particular to a quantitative filling device for a multi-unit dish-shaped container with high working efficiency.

Background

A dish is an appliance for storing food or the like, and is generally flat and shallow, smaller than a dish. The dish-shaped container is a dish for storing materials, and because the depth of the dish is small, the general material filling mechanism is used, the materials from the filling opening are easy to splash out, especially, granular solid materials such as grains are easy to pop out from the opening of the dish-shaped container under the action of reaction force when falling to the bottom surface of the inner side wall of the dish-shaped container, so that the accuracy of filling the materials is affected. In order to meet the requirement of large-scale industrial production, a plurality of filling units are usually required to work at the filling station, so that splashed or ejected materials not only cause inaccurate quality of the materials filled into the dish-shaped container, but also pollute the production environment, even enter other dish-shaped containers and pollute other dish-shaped containers.

To this end, the applicant developed and filed a patent with a publication number CN212580190U, and the quantitative filling device for multi-unit dished containers comprises a frame, an electronic combination scale, a quantitative filling mechanism, a dished container conveying mechanism and a plurality of dished container molds, and is characterized in that: the quantitative filling mechanism comprises a quantitative filling unit, a movable distribution hopper and a movable distribution hopper driving mechanism, wherein the quantitative filling unit is arranged on the frame, the quantitative filling unit is arranged above a filling station and comprises a splash-proof filling mechanism and a plurality of measuring cups, the measuring cups are respectively arranged on the frame, and the splash-proof filling mechanism comprises at least one lifting device, a connecting rod and a plurality of telescopic extension filling pipes. The movable distribution hopper driving mechanism is arranged on the frame, the movable distribution hopper driving mechanism is provided with a third action end capable of transversely moving, the movable distribution hopper is arranged on the third action end, the inlet at the top end of the movable distribution hopper is always communicated with the outlet of the electronic combination balance, and the movement route of the outlet at the bottom end of the movable distribution hopper sequentially passes through the inlets at the top ends of all measuring cups. Compared with the prior art, the utility model has the beneficial effects that the splash-proof filling mechanism is arranged, so that the material is effectively prevented from splashing or popping out of the dish-shaped container; the measuring cup outlet opening and closing control mechanism is matched with the movable distribution hopper to realize quantitative material injection and quantitative filling of a plurality of measuring cups; the improved equipment can rapidly and accurately fill materials, the production efficiency is greatly improved, and the rejection rate is greatly reduced.

However, the applicant has found through a lot of experiments that the quantitative filling device for the multi-unit dish-shaped container can continue to perform quantitative filling after the quantitative filling unit finishes quantitative filling of the dish-shaped container mould below after the quantitative filling unit finishes quantitative filling of all measuring cups by moving the distribution hopper. In actual operation, the tray-shaped container conveying mechanism drives the tray-shaped container die to intermittently move for a long time, so that the moving of the distribution hopper needs to wait for a long time, and the production efficiency of the whole multi-unit tray-shaped container quantitative filling device is difficult to further improve.

Disclosure of Invention

The utility model aims to provide a quantitative filling device for a multi-unit dish-shaped container, which has high working efficiency, can effectively save waiting time of a movable distribution hopper and improve production efficiency. The technical scheme adopted is as follows:

the utility model provides a multi-unit dish form container ration filling device that work efficiency is high, includes frame and installs electronic combination balance, ration filling mechanism, dish form container conveying mechanism in the frame respectively, ration filling mechanism includes ration filling unit, removes the distribution hopper actuating mechanism and installs in the frame, removes the distribution hopper and installs on removing the distribution hopper actuating mechanism, and ration filling unit includes a plurality of graduated flask of installing in the frame respectively, its characterized in that: the automatic quantitative filling device is characterized in that a temporary storage device is further arranged between the movable distribution hopper and a plurality of measuring cups of the quantitative filling unit, the temporary storage device comprises a positioning frame, an outlet sealing plate, a driving device and a plurality of temporary storage hoppers, the positioning frame is arranged on the frame, the driving device and all the temporary storage hoppers are respectively arranged on the positioning frame, one end of the outlet sealing plate is hinged with the positioning frame, the temporary storage hoppers and the measuring cups are the same in number and correspond to each other one by one, the outlets of the temporary storage hoppers are located right above the inlets of the corresponding measuring cups, and the driving device is connected with the outlet sealing plate and drives the outlet sealing plate to rotate, so that the outlet sealing plate is switched between an opening state far away from the outlets of all the temporary storage hoppers and a sealing state in which the outlets of all the temporary storage hoppers are blocked by the outlet sealing plate.

In a preferred scheme, annular protective baffles are arranged at all inlets of the measuring cup. The annular protective baffle is used for protecting the inlet of the measuring cup from overflowing with the corresponding temporary storage hopper outlet, so that the material is saved and the material is prevented from polluting the environment.

Preferably, the dish-shaped container conveying mechanism is provided with a plurality of dish-shaped container dies, each dish-shaped container die is provided with a plurality of dish-shaped container positioning grooves for placing dish-shaped containers, and the dish-shaped container positioning grooves of each dish-shaped container die are the same in number with the measuring cups and correspond to the measuring cups one by one. And in each filling step, all the dish-shaped container positioning grooves of the dish-shaped container mold staying on the filling station are respectively positioned right below the corresponding measuring cups, and each measuring cup fills materials to the dish-shaped container in the corresponding dish-shaped container positioning groove below the measuring cup.

Compared with the prior art, the utility model has the beneficial effects that the temporary storage device is additionally arranged, so that the movable distribution hopper does not need to wait for the measuring cup to finish filling, and the work of injecting quantitative materials into each temporary storage hopper can be continuously and sequentially carried out above the first temporary storage hopper which is immediately moved back after the temporary storage is finished, thereby effectively saving waiting time and greatly improving production efficiency.

Drawings

FIG. 1 is a schematic diagram of the structure of one embodiment of the present utility model;

fig. 2 is a right side view of the embodiment shown in fig. 1.

Detailed Description

As shown in fig. 1 and 2, the multi-unit dish-shaped container quantitative filling device with high working efficiency in one embodiment of the present application comprises a frame 1 and an electronic combination scale 2, a quantitative filling mechanism 3 and a dish-shaped container conveying mechanism 4 which are respectively installed on the frame 1, wherein the quantitative filling mechanism 3 comprises a quantitative filling unit 301, a movable distribution hopper 302 and a movable distribution hopper driving mechanism 303, the movable distribution hopper driving mechanism 303 is installed on the frame 1, the movable distribution hopper 302 is installed on the movable distribution hopper driving mechanism 303, the quantitative filling unit 301 comprises a plurality of measuring cups 3011 which are respectively installed on the frame 1, a temporary storage device 304 is further arranged between the movable distribution hopper 302 and the measuring cups 3011 of the quantitative filling unit 301, the temporary storage device 304 comprises a positioning frame 3041, an outlet sealing plate 3042, a driving device and a plurality of temporary storage hoppers 3041, the positioning frame 3041 is installed on the frame 1, the driving device and all the temporary storage hoppers 3044 are respectively installed on the positioning frame 3041, one end of the outlet sealing plate 3042 is hinged with the positioning frame 3041, the temporary storage hoppers 3041 are in the same as the movable distribution hopper 302 and the outlet sealing plate 3044 is in the same as the outlet sealing plate 3044, the outlet sealing plate 3044 is in a position corresponding to the outlet sealing plate 3041, and the position of the temporary storage device 3040 is corresponding to the outlet sealing plate 3040, and the outlet sealing plate 3040 is in a position and the opening state, and the temporary storage device is kept away from the outlet sealing plate 3040.

As shown in fig. 1, in an alternative embodiment of the present application, the driving device is an air cylinder 3043, the air cylinder 3043 is mounted on the positioning frame 3041, and a piston shaft of the air cylinder 3043 is connected to the outlet sealing plate 3042 and drives the outlet sealing plate 3042 to rotate.

As shown in FIG. 1, in an alternative embodiment of the present application, all of the dosing cup 3011 inlets are fitted with annular shield plates 30111. The annular protective baffle 30111 is used for protecting the inlet of the measuring cup 3011 and the outlet of the corresponding temporary storage hopper 3044, avoiding material overflow, saving materials and preventing the materials from polluting the environment.

As shown in fig. 1, in an alternative embodiment of the present application, the quantitative filling unit 301 further includes a measuring cup outlet opening and closing control mechanism 3012, and the measuring cup outlet opening and closing control mechanism 3012 is mounted on the frame 1.

As shown in fig. 1 and 2, in an alternative embodiment of the present application, a plurality of tray-shaped container molds 401 are mounted on the tray-shaped container conveying mechanism 4, each tray-shaped container mold 401 has a plurality of tray-shaped container positioning slots 4011 for placing tray-shaped containers, and the tray-shaped container positioning slots 4011 of each tray-shaped container mold 401 are the same in number and correspond to the measuring cups 3011 one by one. In each filling step, all the dish-shaped container positioning grooves 4011 of the dish-shaped container mold 401 which are remained on the filling station are respectively positioned right below the corresponding measuring cups 3011, and each measuring cup 3011 is respectively positioned below the corresponding dish-shaped container positioning groove 4011 for filling materials. In this embodiment, the number of both the dish container positioning slots 4011 and the measuring cups 3011 of each dish container mold 401 is four.

The operation of this embodiment is described below in conjunction with fig. 1 and 2:

the tray conveyor 4 moves intermittently, and the tray molds 401 (with the tray 5) are sequentially stopped at the filling station to finish filling.

Temporary storage: the movable distribution hopper driving mechanism 303 (in this embodiment, an electric cylinder) drives the movable distribution hopper 302 to move laterally, the bottom outlet of the movable distribution hopper 302 is sequentially stopped above each temporary storage hopper 3044, and when the movable distribution hopper 302 is stopped (the bottom outlet of the movable distribution hopper 302 is stopped above the first temporary storage hopper 3044 in the initial state), the fixed amount of material is injected into the temporary storage hopper 3044 below through the movable distribution hopper 302, so that the work of sequentially injecting the fixed amount of material into each temporary storage hopper 3044 is completed, and after completion, the movable distribution hopper driving mechanism 303 drives the movable distribution hopper 302 to move laterally back to the original position.

Transferring materials: after all temporary storage hoppers 3044 are filled with quantitative materials, the air cylinder 3043 of the temporary storage device 304 works, the piston of the air cylinder 3043 contracts to drive the outlet sealing plate 3042 to rotate, so that the outlet sealing plate 3042 is switched from a sealing state to an opening state far away from the outlets of all temporary storage hoppers 3044, materials in all temporary storage hoppers 3044 fall into corresponding measuring cups 3011 below, then the air cylinder 3043 of the temporary storage device 304 works, the piston of the air cylinder 3043 stretches downwards to drive the outlet sealing plate 3042 to rotate, and the outlet sealing plate 3042 is switched from the opening state to the sealing state and plugs the outlets of all temporary storage hoppers 3044.

Filling materials: after all the measuring cups 3011 are filled with the quantitative materials, the opening and closing control mechanism 3012 of the outlet of the measuring cups opens the outlets at the bottom ends of all the measuring cups 3011, so that all the measuring cups 3011 are respectively filled with the materials below the measuring cups in the corresponding dish-shaped container positioning grooves 4011.

After the step of filling the material is completed, the tray-like container conveying mechanism 4 makes an intermittent motion to convey the tray-like container mold 401 away from the filling station, and convey a subsequent tray-like container mold 401 to the filling station.

Since the temporary storage device 304 is added, the movement of the dispensing hopper 302 does not need to wait for the completion of filling of the measuring cup 3011, and the operation of filling the quantitative materials into each temporary storage hopper 3044 can be continued sequentially above the first temporary storage hopper 3044 which is moved back immediately after the completion of temporary storage, thereby reducing waiting time. The applicant finds through experiments that the working efficiency of the quantitative filling device for the multi-unit dish-shaped container of the embodiment can be improved by 25%.

In addition, it should be noted that, in the specific embodiments described in the present specification, names of various parts and the like may be different, and all equivalent or simple changes of the structures, features and principles described in the conception of the present utility model are included in the protection scope of the present utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions in a similar manner without departing from the scope of the utility model as defined in the accompanying claims.

Claims (5)

1. The utility model provides a multi-unit dish form container ration filling device that work efficiency is high, includes frame and installs electronic combination balance, ration filling mechanism, dish form container conveying mechanism in the frame respectively, ration filling mechanism includes ration filling unit, removes the distribution hopper actuating mechanism and installs in the frame, removes the distribution hopper and installs on removing the distribution hopper actuating mechanism, and ration filling unit includes a plurality of graduated flask of installing in the frame respectively, its characterized in that: the automatic quantitative filling device is characterized in that a temporary storage device is further arranged between the movable distribution hopper and a plurality of measuring cups of the quantitative filling unit, the temporary storage device comprises a positioning frame, an outlet sealing plate, a driving device and a plurality of temporary storage hoppers, the positioning frame is arranged on the frame, the driving device and all the temporary storage hoppers are respectively arranged on the positioning frame, one end of the outlet sealing plate is hinged with the positioning frame, the temporary storage hoppers and the measuring cups are the same in number and correspond to each other one by one, the outlets of the temporary storage hoppers are located right above the inlets of the corresponding measuring cups, and the driving device is connected with the outlet sealing plate and drives the outlet sealing plate to rotate, so that the outlet sealing plate is switched between an opening state far away from the outlets of all the temporary storage hoppers and a sealing state in which the outlets of all the temporary storage hoppers are blocked by the outlet sealing plate.

2. The high-efficiency multi-unit dish container quantitative filling device according to claim 1, wherein: the driving device is an air cylinder, the air cylinder is arranged on the positioning frame, and a piston shaft of the air cylinder is connected with the outlet sealing plate and drives the outlet sealing plate to rotate.

3. The high-efficiency multi-unit dish container quantitative filling device according to claim 1, wherein: all measuring cup inlets are provided with annular protective baffles.

4. The high-efficiency multi-unit dish container quantitative filling device according to claim 1, wherein: the quantitative filling unit further comprises a measuring cup outlet opening and closing control mechanism, and the measuring cup outlet opening and closing control mechanism is arranged on the frame.

5. The high-efficiency multi-unit dish container quantitative filling device according to any one of claims 1 to 4, wherein: the dish-shaped container conveying mechanism is provided with a plurality of dish-shaped container dies, each dish-shaped container die is provided with a plurality of dish-shaped container positioning grooves for placing dish-shaped containers, and the dish-shaped container positioning grooves of each dish-shaped container die are the same in number with the measuring cups and correspond to the measuring cups one by one.