CN220662978U

CN220662978U - Reason material mechanism

Info

Publication number: CN220662978U
Application number: CN202321902910.XU
Authority: CN
Inventors: 钟锦唐
Original assignee: Wenzhou Ruida Machinery Co ltd
Current assignee: Wenzhou Ruida Machinery Co ltd
Priority date: 2023-07-19
Filing date: 2023-07-19
Publication date: 2024-03-26
Anticipated expiration: 2033-07-19

Abstract

The utility model discloses a material arranging mechanism, which is provided with a plurality of obliquely arranged blanking channels (1), wherein a first conveying belt (2) is connected to the discharge end of the blanking channel (1), and is characterized in that: the feeding device is characterized in that a plurality of groups of feeding plates are sequentially connected at the discharge end of the first conveying belt (2), feeding channels on the adjacent feeding plates are mutually connected, the feeding channels are arc-shaped, the bottoms of the feeding plates are connected with vibrators which are correspondingly and independently arranged, the vibration amplitude of each vibrator is adjustable, and a material blocking mechanism and a second conveying belt (10) are arranged at the discharge end of the last group of feeding channels. The utility model has simple structure and reasonable design, can realize the material arrangement in each feeding channel and simultaneously keep uniform, thereby effectively improving the efficiency and stability of material conveying.

Description

Reason material mechanism

Technical Field

The utility model relates to food packaging equipment, in particular to a material arranging mechanism.

Background

The material arranging mechanism is mainly used for conveying materials into the packaging bags for packaging, and particularly conveying and packaging food such as snow cakes. Traditional material conveying equipment, its structure mainly includes reason material machine and unloading way, and the material is sent to unloading way through the hopper and is carried downwards to send to the conveyer belt on outwards sending out, the defect that this kind of structure exists is: the material is arranged and conveyed through star wheel reason material machine, when the unloading way quantity of arranging is very much, can lead to the quantity of carrying in every way inhomogeneous, and need artifical assistance to handle, can produce more crushed aggregates at reason material in-process simultaneously, traditional conveying equipment carries out the delivery of material in addition, at last the arrangement stack of material, carry out the vanning or the bagging of follow-up material again, because the conveying volume of each conveying way of unable accurate control, can lead to the material quantity inhomogeneous in every conveying way, can't realize the even transportation of material, influence follow-up charging operation.

Disclosure of Invention

In view of the shortcomings of the background art, the technical problem to be solved by the utility model is to provide a material arranging mechanism for solving the problems.

For this purpose, the utility model is realized by adopting the following scheme:

the utility model provides a reason material mechanism has the blanking way that a plurality of slopes set up, links up at the discharge end that the blanking was said and has a conveyer belt, its characterized in that: the feeding device is characterized in that a plurality of groups of feeding plates are sequentially connected at the discharge end of the first conveying belt, feeding channels on the adjacent feeding plates are mutually connected, the feeding channels are arc-shaped, the bottoms of the feeding plates are connected with vibrators which are correspondingly and independently arranged, the vibration amplitudes of the vibrators are different, and a material blocking mechanism and a second conveying belt are arranged at the discharge end of the last group of feeding channels.

A rotating shaft is arranged above the feeding channel, and a poking plate corresponding to the feeding channel is arranged on the rotating shaft.

The automatic feeding device is characterized in that a height sensor is arranged above the feeding channel, the height sensor can sense the height of materials conveyed in the feeding channel, movable guide blocks are arranged at the feeding ends of the blanking channels, the guide blocks are connected with the movable driving components, and the height sensor can control the action of the movable driving components.

The front and back of the discharge end of the first conveyer belt are connected with a first feeding plate, a second feeding plate, a third feeding plate and a fourth feeding plate.

The material blocking mechanism comprises a first material blocking plate and a second material blocking plate which are arranged front and back, the first material blocking plate is connected with the first lifting driving assembly, and the second material blocking plate is connected with the second lifting driving assembly.

One side of the second baffle plate is provided with a guide plate which is obliquely arranged.

The discharge end of the first striker plate is provided with a counting sensor, and the counting sensor can control the first lifting driving assembly to act.

According to the material arranging mechanism for the cake-shaped materials, through the addition of the multiple groups of feeding plates, each feeding plate is connected with the corresponding vibrator which is independently arranged, the vibrator is controlled to drive the feeding plate to vibrate in different amplitudes, the vibrator is matched with the baffle assembly, the cake-shaped materials are driven to be changed into vertical arrangement, stacking and conveying from a horizontal conveying state, a large amount of pre-stacking, storing and conveying in the material conveying process are achieved, the material arranging process is completed, the quantity of the materials in each feeding channel is kept uniform, and the material conveying efficiency and stability are effectively improved.

Drawings

The utility model has the following drawings:

FIG. 1 is a plan view of the present utility model;

FIG. 2 is a perspective view of the present utility model;

FIG. 3 is an enlarged view of a portion of FIG. 2 at the point A;

fig. 4 is a partial enlarged view of the point B in fig. 2.

Detailed Description

As shown in the figure, the material arranging mechanism disclosed by the utility model is provided with a plurality of obliquely arranged blanking channels 1, a first conveying belt 2 is connected to the discharge end of the blanking channels 1, a plurality of groups of material feeding plates are sequentially connected to the discharge end of the first conveying belt 2, the bottoms of the material feeding plates are connected with corresponding vibrators which are independently arranged, and the vibration amplitude of each vibrator is adjustable; a stop mechanism and a second conveyor belt 10 are arranged at the discharge end of the last group of feeding channels. The upper part of the feeding channel is provided with a rotating shaft 6, the rotating shaft 6 is connected with a first motor 15 through a synchronous belt transmission group 16, the rotating shaft 6 can be driven to rotate by controlling the first motor 15 to start, a shifting plate 5 corresponding to the feeding channel is arranged on the rotating shaft 6, a groove 17 corresponding to cake-shaped materials is arranged on the shifting plate 5, the unordered materials are shifted through controlling the shifting plate 5 to rotate, so that the unordered materials are conveyed again to be sorted and stacked, and therefore the shifting plate 5 can drive the materials in vibration to incline towards the same direction, so that the materials can be orderly arranged in the vibration conveying process. The height sensor 18 is arranged above the feeding channel, the height sensor 18 can sense the height of materials conveyed in the feeding channel, a movable guide block 24 is arranged at the feeding end of each feeding channel 1, the guide block 24 is connected with a movable driving component, the movable driving component comprises a first motor 25, the first motor 25 is in transmission connection with the guide block 24 to drive the guide block 24 to move, the height sensor can control the action of the movable driving component, the height sensor 18 can analyze the quantity of materials conveyed in the feeding channel by detecting the height of the materials, if the height of the materials is insufficient, the corresponding movable driving component can be controlled to drive the corresponding guide block 24 to move, more materials are guided into the feeding channel 1 corresponding to the feeding channel, if the height is too high, the movable driving component is controlled to drive the corresponding guide block to move, the materials are guided into other feeding channels 1, and a proper quantity of materials can be conveyed in each feeding channel. The striker plate 9 and the second striker plate 19 that the striker mechanism set up around including, first striker plate 9 is connected with first lift drive assembly, and second striker plate 19 is connected with second lift drive assembly, and first baffle 9 sets up the afterbody at the feeding channel of fourth pay-off plate 8, and second striker plate 19 sets up in the feeding channel of third pay-off plate 7, and in this embodiment, first lift drive assembly is first cylinder 22, and second lift drive assembly is second cylinder 20. Further, the discharge end of the first striker plate 9 is provided with a counting sensor 23, the counting sensor 23 can control the first lifting driving assembly to act, and when the counting sensor 23 detects that the quantity of materials sent out in the corresponding fourth feeding plate in unit time is too much, the first air cylinder 22 is controlled to drive the first striker plate 9 to descend so as to block the materials for a certain time, and further, the quantity of the materials sent out by each fourth feeding plate is guaranteed to be balanced. One side of the second baffle 19 is provided with a soft guide plate 21 which is obliquely arranged, and after the material passes through the guide plate 21, the material is conveyed in a slightly inclined state, so that the material is prevented from being completely in a vertical state to be overturned.

The working principle of the utility model is as follows: the material is sent downwards to the first conveying belt 2 through the blanking channel 1, then the first conveying belt 2 sends the material into the first feeding plate block 3, the first vibrator, the second vibrator, the third vibrator and the fourth vibrator drive the first feeding plate block, the second vibrator, the third vibrator and the fourth vibrator to vibrate in different amplitudes, so that the material can vibrate properly in the process of sending the first feeding plate block, the second vibrator, the third vibrator and the fourth vibrator, the material is driven to be changed from horizontal to vertical to be stacked in the feeding channel of the third feeding plate block, the second baffle 19 in the process blocks the material in the conveying channel of the third feeding plate block in advance, after a proper amount of material is stacked in the feeding channel, the second baffle 19 rises to open the outlet of the third feeding plate block 7, and the material is sent from the fourth feeding plate block 8 to the second conveying belt 10 and then is sent backwards.

According to the structure, the plurality of groups of feeding plates are added, each feeding plate is connected with the corresponding vibrator which is arranged independently, each vibrator is controlled to drive the feeding plate to vibrate with different amplitudes and is matched with the baffle plate assembly, so that cake materials are driven to be changed into vertical arrangement, stacking and conveying from a horizontal conveying state, and after arrangement, a large amount of pre-stacking, storing and conveying in the material conveying process can be realized, and further the material conveying efficiency and stability are effectively improved.

Claims

1. The utility model provides a reason material mechanism has blanking way (1) that a plurality of slopes set up, links up at the discharge end of blanking way (1) has first conveyer belt (2), its characterized in that: the feeding device is characterized in that a plurality of groups of feeding plates are sequentially connected at the discharge end of the first conveying belt (2), feeding channels on the adjacent feeding plates are mutually connected, the feeding channels are arc-shaped, the bottoms of the feeding plates are connected with vibrators which are correspondingly and independently arranged, the vibration amplitude of each vibrator is adjustable, and a material blocking mechanism and a second conveying belt (10) are arranged at the discharge end of the last group of feeding channels.

2. A material arranging mechanism according to claim 1, characterized in that a rotating shaft (6) is arranged above the feeding channel, and a poking plate (5) corresponding to the feeding channel is arranged on the rotating shaft (6).

3. A material arranging mechanism according to claim 1, characterized in that a height sensor (18) is arranged above the feeding channel, the height sensor (18) can sense the height of the conveyed material in the feeding channel, a movable guide block (24) is arranged at the feeding end of each blanking channel (1), the guide block (24) is connected with the movable driving assembly, and the height sensor can control the action of the movable driving assembly.

4. A material arranging mechanism according to claim 1, characterized in that a first feeding plate (3), a second feeding plate (4), a third feeding plate (7) and a fourth feeding plate (8) are connected in front of and behind the discharge end of the first conveyor belt.

5. A handling mechanism according to claim 1, characterized in that the handling mechanism comprises a first striker plate (9) and a second striker plate (19) arranged back and forth, the first striker plate (9) being connected with a first lifting drive assembly, the second striker plate (19) being connected with a second lifting drive assembly.

6. A handling mechanism according to claim 1, characterized in that a second striker plate (19) has a obliquely arranged guide plate (21) on one side.

7. The material arranging mechanism according to claim 5, characterized in that a counting sensor (23) is arranged at the discharge end of the first striker plate (9), and the counting sensor (23) can control the first lifting driving component to act.