CN220905473U - Conveying belt sub-packaging device for frozen bread embryo production - Google Patents

Abstract

The utility model discloses a conveying belt sub-packaging device for frozen bread embryo production, which comprises a main body, wherein a conveying belt is arranged at the rear side of the upper end inside the main body and is used for conveying bread embryos, a PLC (programmable logic controller) is arranged at the upper side of the front end of the main body, the device further comprises weighing boxes which are arranged at the front side inside the main body, two weighing boxes are arranged, second rotating shafts are fixedly arranged at the middle positions of the front side and the rear side of the weighing boxes and are rotationally connected with the main body, lifting plates are slidably arranged at the upper ends inside the weighing boxes, the device further comprises rotating plates which are arranged above one end of the conveying belt inside the main body, a first rotating shaft is welded at the upper end of each rotating plate, and the first rotating shaft is rotationally connected with the main body. The conveying belt sub-packaging device for frozen bread embryo production realizes accurate quantity control, avoids large difference of sub-packaging quantity, and facilitates weight statistics of each sub-packaging.

Description

Conveying belt sub-packaging device for frozen bread embryo production

Technical Field

The utility model relates to the technical field of frozen bread embryo production, in particular to a conveying belt sub-packaging device for frozen bread embryo production.

Background

The bread dough is a semi-finished product of bread, which is not subjected to final fermentation, decoration and baking, generally the bread dough is refrigerated and preserved by freezing, when the bread dough is conveyed to the next link, a large number of bread dough needs to be split into a plurality of material bags for classified packaging, and the bread dough is generally realized by a conveying belt sub-packaging device, when the bread dough is conveyed, the bread dough is split into a plurality of material bags by the conveying belt sub-packaging device, and then the split material bags are manually packaged by a packaging film and the like, so that the frozen preservation of the bread dough is facilitated.

The existing device subpackaging device can perform subpackaging treatment on bread embryos, but the quantity of bread embryos filled in subpackaging bags cannot be accurately controlled, the quantity in each subpackaging bag is greatly different, and weight statistics of each subpackaging bag is not facilitated, so that the existing requirements are not met, and a conveying belt subpackaging device for frozen bread embryo production is provided.

Disclosure of utility model

The utility model aims to provide a conveyor belt sub-packaging device for frozen bread embryo production, which is used for solving the problem that the conveyor belt sub-packaging device provided in the background art lacks accurate control over the number of sub-packaged bread embryos.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the conveying belt sub-packaging device for frozen bread embryo production comprises a main body, wherein a conveying belt is arranged at the rear side of the upper end inside the main body, the conveying belt is used for conveying bread embryos, and a PLC (programmable logic controller) is arranged at the upper side of the front end of the main body;

The weighing box is arranged on the front side of the inside of the main body, two weighing boxes are arranged, second rotating shafts are fixedly arranged at the middle positions of the front side and the rear side of the weighing boxes, the second rotating shafts are rotationally connected with the main body, and lifting plates are slidably arranged at the upper ends of the inside of the weighing boxes;

The conveying belt is arranged above one end inside the main body, a first rotating shaft is welded at the upper end of the rotating plate and is in rotating connection with the main body, baffles are arranged on two sides of the rotating plate and are fixedly connected with the main body;

The automatic packaging machine further comprises a transmission cavity, wherein the transmission cavity is arranged at the lower end of the inside of the main body, a single-thread transmission rod is rotatably arranged on one side of the inside of the transmission cavity, a movable plate is connected with the outer threads of the single-thread transmission rod, and two sub-packaging boxes are arranged at the upper end of the movable plate.

Preferably, reset springs are arranged at four corners of the upper end inside the weighing box, and the upper ends of the reset springs are connected with the lifting plate.

Preferably, a first motor is arranged above the first rotating shaft, the output end of the first motor is in transmission connection with the first rotating shaft through a coupler, and the first motor is electrically connected with the PLC.

Preferably, the place ahead of second pivot all is provided with the second motor, and the output of second motor all passes through the shaft coupling transmission with the second pivot and is connected, second motor all with PLC controller electric connection.

Preferably, a third motor is arranged at the rear of the single-thread transmission rod, the output end of the third motor is in transmission connection with the single-thread transmission rod through a coupler, and the third motor is electrically connected with the PLC.

Preferably, a guide rod is welded on one side of the inside of the transmission cavity, the guide rod penetrates through the moving plate, and the guide rod is in sliding fit with the moving plate.

Preferably, the middle position department of weighing the inside upper end of case all is provided with pressure sensor, and pressure sensor all is connected with PLC controller electricity.

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

1. According to the utility model, the pressure sensor is arranged in the weighing box, when a certain amount of bread blanks enter the weighing box, the lifting plate moves downwards to squeeze the pressure sensor by the common weight, and the pressure sensor senses the pressure and then sends an electric signal to the PLC controller to enable the second motor to rotate, so that the bread blanks with the standard weight inside can fall into the sub-packaging box below, further accurate quantity control is realized, larger difference of sub-packaging quantities is avoided, and the weight statistics of each sub-packaging is facilitated.

2. According to the utility model, the first motor is arranged at the rear side of the upper end in the main body, and the PLC controller synchronously starts the first motor after the pressure sensor senses the pressure, so that the first motor drives the rotating plate to rotate, and the rotating plate contacts with the baffle plate at one side, so that the subsequent bread embryo can enter the other weighing box, uninterrupted sub-packaging work is realized, and the actual sub-packaging weighing efficiency is ensured.

3. According to the utility model, the transmission cavity is formed at the lower end of the inside of the main body, and the movable plate can drive the sub-packaging boxes to move by rotating the single-thread transmission rod in the transmission cavity, so that the two sub-packaging boxes after sub-packaging can be synchronously taken out at one time, the taking-out process is simplified, and the sub-packaging box is simple in structure and convenient to use.

Drawings

FIG. 1 is a side view of the internal structure of the present utility model;

FIG. 2 is a front view of the internal structure of the present utility model;

FIG. 3 is a top view of the internal structure of the present utility model;

Fig. 4 is a top view of the internal structure of the transmission chamber of the present utility model.

In the figure: 1. a main body; 2. a conveyor belt; 3. a first motor; 4. a first rotating shaft; 5. a rotating plate; 6. a baffle; 7. weighing box; 8. a lifting plate; 9. a return spring; 10. a pressure sensor; 11. a second motor; 12. a second rotating shaft; 13. a PLC controller; 14. a third motor; 15. a transmission cavity; 16. a single thread transmission rod; 17. a moving plate; 18. a guide rod; 19. and (5) sub-packaging the boxes.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: the conveying belt sub-packaging device for frozen bread embryo production comprises a main body 1, wherein a conveying belt 2 is arranged at the rear side of the upper end inside the main body 1, the conveying belt 2 is used for conveying bread embryos, and a PLC (programmable logic controller) 13 is arranged at the upper side of the front end of the main body 1;

The weighing box 7 is arranged on the front side of the inside of the main body 1, two weighing boxes 7 are arranged, second rotating shafts 12 are fixedly arranged at the middle positions of the front side and the rear side of the weighing boxes 7, the second rotating shafts 12 are rotationally connected with the main body 1, and lifting plates 8 are slidably arranged at the upper ends of the inside of the weighing boxes 7;

The conveyor belt conveyor comprises a main body 1, a conveying belt 2, a rotating plate 5, a first rotating shaft 4, baffle plates 6, a second rotating shaft 4, a baffle plate 6 and a baffle plate 6, wherein the conveying belt 2 is arranged above one end of the main body 1;

The automatic transmission device further comprises a transmission cavity 15 which is arranged at the lower end of the inside of the main body 1, a single-thread transmission rod 16 is rotatably arranged on one side of the inside of the transmission cavity 15, a movable plate 17 is connected to the outer thread of the single-thread transmission rod 16, and two sub-package boxes 19 are arranged at the upper end of the movable plate 17.

When the bread embryo weighing box is used, the lifting plate 8 gradually moves downwards along with the increase of the quantity when the bread embryo enters the weighing box 7, the lifting plate 8 can squeeze the pressure sensor 10 after the bread embryo reaches a certain quantity, the pressure sensor 10 can send an electric signal to the PLC controller 13, the PLC controller 13 can start the second motor 11 to drive the second rotating shaft 12 after processing so as to enable the weighing box 7 to rotate, and therefore the bread embryo inside the weighing box 7 falls into the sub-packaging box 19 below, accurate quantity control is achieved, large difference in sub-packaging quantity is avoided, and weight statistics of each sub-packaging is facilitated.

Referring to fig. 1 and 3, four corners of the upper end inside the weighing box 7 are provided with return springs 9, the upper ends of the return springs 9 are connected with a lifting plate 8, and the lifting plate 8 is driven to move upwards under the elastic action of the return springs 9;

Referring to fig. 1 and 2, a first motor 3 is disposed above a first rotating shaft 4, an output end of the first motor 3 is in transmission connection with the first rotating shaft 4 through a coupling, the first motor 3 is electrically connected with a PLC controller 13, and the first motor 3 can drive a rotating plate 5 to rotate, so that blocking and dredging of bread blanks are realized;

referring to fig. 1 and 3, a second motor 11 is disposed in front of the second rotating shaft 12, and output ends of the second motor 11 are in transmission connection with the second rotating shaft 12 through a coupling, the second motor 11 is electrically connected with a PLC controller 13, and the second motor 11 provides power for rotation of the weighing box 7;

Referring to fig. 1 and 4, a third motor 14 is disposed behind the single-thread transmission rod 16, and an output end of the third motor 14 is in transmission connection with the single-thread transmission rod 16 through a coupling, the third motor 14 is electrically connected with the PLC controller 13, and the third motor 14 provides power for rotation of the single-thread transmission rod 16, so that manual rotation of the single-thread transmission rod 16 is avoided;

Referring to fig. 2 and 4, a guide rod 18 is welded at one side of the inside of the transmission cavity 15, the guide rod 18 penetrates through the moving plate 17, the guide rod 18 is in sliding fit with the moving plate 17, and the guide rod 18 can convert the rotation of the moving plate 17 into horizontal linear movement, so that the moving plate 17 can move;

Referring to fig. 1 and 3, pressure sensors 10 are disposed at intermediate positions of the upper end of the weighing box 7, and the pressure sensors 10 are electrically connected with a PLC controller 13, and the pressure sensors 10 can sense the weight of bread dough, so as to realize accurate quantity control.

Working principle: when in use, the bread blanks to be sub-packaged and frozen are conveyed through the conveying belt 2, the bread blanks are blocked by the rotating plate 5 to enter the weighing box 7 at one side, and the lifting plate 8 in the weighing box 7 gradually moves downwards along with the increase of the quantity of the bread blanks, so that the lifting plate 8 presses the pressure sensor 10 after the bread blanks reach a certain quantity, the pressure sensor 10 sends an electric signal to the PLC 13, the PLC 13 starts the second motor 11 after processing, the second motor 11 drives the second rotating shaft 12 to rotate the weighing box 7 under the transmission of the coupler, the bread blanks in the weighing box 7 fall into the sub-packaging box 19 below when the weighing box 7 rotates, the lifting plate 8 is driven to move upwards under the elastic action of the reset spring 9, the extrusion of the pressure sensor 10 is relieved, the second motor 11 is rotated under the control of the PLC 13, the position of the weighing box 7 is corrected, therefore, the next weighing can be carried out, accurate quantity control is realized, the large difference of the sub-packaging quantity is avoided, the weight statistics of each sub-packaging is convenient, meanwhile, the PLC 13 can start the first motor 3, the first rotating shaft 4 drives the rotating plate 5 to rotate ninety degrees under the transmission of the coupler, so that the subsequent bread blanks can be blocked, the subsequent bread blanks can enter the other weighing box 7, the uninterrupted sub-packaging work is realized, the actual sub-packaging weighing efficiency is ensured, when the bread blanks in the weighing box 7 fall into the sub-packaging box 19 and the other weighing box 7 to be weighed, the single-thread transmission rod 16 can be driven to rotate by the start of the third motor 14, the single-thread transmission rod 16 can drive the moving plate 17 to synchronously rotate, and the moving plate 17 can be axially limited due to the fact that the other end of the moving plate 17 slides on the guide rod 18, the rotation of movable plate 17 can be converted into horizontal rectilinear movement to can shift out main part 1 with sub-packet case 19 through movable plate 17, the staff can take out the wrapping bag in the sub-packet case 19, thereby can pack the bread embryo in the wrapping bag, put into the wrapping bag again and pack for the next time, simplified the process of taking out, simple structure, convenient to use.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides a conveyer belt sub-packaging hardware that frozen bread embryo production was used, includes main part (1), the rear side of the inside upper end of main part (1) is provided with conveyer belt (2), and conveyer belt (2) are used for the transportation of bread embryo, the upside of main part (1) front end is provided with PLC controller (13), its characterized in that:

The weighing box (7) is arranged on the front side of the inside of the main body (1), two weighing boxes (7) are arranged, second rotating shafts (12) are fixedly arranged at the middle positions of the front side and the rear side of the weighing boxes (7), the second rotating shafts (12) are rotationally connected with the main body (1), and lifting plates (8) are slidably arranged at the upper ends of the inside of the weighing boxes (7);

The conveying belt (2) is arranged above one end inside the main body (1), a first rotating shaft (4) is welded at the upper end of the rotating plate (5), the first rotating shaft (4) is rotationally connected with the main body (1), baffles (6) are arranged on two sides of the rotating plate (5), and the baffles (6) are fixedly connected with the main body (1);

Still include transmission chamber (15), it sets up the inside lower extreme of main part (1), one side rotation in transmission chamber (15) inside is provided with single screw drive pole (16), the outside threaded connection of single screw drive pole (16) has movable plate (17), the upper end of movable plate (17) is provided with two sub-packet casees (19).

2. The conveyor belt sub-packaging device for frozen bread embryo production according to claim 1, wherein: reset springs (9) are arranged at four corners of the upper end inside the weighing box (7), and the upper ends of the reset springs (9) are connected with lifting plates (8).

3. The conveyor belt sub-packaging device for frozen bread embryo production according to claim 1, wherein: the upper portion of first pivot (4) is provided with first motor (3), and the output of first motor (3) passes through shaft coupling transmission with first pivot (4) and is connected, first motor (3) and PLC controller (13) electric connection.

4. The conveyor belt sub-packaging device for frozen bread embryo production according to claim 1, wherein: the front of second pivot (12) all is provided with second motor (11), and the output of second motor (11) all passes through shaft coupling transmission with second pivot (12) and is connected, second motor (11) all with PLC controller (13) electric connection.

5. The conveyor belt sub-packaging device for frozen bread embryo production according to claim 1, wherein: the rear of the single-thread transmission rod (16) is provided with a third motor (14), the output end of the third motor (14) is in transmission connection with the single-thread transmission rod (16) through a coupler, and the third motor (14) is electrically connected with the PLC (13).

6. The conveyor belt sub-packaging device for frozen bread embryo production according to claim 1, wherein: one side of the inside of the transmission cavity (15) is welded with a guide rod (18), the guide rod (18) penetrates through the moving plate (17), and the guide rod (18) is in sliding fit with the moving plate (17).

7. The conveyor belt sub-packaging device for frozen bread embryo production according to claim 1, wherein: the middle positions of the upper ends inside the weighing boxes (7) are respectively provided with a pressure sensor (10), and the pressure sensors (10) are electrically connected with the PLC (13).