CN210681317U

CN210681317U - High-efficient partial shipment bull balance

Info

Publication number: CN210681317U
Application number: CN201921592593.XU
Authority: CN
Inventors: 魏本虎; 张海信; 涂大劲; 张玉青; 修晓磊; 石小东; 柴铁瑛; 赵文玲
Original assignee: Zhong Hong San Rong Group Co Ltd
Current assignee: Zhong Hong San Rong Group Co Ltd
Priority date: 2019-09-24
Filing date: 2019-09-24
Publication date: 2020-06-05
Anticipated expiration: 2029-09-24

Abstract

The utility model discloses a high-efficient partial shipment bull balance, including fixed the setting in subaerial support frame, the fixed bull balance body that is provided with in top of support frame, the upper portion of bull balance body is provided with the feed inlet, the lower part of bull balance body corresponds each weighing hopper and evenly is provided with a plurality of blown down tanks along circumference. A buffer hopper is arranged below the multi-head scale body, the top of the buffer hopper is butted with the bottom of the multi-head scale body and is provided with an upper end cover, and the upper end cover is provided with a material passing groove with the same profile as the discharge groove; the outer side of the lower half part of the buffer bucket is in transmission connection with a first motor which is arranged on the outer side of the supporting frame and used for driving the buffer bucket to rotate. The utility model discloses rotary motion is done to the upper end cover makes the material of each blown down tank department discharge in proper order, avoids the material of each blown down tank department to discharge simultaneously and causes the jam to defeated material passageway, has improved work efficiency.

Description

High-efficient partial shipment bull balance

Technical Field

The utility model relates to a meat food processing partial shipment technical field especially relates to a high-efficient partial shipment bull balance.

Background

After meat food processing is finished, the materials need to be subpackaged through a multi-head scale, and the multi-head scale is composed of a plurality of weighing units of independent feeding and discharging structures. The computer utilizes the permutation and combination principle to automatically optimize and combine the load capacity of the weighing units to obtain the optimal weight combination closest to the target weight value. The existing multi-head scale is divided into 8 buckets, 10 buckets, 12 buckets, 14 buckets, 16 buckets, 20 buckets, 24 buckets and the like, however, when a plurality of groups of weighing hoppers are used for simultaneously discharging, material clamping and material discharging holes are easily blocked, the working efficiency is influenced, and materials are easily scattered or mixed front and back on a conveying belt due to the direct impact of the gravity action in the process of weighing the conveying belt from the multi heads, so that the accuracy and the uniformity of weight distribution are difficult to guarantee.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a high-efficient partial shipment bull balance solves the technical problem who relates to among the above-mentioned background art.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model relates to a high-efficient partial shipment bull balance, including fixed the setting in subaerial support frame, the fixed bull balance body that is provided with in top of support frame, the upper portion of bull balance body is provided with first feed inlet, the lower part of bull balance body corresponds each weighing hopper and evenly is provided with a plurality of blown down tanks along circumference.

A buffer hopper is arranged below the multi-head scale body, the top of the buffer hopper is butted with the bottom of the multi-head scale body and is provided with an upper end cover, and the upper end cover is provided with a material passing groove with the same profile as the discharge groove; the outer side of the lower half part of the buffer bucket is in transmission connection with a first motor which is arranged on the outer side of the supporting frame and used for driving the buffer bucket to rotate.

The support frame is fixedly provided with a receiving bucket below the buffering bucket, the lower part of the buffering bucket is inserted into the upper part of the receiving bucket, a connecting bearing is arranged at the contact part of the upper part and the lower part of the buffering bucket, and a bearing ring is fixedly arranged below the receiving bucket on the inner peripheral wall of the receiving bucket.

The supporting frame is fixedly provided with a fixed barrel sleeve below the receiving hopper, the upper end of the fixed barrel sleeve is over against the lower end of the receiving hopper and is provided with a second feed inlet, the lower end of the fixed barrel sleeve is provided with a discharge outlet, the middle part of the fixed barrel sleeve is rotatably provided with a roller, the outer edge of the roller is uniformly provided with a plurality of receiving grooves, and the intermediate shaft of the roller is in transmission connection with a second motor which is arranged outside the supporting frame and is used for driving the roller to rotate.

Furthermore, a first belt wheel is fixedly arranged on the outer side of the lower half part of the buffer bucket, a second belt wheel is fixedly arranged on an output shaft of the first motor, and a first transmission belt is arranged between the first belt wheel and the second belt wheel.

Furthermore, a third belt wheel is fixedly arranged on a middle shaft of the roller, a fourth belt wheel is fixedly arranged on an output shaft of the second motor, and a second transmission belt is arranged between the third belt wheel and the fourth belt wheel.

Furthermore, the peripheral wall of the receiving hopper is fixedly connected with the support frame through two symmetrically arranged connecting rods.

Compared with the prior art, the utility model discloses a beneficial technological effect:

the utility model discloses an each title hopper carries out even partial shipment to the material, and the upper end cover on first motor drive buffering and the buffering fill is fought rotatoryly, because only seted up a silo of crossing on the upper end cover, the upper end cover only can enter into the buffering in the pivoted in-process just can enter into the buffering fill by the material of the blown down tank department of crossing the silo, and the material of other blown down tank departments is blockked by the upper end cover. The upper end cover rotates to enable materials at the discharge chutes to be sequentially and orderly discharged, so that the blockage of a material conveying channel due to the simultaneous discharge of the materials at the discharge chutes is avoided, and the working efficiency is improved.

The material that weighs is fought by the buffering and is got into to hold and connect the fill in, and the cylinder of holding the below of fighting is in the rotating state under the effect of second motor, and the material of holding in fighting can get into the silo that connects that is located feed inlet department to it is rotatory to follow the cylinder, until moving discharge gate department and dropping to the conveyer belt and carry next process, has avoided the material to scatter or mix from beginning to end, has guaranteed that weight distribution's accuracy is even.

Drawings

The present invention will be further explained with reference to the following description of the drawings.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the lower end surface of the multi-head balance body;

FIG. 3 is a schematic view of the upper end cap;

description of reference numerals: 1. a support frame; 2. a multi-head scale body; 3. a first feed port; 4. a discharge chute; 5. A buffer hopper; 6. an upper end cover; 7. a material passing groove; 8. a first motor; 9. a receiving hopper; 10. connecting a bearing; 11. A bearing ring; 12. fixing the cylinder sleeve; 13. a second feed port; 14. a discharge port; 15. a drum; 16. a material receiving groove; 17. a second motor; 18. a first pulley; 19. a second pulley; 20. a first drive belt; 21. a third belt pulley; 22. a fourth pulley; 23. a second belt; 24. a connecting rod; 25. and (5) conveying the belt.

Detailed Description

As shown in fig. 1-3, a high-efficient partial shipment bull balance includes support frame 1 of fixed mounting on subaerial, support frame 1's top fixed mounting has bull balance body 2, the upper portion of bull balance body 2 is provided with first feed inlet 3, the lower part of bull balance body 2 corresponds each weighing hopper and evenly is provided with a plurality of blown down tanks 4 along circumference.

A buffering hopper 5 is installed below the multi-head scale body 2, the top of the buffering hopper 5 is in butt joint with the bottom of the multi-head scale body 2 and is fixedly provided with an upper end cover 6, and the upper end cover 6 is provided with a material passing groove 7 with the same profile as the discharge groove 4. The outer side of the lower half part of the buffer bucket 5 is in transmission connection with a first motor 8 which is arranged on the outer side of the support frame 1 and used for driving the buffer bucket 5 to rotate, specifically, a first belt pulley 18 is fixedly sleeved on the outer side of the lower half part of the buffer bucket 5, a second belt pulley 19 is fixedly arranged on an output shaft of the first motor 8, and a first transmission belt 20 is arranged between the first belt pulley 18 and the second belt pulley 19.

The support frame 1 is in the below fixed mounting of buffering fill 5 holds and connects fill 9, the periphery wall that holds and connect fill 9 through two symmetries set up connecting rod 24 with support frame 1 fixed connection. The lower part of the buffer bucket 5 is inserted into the upper part of the receiving bucket 9, a connecting bearing 10 is arranged at the contact part of the buffer bucket and the receiving bucket 9, and a supporting ring 11 is fixedly arranged on the inner peripheral wall of the receiving bucket 9 below the receiving bucket 9.

The support frame 1 is in the below fixed mounting who holds the hopper 9 has fixed barrel casing 12, the upper end of fixed barrel casing 12 just to hold the lower extreme of hopper 9 and seted up second feed inlet 13, the lower extreme of fixed barrel casing 12 is seted up discharge gate 14. The middle part of the fixed barrel sleeve 12 is rotatably provided with a roller 15, the outer edge of the roller 15 is uniformly provided with a plurality of material receiving grooves 16, and the intermediate shaft of the roller 15 is in transmission connection with a second motor 17 which is arranged on the outer side of the support frame 1 and is used for driving the roller 15 to rotate. A third belt wheel 21 is fixedly mounted on an intermediate shaft of the roller 15, a fourth belt wheel 22 is fixedly mounted on an output shaft of the second motor 17, and a second transmission belt 23 is mounted between the third belt wheel 21 and the fourth belt wheel 22.

The working process of the utility model is as follows:

after the bull balance body is put into by first feed inlet at first, carry out even partial shipment to the material through each weighing hopper to prepare to discharge by each hopper below blown down tank, at this moment, the upper end cover on first motor drive buffering and the buffering fill is fought rotatoryly, because only seted up one on the upper end cover and crossed the silo, above end cover only crossed the silo just to the material of blown down tank department and just can enter into the buffering and fight at the pivoted in-process, and the material of other blown down tank departments is blockked by the upper end cover. The upper end cover rotates to enable materials at the discharge chutes to be sequentially and orderly discharged, so that the blockage of a material conveying channel due to the simultaneous discharge of the materials at the discharge chutes is avoided, and the working efficiency is improved.

The material that weighs is fought by the buffering and is got into to hold and connect the fill in, and the cylinder of holding below fighting is in the rotating state under the effect of second motor, and the material of holding in fighting can get into the silo that connects that is located second feed inlet department to it is rotatory to follow the cylinder, drops on conveyer belt 25 and carries next process to the discharge gate department until moving, has avoided the material to scatter or the front and back mixes, has guaranteed that weight distribution's accuracy is even.

The above-mentioned embodiments are only intended to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and those skilled in the art should also be able to make various modifications and improvements to the technical solution of the present invention without departing from the spirit of the present invention, and all such modifications and improvements are intended to fall within the scope of the present invention as defined in the appended claims.

Claims

1. The utility model provides a high-efficient partial shipment bull balance which characterized in that: the multi-head balance comprises a support frame (1) fixedly arranged on the ground, a multi-head balance body (2) is fixedly arranged above the support frame (1), a first feed port (3) is formed in the upper portion of the multi-head balance body (2), and a plurality of discharge chutes (4) are uniformly formed in the lower portion of the multi-head balance body (2) along the circumferential direction corresponding to weighing hoppers;

a buffer hopper (5) is arranged below the multi-head scale body (2), the top of the buffer hopper (5) is butted with the bottom of the multi-head scale body (2) and is provided with an upper end cover (6), and the upper end cover (6) is provided with a material passing groove (7) with the same profile as the discharge groove (4); the outer side of the lower half part of the buffer hopper (5) is in transmission connection with a first motor (8) which is arranged on the outer side of the support frame (1) and used for driving the buffer hopper (5) to rotate;

a receiving hopper (9) is fixedly arranged below the buffer hopper (5) on the support frame (1), the lower part of the buffer hopper (5) is inserted into the upper part of the receiving hopper (9), a connecting bearing (10) is arranged at the contact part of the buffer hopper and the receiving hopper, and a bearing ring (11) is fixedly arranged below the receiving hopper (9) on the inner peripheral wall of the receiving hopper (9);

the supporting frame (1) is fixedly provided with a fixed barrel sleeve (12) below the bearing hopper (9), the upper end of the fixed barrel sleeve (12) is over against the lower end of the bearing hopper (9) and a second feeding hole (13) is formed in the lower end of the fixed barrel sleeve (12), a discharging hole (14) is formed in the lower end of the fixed barrel sleeve (12), a rotary drum (15) is rotatably arranged in the middle of the fixed barrel sleeve (12), a plurality of material receiving grooves (16) are uniformly formed in the outer edge of the rotary drum (15), and an intermediate shaft of the rotary drum (15) is in transmission connection with a second motor (17) which is arranged on the outer side of the supporting frame (1) and used for driving the rotary drum (15).

2. The efficient racking multi-head scale according to claim 1, wherein: a first belt wheel (18) is fixedly arranged on the outer side of the lower half part of the buffer bucket (5), a second belt wheel (19) is fixedly arranged on an output shaft of the first motor (8), and a first transmission belt (20) is arranged between the first belt wheel (18) and the second belt wheel (19).

3. The efficient racking multi-head scale according to claim 1, wherein: a third belt wheel (21) is fixedly arranged on an intermediate shaft of the roller (15), a fourth belt wheel (22) is fixedly arranged on an output shaft of the second motor (17), and a second transmission belt (23) is arranged between the third belt wheel (21) and the fourth belt wheel (22).

4. The efficient racking multi-head scale according to claim 1, wherein: the peripheral wall of the receiving hopper (9) is fixedly connected with the support frame (1) through two symmetrically arranged connecting rods (24).