CN215882204U - Cooling cabinet system and main line processing device - Google Patents

Abstract

The utility model discloses a novel cooling cabinet system and a main line processing device. The cooler bin comprises a plurality of boxes for hold the material, the endless chain is used for the conveying of material and the cyclic motion of cooler bin, and the feed end is used for sending into the material the cooler bin, the discharge end is used for seeing off the material the cooler bin, simultaneously, discharge end department still further is equipped with automatic hammering ware, and it utilizes lever principle, beats the cooler bin box, and the vibrations strength that its produced makes the granule glue of remaining on the cooler bin drop in same position, possesses convenient collection, improves advantages such as rate of making, has finally reached the improvement rate of making, has reduced the raw materials extravagant, keeps purposes such as processing environment health standard, scene 5S.

Description

Cooling cabinet system and main line processing device

Technical Field

The utility model relates to the field of trunk line processes, in particular to the field of rubber processing processes.

Background

The main line process is a process in natural rubber processing, and is characterized by that after one or several dried raw materials are passed through a formula, they are cut into required blocks with different sizes by means of a rubber-cutting machine according to the formula requirements, and the above-mentioned blocks are placed according to a certain proportion, and fed into a dry-mixing machine by means of a conveyer, and then mixed by means of main line process to obtain the invented product with the customized tyre rubber index.

The cooling box of the dry stirring cooling cabinet is formed by parallelly mounting a plurality of box bodies on a chain to form an oval ring, a charging hopper is circularly operated in the oval ring at a constant speed, and in the process, after the box is circulated from a feeding end for half cycle, the glue in the box falls onto a rear-end conveying belt to complete a cooling cycle.

However, the box body moves circularly in the operation, the small-particle residual glue is usually adhered to the box body and is not easy to slip off, and the residual glue can fall off only by vibration of external force.

In the prior art, the residual materials (such as broken rubber) fall mainly by the vibration of chain operation, and during each production, the materials scattered to the ground are many and need someone to clean the ground at any time, but the materials on the ground cannot be used as products due to pollution after being cleaned, and the materials need to be cleaned and then put into use, so that the resource waste is caused, and the cost is increased by repeated processing. The length of the whole production cooling system in general actual processing is about 25 meters, if the prior art is adopted, the broken glue falls on the ground at the position of more than 25 meters basically, at the moment, residues are scattered irregularly under a cooling cabinet, the product production rate is reduced, the field is influenced for 5S, raw materials are wasted, and the like.

SUMMERY OF THE UTILITY MODEL

In order to solve at least one of the above problems, the present invention provides a novel cooling cabinet system and a main line processing device, wherein in the process of circulating rotation of a chain of a cooling box, the box body is knocked by using the lever principle, and the generated vibration force causes the particle glue remained on the cooling box to fall off at the same position, so that the novel cooling cabinet system has the advantages of convenient collection, high yield and the like.

The cooling cabinet system comprises:

the cooling box consists of a plurality of box bodies and is used for containing materials;

the circulating chain is used for conveying materials and circulating the cooling box;

the feeding end is used for feeding materials into the cooling box;

the discharge end is used for sending the material out of the cooling box;

the automatic hammer is characterized in that an automatic hammer is further arranged at the discharging end and used for hammering and scattering material residues in the box body to a fixed position;

in the above device, the automatic hammer is provided with:

the balancing weight is used for knocking off residues on the cooling box;

the supporting rod is used for driving the counterweight block to rise and fall through the contact with the box body;

in the device, the automatic hammering device is further provided with a pulley which is fixedly connected with the balancing weight through a connecting mechanism and used for reducing friction borne by the box body and protecting the box body from being scratched by the balancing weight;

in the device, the automatic hammering device is further provided with a loose blade and a rotating shaft, the loose blade is positioned on the rotating shaft, and the balancing weight and the support rod are fixedly connected with two ends of the rotating shaft through a connecting mechanism respectively;

in the device, the supporting rod is a triangular supporting rod, and the distance between the balancing weight and the rotating shaft is greater than the distance between the supporting rod and the rotating shaft;

in the device, the cooling cabinet system is also provided with a collecting tray;

in the device, the outer layer of the pulley is of a soft structure;

in the device, two sides of the rotating shaft are respectively provided with a loose blade;

in the device, the triangular structure of the triangular supporting rod is an isosceles right triangle;

the utility model also relates to a main line processing device comprising the cooling cabinet system.

The utility model has the advantages and beneficial effects that:

the utility model provides a novel cooling cabinet system and main line processingequipment, adopted an automatic hammering ware, when the box was along with the sprocket turns, stir the branch of automatic hammering ware and raise branch gradually, the axis of rotation is raised the balancing weight simultaneously, fall down naturally after the box is slided to the branch end, the balancing weight falls immediately and beats the box outer wall for the cull can scatter at fixed position in the box, finally reached and improved the rate of making, reduce the raw materials extravagant, keep purposes such as processing environment hygienic standard.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of the cooling cabinet of the present invention without the automatic hammer.

FIG. 2 is a side view of a chiller after installation of an automatic hammer in accordance with one embodiment of the present invention.

FIG. 3 is a top view of a cooling cabinet with an automatic hammer in one embodiment of the utility model.

Fig. 4 is a front view of an automatic hammer in one embodiment of the utility model.

Fig. 5 is a side view of an automatic hammer in one embodiment of the utility model.

Description of reference numerals:

1-a cooling box; 2-circulating chains; 3-a feed end; 4-discharge end; 5-a balancing weight; 6-a strut; 7-loose leaves; 8-a rotating shaft; 9-a pulley; 10-connecting mechanism.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

As shown in figure 1, the utility model discloses a cooling cabinet system which comprises a cooling cabinet 1, a circulating chain 2, a feeding end 3, a discharging end 4 and a plurality of boxes, wherein the cooling cabinet 1 is formed by installing a plurality of boxes on the circulating chain 2 in parallel and can form an oval ring, materials enter the cooling cabinet 1 from the feeding end 3, the circulating chain 2 moves at a constant speed to enable the boxes to move and circulate, after half-cycle circulation, the materials in the boxes fall onto a rear-end conveying belt and fall out of the cooling cabinet 1 from the discharging end 4, and preferably, the discharging end 4 and the feeding end 3 are in a chain wheel structure, so that a cooling cycle is formed. As shown in figure 2, the automatic fighting device is additionally arranged at the discharge end 4 of the conventional cooling cabinet system, particularly, when glue materials are conveyed out, small particle materials in the box body are adhered in the box body and are not easy to slip off, in order to enable the glue residues to fall into a fixed area, an automatic hammering device is further arranged at the discharge end 4 and can hammer the passing box body, so that the glue residues in the box body fall off under the vibration, and the knocking direction, the force and the knocking time are the same, so that the glue residues can be scattered in a controllable area. Preferably, a collecting tray can be arranged, and the rubber can regularly scatter in the collecting tray through a set of automatic auxiliary hammering device additionally arranged below the discharge end 4, so that the waste of materials is greatly reduced.

As shown in fig. 4 and 5, the automatic hammer is provided with a counterweight 5 and a support rod 6, the counterweight 5 is used for knocking off the residue on the cooling box 1, and the support rod 6 is used for driving the counterweight 5 to rise and fall through contact with the box body. When the box turns along with the sprocket, the box can stir the supporting rod 6 and gradually raise the supporting rod 6, and drive the balancing weight 5 to raise. As a preferred embodiment, the automatic hammer further comprises a flap 7 and a rotating shaft 8, the flap 7 is located on the rotating shaft 8, preferably, two sides of the rotating shaft 8 are respectively provided with one flap 7, the counter weight 5 and the support rod 6 are respectively fixedly connected with two ends of the rotating shaft 8 through a connecting mechanism 10, at this time, when the support rod 6 is lifted due to contact with the box body, the rotating shaft 8 can also lift the counter weight 5, when the support rod 6 slides over the box body at the end, the counter weight 5 naturally falls down, and at this time, the counter weight 5 immediately falls down to knock the outer wall of the box body. The granular glue remained on the cooling box 1 falls off at the same position by utilizing the beating vibration force, and is convenient to collect. Preferably, automatic hammer ware still further is equipped with pulley 9, pulley 9 passes through coupling mechanism 10 and links to each other with balancing weight 5 is fixed, and branch 6 is triangle branch 6 (for example, establishes to isosceles right triangle), and the distance between balancing weight 5 and axis of rotation 8 is greater than the distance between branch 6 and the axis of rotation 8.

As shown in fig. 3, after the supporting rods 6 are contacted by the rotationally moved box body, the box body jacks up the triangular supporting rods 6 by using rotational force, after the rotation of one box body is finished, the triangular supporting rods 6 naturally fall off along with the walking of one box body from the highest point, the balancing weight 5 also falls off along with the sliding of the pulley 9 to knock the outer wall of the box body, and broken glue remained on the box body falls into a tray at the lower end by using the knocking vibration frequency; because the box body is continuously circulated at a constant speed, the part contacting the box body is contacted with the pulley 9 to play a role of protecting the box body from being knocked and deformed, and the pulley 9 is pushed by the box body to be transmitted by self without damaging the box body and the hammering device.

The angle of the supporting rod 6, the size and the type of the rotating shaft 8, and the material size, the mode and the combination of the balancing weight 5 should be matched with a cooling cabinet system so as to achieve the using effect. The outer layer of the pulley 9 can be a soft structure, such as rubber, nylon and the like, and can further play a role in protecting the box body as a wheel sleeve on the outer layer of the pulley 9. In a conventional mainline process, a processing device provided with the cooling cabinet system described in the present invention may be used to achieve the design object of the present invention.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein, and all such modifications, equivalents, improvements and equivalents as fall within the spirit and scope of the present invention are intended to be included therein.

Claims (9)

1. A cooling cabinet system comprising:

the cooling box consists of a plurality of box bodies and is used for containing materials;

the circulating chain is used for conveying materials and circulating the cooling box;

the feeding end is used for feeding materials into the cooling box;

the discharge end is used for sending the material out of the cooling box;

the automatic hammer is characterized in that an automatic hammer is further arranged at the discharging end and used for hammering and scattering material residues in the box body to a fixed position;

automatic hammering ware is equipped with the axis of rotation and:

the balancing weight is used for knocking off residues on the cooling box;

the supporting rod is used for driving the counterweight block to rise and fall through the contact with the box body;

the balancing weight and the supporting rod are fixedly connected with two ends of the rotating shaft through connecting mechanisms respectively.

2. The cooling cabinet system as recited in claim 1, wherein the automatic hammer further comprises a pulley fixedly connected to the weight block via a connection mechanism for reducing friction against the housing and protecting the housing from being scratched by the weight block.

3. The cooling cabinet system according to claim 1, wherein the automatic hammer further comprises a flap, the flap being located on the rotational axis.

4. The cooling cabinet system according to claim 1, wherein the support bar is a triangular support bar, and the distance between the weight and the axis of rotation is greater than the distance between the support bar and the axis of rotation.

5. The cooling cabinet system according to claim 1, wherein the cooling cabinet system is further provided with a collecting tray.

6. The chiller cabinet system of claim 2, wherein the pulley outer layer is a soft structure.

7. A cooling cabinet system according to claim 3, wherein one flap is provided on each side of the rotary shaft.

8. The cooling cabinet system according to claim 4, wherein the triangular structure of the triangular struts is an isosceles right triangle.

9. A mainline processing unit, characterized by comprising a cooling cabinet system according to any one of claims 1-8.

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