CN210846679U - Crushing centrifugal system - Google Patents

Abstract

The utility model discloses a crushing centrifugal system, including breaker, fan, centrifuge, first feed bin, check out test set, blender, second feed bin and dress chartered plane, the discharge gate of breaker is connected with the feed inlet of fan, the discharge gate of fan is connected with the feed inlet of centrifuge, the discharge gate of centrifuge is connected with the feed inlet of first feed bin, the discharge gate of first feed bin is connected with the feed inlet of check out test set, the discharge gate of check out test set is connected with a feed inlet of blender, the discharge gate of blender is connected with the feed inlet of second feed bin, the discharge gate of second feed bin is connected with the feed inlet of dress chartered plane; the utility model has the advantages that: the utility model provides a relatively ripe broken centrifugal system, avoids material ratio to go wrong and produce the substandard product to can water resource cyclic utilization.

Description

Crushing centrifugal system

Technical Field

The utility model relates to the field of machinary, more specifically relates to a broken centrifugal system.

Background

The low-temperature crushing is to crush the materials by utilizing the cold brittleness characteristic of the materials under the low-temperature condition, so that finer particles can be obtained, and the materials can be crushed under the low-temperature condition, so that the quality of the materials can be maintained, and the value is improved. The material to be crushed is rapidly frozen to a temperature below the cold brittleness temperature by using a refrigerant, and then the frozen material is sent into a crushing device for crushing. The low-temperature pulverization can be used for pulverizing materials which are difficult to pulverize at normal temperature, such as rubber and thermoplastic plastics. And (3) crushing the heat-sensitive materials to prevent the materials from deteriorating during crushing. The crushed product has good molding, large bulk density and good fluidity. At present, a mature crushing centrifugal system is lacked in industrial production to produce products meeting the requirements of component proportion, most of materials of crushing centrifugal systems in the prior art are directly mixed and then packaged after entering a mixer, and the problem that the component proportion of the products is wrong and defective products are generated is easily caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the broken centrifugal system who carries prior art causes the product group to match easily and error and produce the problem of substandard product.

The utility model discloses a solve above-mentioned technical problem through following technical scheme: the utility model provides a broken centrifugal system, includes breaker, fan, centrifuge, first feed bin, check out test set, blender, second feed bin and dress chartered plane, the discharge gate of breaker with the feed inlet of fan is connected, the discharge gate of fan with centrifuge's feed inlet is connected, centrifuge's discharge gate with the feed inlet of first feed bin is connected, the discharge gate of first feed bin with check out test set's feed inlet is connected, check out test set's discharge gate is connected with a feed inlet of blender, the discharge gate of blender is connected with the feed inlet of second feed bin, the discharge gate of second feed bin is connected with the feed inlet of dress chartered plane. The utility model discloses at first the breaker is with the material breakage, then utilize the fan to blow in the centrifuge with broken material, centrifuge spin-dries the material, take out into the vacuum state, then the material is carried first feed bin, check out test set carries each component of the material of coming to first feed bin to detect, after the detection finishes, the material is sent into the blender, it needs the volume of replenishment to reachd each component of material according to check out test set's testing result, supplement each component of material, then satisfy the material that the component ratio required and carry the second feed bin, get into the bagging machine again and adorn the package.

Preferably, the centrifuge is provided with a water return port, and the water return port is communicated with a water inlet of the crusher. The purpose that sets up the return water mouth is that centrifuge carries out the moisture that centrifugal in-process was thrown away to the material and retrieves to the breaker through the return water mouth, realizes the cyclic utilization of water, resources are saved.

Preferably, the mixer further comprises a plurality of material supplementing openings, and each material supplementing opening is connected with one material supplementing bin. The material supplementing openings are used for supplementing the materials of all the components through the material supplementing openings so as to enable the materials to meet the component proportion ratio when the detection equipment detects that the component proportion ratio of the materials does not meet the requirements.

Preferably, the number of the material supplementing bins is the same as the number of the components of the materials in the first bin and the second bin.

Preferably, the crusher is located above the fan. The crusher is positioned above the fan, and is convenient to discharge under the action of gravity.

Preferably, the centrifuge and the fan are located on the same horizontal plane.

Preferably, the second silo is located below the first silo.

Compared with the prior art, the utility model has the following advantages:

(1) the utility model provides a be different from prior art's broken centrifugal system of relative maturity detects each group of material proportion through check out test set to under the unsatisfied condition of requirement of each group of material proportion, supplement each group through the blender, so that it satisfies the ratio requirement, consequently the probability that the error appears in the group proportion is less relatively, and the possibility that produces the substandard product is little.

(2) Set up the return water mouth on the centrifuge, the centrifuge carries out the moisture that centrifugal in-process was thrown away to the material and retrieves to the breaker through the return water mouth, realizes the cyclic utilization of water, resources are saved.

Drawings

Fig. 1 is a schematic structural diagram of a crushing and centrifuging system disclosed in an embodiment of the present invention.

Detailed Description

The embodiments of the present invention will be described in detail below, and the present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

Example 1

As shown in fig. 1, a crushing and centrifuging system comprises a crusher 1, a fan 2, a centrifuge 3, a first bin 4, a detection device 5, a mixer 6, a second bin 7 and a bagging machine 8.

The discharge gate of breaker 1 with the feed inlet of fan 2 is connected, the discharge gate of fan 2 with centrifuge 3's feed inlet is connected, centrifuge 3's discharge gate with first feed bin 4's feed inlet is connected, first feed bin 4's discharge gate with check out test set 5's feed inlet is connected, check out test set 5's discharge gate and mixer 6's a feed inlet are connected, mixer 6's discharge gate and second feed bin 7's feed inlet are connected, second feed bin 7's discharge gate and dress chartered plane 8's feed inlet are connected.

The utility model discloses a working process does: at first, the material is broken by the crusher 1, then the broken material is blown into the centrifuge 3 by the fan 2, the centrifuge 3 spin-dries the material, the material is vacuumized, then the material is conveyed to the first bin 4, the detection equipment 5 detects each component of the material conveyed by the first bin 4, after the detection is finished, the material is conveyed into the mixer 6, the amount of each component of the material to be supplemented is obtained according to the detection result of the detection equipment 5, each component of the material is supplemented, then the material meeting the requirement of the component distribution ratio is conveyed to the second bin 7, and then the material enters the bagging machine 8 to be bagged.

Example 2

As a further improvement of the technical solution of the present invention, the embodiment 2 is different from the embodiment 1 only in that the centrifuge 3 is provided with a water return port (not shown), although the water return port is not shown in the figure, the direction of the water return is shown by an arrow, and the water return port is connected to the water inlet of the crusher 1. The purpose of setting up the return water mouth is that centrifuge 3 carries out the moisture that centrifugal in-process was thrown away to the material and retrieves to breaker 1 through the return water mouth, realizes the cyclic utilization of water, resources are saved.

Example 3

As a further improvement of the technical solution of the present invention, the difference between the embodiment 3 and the embodiment 1 is only that the mixer 6 further includes a plurality of material supplementing openings, a plurality of material supplementing openings are indicated by three arrows in the figure, and each of the material supplementing openings is connected to one material supplementing opening (not shown in the figure). The material supplementing openings are used for supplementing the materials of all the components through the material supplementing openings so as to enable the materials to meet the component proportion ratio when the detection equipment 5 detects that the component proportion ratio of the materials does not meet the requirement.

Specifically, the number of the material supplementing bins is the same as the number of the components of the materials in the first bin 4 and the second bin 7.

Specifically, the crusher 1 is located above the fan 2. The crusher 1 is positioned above the fan 2, and is convenient to discharge under the action of gravity.

Specifically, centrifuge 3 with fan 2 is located same horizontal plane, and centrifuge 3 is directly sent into to the material that comes out from fan 2, is located same horizontal plane in order to avoid fan 2's pipeline and centrifuge 3's pipeline not on same straight line, and the pipeline appears the distortion and will form certain negative pressure, is unfavorable for the material to carry from fan 2 to centrifuge 3.

Specifically, the second bin 7 is located below the first bin 4, and under the action of gravity, the materials are conveyed conveniently.

Through the technical scheme, the utility model discloses a broken centrifugal system has and detects each component distribution ratio of material before material production dress package, according to the ratio result, supplements the material component when unsatisfied the ratio requirement, and it is little to have the ratio error, and the defective percentage is low advantage. Simultaneously, centrifuge sets up the return water mouth, realizes the cyclic utilization of water, resources are saved.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The utility model provides a broken centrifugal system, its characterized in that, includes breaker, fan, centrifuge, first feed bin, check out test set, blender, second feed bin and dress chartered plane, the discharge gate of breaker with the feed inlet of fan is connected, the discharge gate of fan with centrifuge's feed inlet is connected, centrifuge's discharge gate with the feed inlet of first feed bin is connected, the discharge gate of first feed bin with check out test set's feed inlet is connected, check out test set's discharge gate is connected with a feed inlet of blender, the discharge gate of blender is connected with the feed inlet of second feed bin, the discharge gate of second feed bin is connected with the feed inlet of dress chartered plane.

2. A crushing centrifuge system according to claim 1 wherein the centrifuge is provided with a water return port communicating with the water inlet of the crusher.

3. The crushing centrifuge system of claim 1, wherein the mixer further comprises a plurality of make-up ports, each of the make-up ports being connected to a make-up bin.

4. A crushing centrifuge system according to claim 3 wherein the number of the replenishment bins is the same as the number of components in the material in the first and second bins.

5. A crushing centrifuge system according to claim 1 wherein said crusher is located above said fan.

6. A fragmenting centrifuge system as claimed in claim 1, wherein said centrifuge is located at the same level as said fan.

7. The crushing centrifuge system of claim 1, wherein the second bin is located below the first bin.

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