CN216887295U - Feed divider and divide material system - Google Patents

Abstract

The present disclosure discloses a material distribution device and a material distribution system, wherein the material distribution system comprises a conveying device, the material distribution device and a material distribution container. This feed divider has seted up last feed inlet and bottom outlet including circulation storage silo, baffle and drive baffle wobbling drive arrangement on the circulation storage silo, and the baffle slope sets up in the circulation storage silo, and the upper end of baffle surpasss the last feed inlet, the lower extreme of baffle extends to near bottom outlet department at least on the inner wall of circulation storage silo, in order to incite somebody to action the circulation storage silo falls into two cavities that cut off each other, and drive arrangement drive baffle swing, each cavity passes through the swing of baffle and one of them intercommunication of last feed inlet and bottom outlet, so that the cavity is ejection of compact and feeding in turn.

Description

Feed divider and divide material system

Technical Field

The present disclosure relates to a material distribution device in production, and more particularly, to a material distribution device and a material distribution system.

Background

At present, in production, to the branch material of graininess, cubic or long and thin form material, generally divide the material through manual, for example, the shrouding of the discharge gate department that promotes the feed bin through the handle is opened and is closed to switch different pocket, promptly, adorn a pocket after, the shrouding that promotes the feed bin is closed, the stop work, treat that next pocket prepares the back good back, promote the switch shrouding again and open, owing to receive blockking of material, this shrouding often can be blocked, and the shrouding need realize removing repeatedly under the effect of material gravity, also higher to drive arrangement's requirement, the structure is complicated, and is with high costs.

SUMMERY OF THE UTILITY MODEL

In order to solve the ejection of compact that exists among the correlation technique and block easily and divide the complicated problem of material structure, this disclosure provides a feed divider and branch material system that can lead to in the same direction as the ejection of compact and the structure is simple and convenient.

The present disclosure provides a material distribution device, including:

the circulation storage bin is provided with an upper feed port and a lower discharge port;

the baffle is obliquely arranged in the circulation storage bin, the upper end of the baffle exceeds the upper feeding port, and the lower end of the baffle at least extends to the inner wall of the circulation storage bin close to the lower discharging port so as to divide the circulation storage bin into two chambers which are separated from each other;

and the driving device is connected with the baffle and used for driving the baffle to swing, and each chamber is communicated with one of the upper feeding port and the lower discharging port through the swinging of the baffle so as to enable the chambers to alternately discharge and alternately feed.

Optionally, the two chambers are a first chamber and a second chamber respectively;

when the baffle is located at the first position, the first cavity is communicated with the upper feed opening and is separated from the lower discharge opening, and the second cavity is communicated with the lower discharge opening and is separated from the upper feed opening; the baffle swings to the second position, the second cavity with last feed inlet intercommunication and with lower discharging port separates, first cavity with lower discharging port intercommunication and with last feed inlet separates.

Optionally, the lower extreme of baffle surpasss the bottom discharge mouth, the upper end of baffle is in the opening range swing of last feed inlet, the lower extreme of baffle is in the opening range swing of bottom discharge mouth.

Optionally, a feeding guide is arranged at the upper feeding port, and the feeding guide guides the material into the circulation storage bin.

Optionally, a discharging guide piece is arranged at the lower discharging opening, and the discharging guide piece guides the material from the circulation storage bin into a material distributing container to be charged.

Optionally, the volumes of the two chambers are the same.

Optionally, the cross section of the circulation storage bin is circular or polygonal, and the driving device is an oil cylinder, an air cylinder or a motor.

The present disclosure additionally provides a material distribution system, comprising:

the conveying device is used for conveying materials;

in the material distributing device, the material falls into a circulating storage bin of the material distributing device after passing through the conveying device, and the circulating storage bin is divided into two chambers by a baffle plate in the circulating storage bin, namely a first chamber and a second chamber;

the material distributing containers are used for loading materials flowing out of the lower discharging openings in turn;

when the baffle is located at the first position, the first cavity is communicated with the upper feeding port and is separated from the lower discharging port, the second cavity is communicated with the lower discharging port and is separated from the upper feeding port, the material enters the first cavity, and the material in the second cavity is discharged into the material distributing container from the lower feeding port of the circulating storage bin; when the materials in the second cavity are unloaded and finished, the driving device drives the baffle to swing to the second position, the second cavity is communicated with the upper feeding port and is separated from the lower discharging port, the first cavity is communicated with the lower discharging port and is separated from the upper feeding port, the materials enter the second cavity, and the materials in the first cavity are unloaded from the lower feeding port to the material distributing container.

Optionally, the two chambers have the same volume and are equal to the volume of the distributing container, so that the baffle plate is swung once to fill one distributing container.

Optionally, each of the distributing containers is automatically conveyed to a position below the lower discharge port, and the replacement frequency of the distributing container is the same as the swing frequency of the baffle.

Optionally, the feeding speed of the circulating storage bin is equal to the discharging speed.

Optionally, the material is an elongated or massive bamboo.

The technical scheme provided by the embodiment of the disclosure can have the following beneficial effects:

the utility model provides a feed divider, this feed divider has seted up last feed inlet and bottom outlet including circulation storage silo, baffle and drive baffle wobbling drive arrangement on the circulation storage silo, and the baffle slope sets up in the circulation storage silo, and the upper end of baffle surpasss the feed inlet, the lower extreme of baffle extends to near bottom outlet department at least on the inner wall of circulation storage silo, in order to incite somebody to action the circulation storage silo falls into two cavities that cut off each other, and drive arrangement drives the baffle swing, and each cavity passes through the swing of baffle and one of them intercommunication of feed inlet and bottom outlet, so that the cavity is ejection of compact and feeding in turn. So, can realize through the swing of baffle that the material is unloaded, for the mode of unloading of traditional switch formula, reduced the probability of being stuck, improved the logical degree of smoothness of the ejection of compact to realize dividing the material through the baffle and simplified the material distribution equipment structure, reduced equipment cost. In addition, the swing time of the baffle is controlled by the driving device, so that the automation level of material distribution can be improved, feeding and material distribution are simultaneously carried out without mutual interference, and the production efficiency of loading and unloading is improved.

The present disclosure further provides a material distribution system, which includes a conveying device, the material distribution device and material distribution containers, wherein the conveying device conveys the material to the material distribution device, and the material distribution device distributes the material into each material distribution container. Because this material distribution system adopts above-mentioned feed divider, for the mode of unloading of traditional switch mode, reduced the probability of being stuck, improved the logical degree of smoothness of ejection of compact to realize dividing the material through the baffle and simplified material distribution equipment structure, reduced equipment cost.

In addition, each material distributing container is automatically conveyed to the position below the lower discharge port, and the replacing frequency of the material distributing containers is the same as the swinging frequency of the baffle plate, so that the automation level of material distribution can be improved, and the production efficiency is improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a schematic structural view of a material distribution system shown in an exemplary embodiment according to the present disclosure.

Fig. 2 is a top view of a feed distribution system with respect to a top feed opening in an exemplary embodiment according to the present disclosure.

Fig. 3 is a schematic structural diagram of a material distribution system shown in another exemplary embodiment according to the present disclosure.

Detailed Description

For further explanation of the principles and construction of the present disclosure, reference will now be made in detail to the preferred embodiments of the present disclosure, which are illustrated in the accompanying drawings.

As shown in fig. 1, the present disclosure provides a material distribution system 100 including a material distribution device 10, a material distribution container 20 located below the material distribution device 10, a conveyor 30, and a material storage container 40.

The storage container 40 is a large container for storing a large amount of materials, which may be in the form of powder, granules, blocks or elongated shapes. For example, bamboo in the form of chopped strands or blocks. In one embodiment, the material distribution system 100 may be adapted for distribution of bamboo material prior to entering a steam explosion apparatus for steam explosion.

The conveying device 30 is used for conveying the materials in the material storage container 40 to the material distributing device 10. The conveyor 30 may be a conveyor belt.

The feed divider 10 is located below the conveyor 30.

The material separating device 10 comprises a circulation storage bin 11, a baffle plate 12 and a driving device 13.

The cross section of the circulation storage bin 11 may be circular, as shown in fig. 2, an upper feeding port 111 and a lower discharging port 112 are opened on the circulation storage bin, and the size of the upper feeding port 111 and the size of the lower discharging port 112 may be the same. The upper feed port 111 and the lower discharge port 112 are located at both ends of the circular cross-sectional diameter. The upper feed opening 111 and the lower feed opening 112 can be arranged vertically symmetrically with respect to the transverse center axis L1 of the circulating silo 11. The upper feed opening 111 and the lower feed opening 112 may also be arranged symmetrically to the left and right with respect to the longitudinal center axis L2 of the flow-through silo 11.

Alternatively, the upper inlet 111 and the lower outlet 112 need not be symmetrical with respect to the transverse center axis L1, i.e., the inlet 111 and the lower outlet 112 may be arranged obliquely with respect to each other. Similarly, the upper feed opening 111 and the lower feed opening 112 need not be symmetrical with respect to the central longitudinal axis L2.

The baffle 12 is obliquely arranged in the circulation storage bin 11. The baffle 12 is a one-piece plate having an area substantially equal to the longitudinal cross-sectional dimension of the flow storage bin 11, so that the flow storage bin 11 is divided into two chambers which are not in communication with each other. The upper end of baffle 12 surpasss upper feed inlet 111, so, can carry on spacingly to the swing position of baffle 12 upper end to still can effectively prevent baffle 12 and the inner wall of cavity to produce the phenomenon of card material.

The lower end of the baffle 12 extends at least to the inner wall of the flow storage bin 11 at the lower discharge opening 112, for example, on the inner wall around the lower discharge opening 112. Variably, the lower end of the baffle 12 can also extend beyond the lower discharge hole 112, that is, the lower end of the baffle 12 extends beyond the outer wall of the circulation storage bin 11, so that the swing position of the lower end of the baffle 12 can be limited, and the phenomenon of material jamming between the baffle 12 and the inner wall of the chamber can be effectively prevented.

The baffle 12 swings around the center point of the circulation storage bin 11, if the circulation storage bin 11 is a sphere, the center point is located at the center of the circle, and if the circulation storage bin 11 is a special-shaped body, the center point is the geometric center of the special-shaped body.

As shown in fig. 1, the baffle 12 divides the internal space of the circulation storage bin 11 into two chambers with approximately the same volume, and the two chambers are alternately communicated with one of the upper feeding port 111 and the lower discharging port 112 through the swing of the baffle 12, that is, when the upper feeding port 111 is communicated with one chamber, the lower discharging port 112 is communicated with the other chamber; while the upper feed port 111 communicates with another chamber, the lower discharge port 112 communicates with one of the chambers. The alternating discharge and the alternating feed of the chamber are achieved by the oscillation of the baffles 12. And feeding and discharging can be carried out simultaneously, so that the time of discharging and feeding can be shortened, and the production efficiency is improved.

More specifically, as shown in fig. 1, the two chambers are a first chamber 11a and a second chamber 11b, respectively. The shutter 12 has two position states, a first position P1 and a second position P2. When the baffle 12 is at the first position P1, the first chamber 11a is in communication with the upper feed opening 111 and is separated from the lower discharge opening 112, and the second chamber 11b is in communication with the lower discharge opening 112 and is separated from the upper feed opening 111, in which state the first chamber 11a is fed and the second chamber 11b is discharged. When the baffle 12 is at the second position P2, the second chamber 11b is in communication with the upper feed opening 111 and is separated from the lower feed opening 112, and the first chamber 11a is in communication with the lower feed opening 112 and is separated from the upper feed opening 111, in which state the second chamber 11b feeds and the first chamber 11a discharges.

In this embodiment, the volume of the first chamber 11a is equal to the volume of the second chamber 11b, so that the time for filling the chamber and the time for unloading the chamber are the same, with the same outfeed rate and infeed rate.

As shown in fig. 1, the baffle 12 forms an acute angle with a connecting line between the midpoint of the upper feeding port 111 and the midpoint of the lower discharging port 112, i.e., with the central longitudinal axis L2. The flap 12 swings through an angle twice the angle alpha.

Further, go up feed inlet 111 department and be provided with feeding guide 113, with the leading-in circulation storage silo 11 of material to the guarantee material gets into circulation storage silo 11 completely, prevents that the material from splashing. The feeding guide 113 may be a hopper, which may be disposed on the conveyor 30, or may be disposed on the outer sidewall of the upper feeding opening 111 of the circulation storage bin 11.

Similarly, the lower discharging port 112 is provided with a discharging guide 114 for guiding the material from the flowing storage bin 11 into the material distributing container 20 to be charged, so as to ensure that the material completely enters the material distributing container 20 and prevent the material from splashing. The outfeed guide 114 may be funnel-shaped with a lower end opening smaller than the opening of the dispensing container 20. The discharge guide 114 may be made of flexible material, such as flexible tube, cloth bag, etc.

The driving device 13 is disposed in the circulation storage bin 11, and is connected to the baffle 12 for driving the baffle 12 to swing. The flapper 12 swings under the drive of this drive device 13, and its upper end swings within the opening range of the upper feed port 111 and its lower end swings within the opening range of the lower discharge port 112. The driving means 13 may be a cylinder, a cylinder or a motor. By setting the parameters of the drive 13, the time interval between the oscillations of the flap 12 can be controlled, which can be determined by the speed of movement of the feed container 20 and the time required for the chamber to complete the discharge, so that the loading of one feed container 20 and the readiness of the next feed container is completed for each oscillation of the flap 12. For example, the time interval between the swinging of the baffle 12 is the time required for the chamber to discharge and the time required for the next aliquoting container 20 to move below the lower outlet 112.

The dispensing container 20 may be automatically conveyed by a conveyor, such as a conveyor belt, below the lower discharge port 112 for loading the material flowing from the lower discharge port 112. The dispensing container 20 may be a cartridge or a bag, and the volume of the first chamber 11a or the second chamber 11b is slightly smaller than or equal to the volume of the dispensing container, so that the shutter 12 can fill up one dispensing container 20 with each swing. Namely, the baffle 12 is swung once every time the distributing container 20 is replaced, and the replacing frequency of the distributing container 20 is the same as the swinging frequency of the baffle 12, so that the distributing container 20 is fully filled with the materials in the material chamber every time, excessive materials do not exist in the chamber, the swinging beats of the distributing container 20 and the baffle 12 are kept consistent, and the production efficiency is improved.

Furthermore, the feeding speed of the fluidized storage silo 11 is the same as the discharging speed. Therefore, when one chamber is filled with materials, the other chamber is also unloaded, and the rhythm of feeding and discharging is kept consistent.

In another embodiment, as shown in fig. 3, the material distributing system 300 has a structure similar to that of the material distributing system 100 of the previous embodiment, and the main difference is that the shape of the circulating storage bin 51 of the material distributing device 50 of the material distributing system 300 is different, in this embodiment, the cross section of the circulating storage bin 51 is polygonal, specifically, the side walls on both sides of the upper feed opening 511 of the circulating storage bin 51 are first inclined side walls 5111, the side walls on both sides of the lower feed opening 512 are second inclined side walls 5121, and the two first inclined side walls 5111 and the two second inclined side walls 5121 form a shrinkage cavity with a cross-sectional area gradually decreasing from the longitudinal center of the circulating storage bin 51 to both ends. Thus, the speed of the downward flow of the material is convenient to control.

Furthermore, the shape of the circulation storage bin is variable and is not limited to the shapes described in the two embodiments.

The same components as in the previous embodiment will not be described in detail, and reference is made to the description of the previous embodiment.

To sum up, this feed divider includes circulation storage silo, baffle and the wobbling drive arrangement of drive baffle, has seted up last feed inlet and bottom outlet on the circulation storage silo, and the baffle slope sets up in the circulation storage silo, and the upper end of baffle surpasss the feed inlet, the lower extreme of baffle extends to near bottom outlet department at least on the inner wall of circulation storage silo, in order to incite somebody to action the circulation storage silo falls into two cavities that cut off each other, and drive arrangement drive baffle swing, and each cavity passes through the swing of baffle and one of them intercommunication of feed inlet and bottom outlet, so that the cavity is ejection of compact and feeding in turn. So, can realize through the swing of baffle that the material is unloaded, for the mode of unloading of traditional switch formula, reduced the probability of being stuck, improved the logical degree of smoothness of the ejection of compact to realize dividing the material through the baffle and simplified the material distribution equipment structure, reduced equipment cost. In addition, the swing time of the baffle is controlled by the driving device, so that the automation level of material distribution can be improved, feeding and material distribution are simultaneously carried out without mutual interference, and the production efficiency of loading and unloading is improved.

The present disclosure further provides a material distribution system, which includes a conveying device, the material distribution device and material distribution containers, wherein the conveying device conveys the material to the material distribution device, and the material distribution device distributes the material into each material distribution container. Because this material distribution system adopts above-mentioned feed divider, for the mode of unloading of traditional switch mode, reduced the probability of being stuck, improved the logical degree of smoothness of ejection of compact to realize dividing the material through the baffle and simplified material distribution equipment structure, reduced equipment cost.

The above description is only for the purpose of illustrating the preferred embodiments of the present disclosure and is not to be construed as limiting the scope of the present disclosure, but rather is intended to cover all equivalent structural changes made by applying the teachings of the present disclosure to the accompanying drawings.

Claims (12)

1. A dispensing device, comprising:

the circulating storage bin is provided with an upper feeding port and a lower discharging port;

the baffle is obliquely arranged in the circulation storage bin, the upper end of the baffle exceeds the upper feeding port, and the lower end of the baffle at least extends to the inner wall of the circulation storage bin close to the lower discharging port so as to divide the circulation storage bin into two chambers which are separated from each other;

and the driving device is connected with the baffle and used for driving the baffle to swing, and each chamber is communicated with one of the upper feeding port and the lower discharging port through the swinging of the baffle so as to enable the chambers to alternately discharge and alternately feed.

2. The dividing apparatus of claim 1 wherein the two chambers are a first chamber and a second chamber;

when the baffle is located at the first position, the first cavity is communicated with the upper feed opening and is separated from the lower discharge opening, and the second cavity is communicated with the lower discharge opening and is separated from the upper feed opening; the baffle swings to the second position, the second cavity with last feed inlet intercommunication and with lower discharging port separates, first cavity with lower discharging port intercommunication and with last feed inlet separates.

3. The feed divider according to claim 1 or 2, wherein the lower end of the baffle plate extends beyond the lower discharge port, the upper end of the baffle plate swings within the opening range of the upper feed port, and the lower end of the baffle plate swings within the opening range of the lower discharge port.

4. The material dividing device as claimed in claim 1, wherein a feeding guide is provided at the upper feeding port, and the feeding guide guides the material into the circulating storage bin.

5. The material dividing device as claimed in claim 1, wherein a material outlet guide is arranged at the lower material outlet, and the material outlet guide guides the material from the circulating storage bin into a material dividing container to be charged.

6. The dividing apparatus of claim 1 wherein the chambers have the same volume.

7. The material dividing device of claim 1, wherein the cross section of the circulating storage bin is circular or polygonal, and the driving device is an oil cylinder, an air cylinder or a motor.

8. A dispensing system, comprising:

the conveying device is used for conveying materials;

the material distributing device of any one of claims 1-7, wherein the material falls into a circulating storage bin of the material distributing device after passing through the conveying device, and a baffle plate in the circulating storage bin divides the circulating storage bin into two chambers, namely a first chamber and a second chamber;

the material distributing containers are used for loading materials flowing out of the lower discharging openings in turn;

when the baffle is located at the first position, the first cavity is communicated with the upper feeding port and is separated from the lower discharging port, the second cavity is communicated with the lower discharging port and is separated from the upper feeding port, the material enters the first cavity, and the material in the second cavity is discharged into the material distributing container from the lower feeding port of the circulating storage bin; when the materials in the second cavity are unloaded and finished, the driving device drives the baffle to swing to the second position, the second cavity is communicated with the upper feeding port and is separated from the lower discharging port, the first cavity is communicated with the lower discharging port and is separated from the upper feeding port, the materials enter the second cavity, and the materials in the first cavity are unloaded from the lower feeding port to the material distributing container.

9. The dispensing system of claim 8, wherein the chambers have the same volume and are equal to the volume of the dispensing container such that the flapper fills one dispensing container per oscillation.

10. A dispensing system according to claim 9, wherein each of the dispensing containers is automatically conveyed below the lower discharge opening with the dispensing container being alternated at the same frequency as the flap is oscillated.

11. The material distribution system of claim 9, wherein the feed rate of the flow storage bin is equal to the discharge rate.

12. The material distribution system of claim 8, wherein the material is an elongated or block of bamboo.

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