CN217862623U - Product and mouth of a river sorter - Google Patents

Abstract

The utility model discloses a product and mouth of a river sorter, include: a vibrating pan body; the conveying chute is connected to the discharge end of the vibrating disc body; the sorting structure comprises a material distribution groove and a sorting baffle, a sorting outlet is formed in the outer side of the material conveying groove, one end of the material conveying groove is connected to the sorting outlet, one end of the sorting baffle is connected to the outer side of the material conveying groove, the other end of the sorting baffle extends along the length direction of the material conveying groove and passes through the sorting outlet, and a screening opening is formed in the bottom side of the sorting baffle, which is opposite to the sorting outlet; discharge structure, it includes blown down tank and accumulator, and the blown down tank is located the terminal below of defeated silo, and the bottom side of defeated silo is provided with the blanking slotted hole, and the accumulator is located blanking slotted hole below, and the inside wall of accumulator is provided with the inside intercommunication mouth that communicates each other of vibration dish body, the utility model discloses can select separately product and mouth of a river are automatic, reduce workman intensity of labour, improve whole production efficiency.

Description

Product and mouth of a river sorter

Technical Field

The utility model relates to a conveyer especially relates to a product and mouth of a river sorter.

Background

After some products are produced in an injection molding mode, separated product bodies and water gaps can be mixed together, the product bodies and the water gaps need to be separated from each other at the moment, the traditional separation method is manual separation, workers need to pour mixed workpieces on a workbench in batches, and then the mixed workpieces are directly observed and sorted. The visual fatigue of workers is easily caused by the repeated work for a long time, the condition that the water gap is formed in the product easily occurs, the manual operation efficiency is low, and the whole production efficiency is difficult to improve.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a product and mouth of a river sorter to solve one or more technical problem that exist among the prior art, provide a profitable selection or create the condition at least.

The utility model provides a solution of its technical problem is:

a product and gate sorter comprising: a vibrating pan body; the material conveying groove is connected to the discharge end of the vibration disc body, extends around the vibration disc body and takes one side of the material conveying groove, which is far away from the center of the vibration disc, as the outer side; the sorting structure comprises a material distribution groove and a sorting baffle, wherein a sorting outlet is formed in the outer side of the material conveying groove, one end of the material conveying groove is connected to the sorting outlet, one end of the sorting baffle is connected to the outer side of the material conveying groove, the other end of the sorting baffle extends along the length direction of the material conveying groove and passes through the sorting outlet, and a screening opening is formed in the position, right opposite to the bottom side of the sorting outlet, of the sorting baffle; the discharging structure comprises a discharging groove and a recycling groove, wherein the discharging groove is connected to the outer side of the vibrating disc body and located below the tail end of the conveying groove, the bottom side of the conveying groove is arranged along the length extending direction of the conveying groove, the recycling groove is connected to the outer side of the vibrating disc body and located below the blanking groove, and the inner side wall of the recycling groove is provided with communicating ports communicated with the inside of the vibrating disc body.

The technical scheme at least has the following beneficial effects: the vibration disc body works to vibrate and feed mixed materials into the conveying chute from the discharge end of the vibration disc body, when the materials pass through the separation baffle plate, the water gap with smaller volume is separated from the screening opening under the action of centrifugal force around the conveying material of the conveying chute and enters the material separation groove from the separation outlet, the rest materials continue to be conveyed along the conveying chute after passing through the separation baffle plate, the materials are separated again when passing through the blanking chute hole, the water gap with smaller volume falls from the blanking chute hole and enters the recovery groove, the water gap in the recovery groove returns to the vibration disc body from the communication opening to be arranged and sorted again, the materials passing through the blanking chute hole are required products, the products fall from the tail end of the conveying chute to the discharge chute and are recovered from the discharge chute, so that the products and the water gap can be automatically separated, primary screening is firstly carried out through the screening opening, secondary screening is carried out through the blanking chute hole, the sorting accuracy is better ensured, the labor intensity of workers is reduced, and the overall production efficiency is improved.

As a further improvement of the technical scheme, the sorting baffle is deviated towards the inner side of the material conveying groove along the material conveying direction of the material conveying groove. The width of the materials passing through when the materials move in the material conveying groove can be reduced through the deviation of the sorting baffle plate, so that a plurality of materials moving side by side fall back into the vibration disc body from the inner side of the material conveying groove, the materials can only pass through the material conveying groove one by one, and single arrangement of the materials can be realized while primary screening is carried out.

As a further improvement of the technical scheme, a connecting sheet is connected between the sorting baffle and the outer side of the material conveying groove. The structural stability of sorting baffle can be strengthened to the connection piece for sorting baffle is difficult to take place to buckle under the continuous striking of material.

As a further improvement of the technical scheme, the connecting piece is connected between the top side of the sorting baffle and the outer top side of the material conveying groove. The connecting piece only connects in the outer top side of the top side of sorting baffle and defeated silo, can exert external force to the sorting baffle according to the use needs in practical application, changes the angle of sorting baffle to finely tune the offset of sorting baffle, in order to adapt to the product shape better.

As a further improvement of the above technical solution, the width of the blanking slot hole gradually increases along the material conveying direction of the material conveying chute, and the blanking slot hole extends to the end of the material conveying chute. So can guarantee the bearing to the product for the product is transferred gradually to the blown down tank along the bottom surface of defeated silo, and the mouth of a river is injectd and is fallen from the silo hole department along the decline of blanking slotted hole gradually.

As a further improvement of the technical scheme, one side of the discharge chute, which is close to the blanking slot hole, is connected with a baffle, and the baffle extends upwards to the blanking slot hole. The separation blade can block the mouth of a river that falls from the blanking slotted hole, avoids the mouth of a river to drop to the blown down tank under inertial effect when falling, improves the separation effect of product and mouth of a river better.

As a further improvement of the technical scheme, the inner bottom surface of the material conveying groove inclines outwards and downwards. The product and the mouth of a river can be along the incline outward of defeated silo to defeated silo outside, are favorable to falling from sieve gate and silo hole department.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is clear that the described figures represent only some embodiments of the invention, not all embodiments, and that a person skilled in the art, without inventive effort, can also derive other designs and figures from them.

Fig. 1 is an overall first perspective view of the present invention;

fig. 2 is a second perspective view of the whole body of the present invention.

In the drawings: 100-vibration disc body, 200-material conveying groove, 210-blanking slot hole, 310-material distributing groove, 320-sorting baffle, 321-screening opening, 322-connecting sheet, 410-material discharging groove, 411-blocking sheet and 420-recovery groove.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated with respect to the orientation description, such as up, down, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, a plurality of meanings are one or more, a plurality of meanings are two or more, and the terms greater than, smaller than, exceeding, etc. are understood as excluding the number, and the terms greater than, lower than, within, etc. are understood as including the number. If there is a description of first and second for the purpose of distinguishing technical features only, this is not to be understood as indicating or implying a relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of technical features indicated.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

Referring to fig. 1 and 2, a product and nozzle sorting machine comprises a vibrating tray body 100, a material conveying groove 200, a sorting structure and a discharging structure, wherein a hopper is arranged in the vibrating tray body 100, a pulse electromagnet is arranged below the hopper and can enable the hopper to vibrate in the vertical direction, the inclined spring piece drives the hopper to do torsional oscillation around the vertical axis of the hopper, materials in the hopper rise along a spiral track due to the vibration and are output from the tail end of the spiral track, and the tail end of the spiral track serves as an output end at the moment; the material conveying groove 200 is connected to the discharge end of the vibration disc body 100 and extends around the vibration disc body 100, that is, the material conveying groove 200 is connected to the tail end of the spiral track, and the sorting of the arranged and fed materials is realized; the sorting structure comprises a material distribution groove 310 and a sorting baffle 320, one side of the material conveying groove 200, which is far away from the center of the vibration disc, is taken as the outer side, a sorting outlet is formed in the outer side of the material conveying groove 200, one end of the material conveying groove 200 is connected to the sorting outlet, one end of the sorting baffle 320 is connected to the outer side of the material conveying groove 200, the other end of the sorting baffle 320 extends along the length direction of the material conveying groove 200 and passes through the sorting outlet, and a screening opening 321 is formed in the bottom side position, right facing the sorting outlet, of the sorting baffle 320; discharge structure includes blown down tank 410 and accumulator 420, blown down tank 410 connect in the vibration dish body 100 outside is located the terminal below of defeated silo 200, the bottom side of defeated silo 200 is followed the length extending direction of defeated silo 200 is provided with blanking slotted hole 210, accumulator 420 connect in the vibration dish body 100 outside is located blanking slotted hole 210 below, accumulator 420's inside wall is provided with the inside intercommunication mouth that communicates each other of vibration dish body 100.

It can be known from the above, the vibration tray body 100 works, the vibration feeding of the mixed material is carried out, the mixed material is sent into the conveying chute 200 from the discharge end, when the material passes through the separation baffle 320, the water gap with smaller volume is separated from the screening port 321 under the centrifugal force effect of the material conveying surrounding the conveying chute 200, and is separated after entering the material distribution chute 310 from the separation outlet, the remaining material is continuously conveyed along the conveying chute 200 after passing through the separation baffle 320, and is separated again when passing through the blanking slot 210, the water gap with smaller volume falls from the blanking slot 210 and enters the recovery chute 420, the water gap in the recovery chute 420 returns to the vibration tray body 100 from the communication port for discharging and separating again, and the material passing through the blanking slot 210 is the required product, and falls from the tail end of the conveying chute 200 to the discharge chute 410, and is recovered from the discharge chute 410, so that the product and the water gap can be automatically separated through the screening port, and is primarily screened through the screening port 321, and the blanking 210 is secondarily screened, thereby better ensuring the separation accuracy, reducing the labor intensity and improving the overall production efficiency.

In practical applications, one end of the feed chute 200 may be directly welded to the discharge end of the vibration disk, and the inner side of the feed chute 200 may be positioned outside the vibration disk body 100 by welding the mounting plate and extend around the outside of the vibration disk body 100, so as to be relatively fixed to the vibration disk body 100.

When the material is carried in defeated silo 200, there is the condition that has a plurality of materials side by side along defeated silo 200's width direction, in order to further improve the effect of sorting at product and the mouth of a river, in this embodiment, select separately baffle 320 along defeated silo 200's defeated material direction to defeated silo 200 inboard skew. The separation baffle 320 can reduce the width of the materials moving in the material conveying groove 200 by shifting, so that a plurality of materials moving side by side fall back into the vibration disc body 100 from the inner side of the material conveying groove 200, the materials can only pass through the material conveying groove 200 one by one, and single arrangement of the materials can be realized while primary screening is carried out.

In order to shield the end of the sorting baffle 320 and prevent the products from falling into the sorting trough from the end of the sorting baffle 320 between the sorting baffle 320 and the outer side of the conveying trough 200, in this embodiment, a connecting piece 322 is connected between the sorting baffle 320 and the outer side of the conveying trough 200. In addition, the connecting pieces 322 can enhance the structural stability of the sorting baffle 320, so that the sorting baffle 320 is not easy to bend under the continuous impact of materials.

Further, the connecting piece 322 is connected between the top side of the sorting baffle 320 and the outer top side of the feed delivery chute 200, if the connecting piece 322 is in a flat state, two side edges of the connecting piece are respectively connected to the top side of the sorting baffle 320 and the outer top side of the feed delivery chute 200. The connecting piece 322 is only connected with the top side of the sorting baffle 320 and the outer top side of the material conveying chute 200, and in practical application, external force can be applied to the sorting baffle 320 according to use requirements, so that the angle of the sorting baffle 320 is changed, and the offset of the sorting baffle 320 is finely adjusted to better adapt to the shape of a product.

As a further embodiment of the structure of the blanking slot 210, the width of the blanking slot 210 gradually increases along the feeding direction of the feeding chute 200, and the blanking slot 210 extends to the end of the feeding chute 200. This ensures that the product is supported, so that the product is gradually transferred to the discharge chute 410 along the bottom surface of the delivery chute 200, and the nozzle is gradually limited along the blanking slot 210 and falls from the blanking slot 210.

Because the blanking slot 210 extends to the end of the material conveying chute 200, and the discharge chute 410 is located below the end of the material conveying chute 200, the water gap dropped from the blanking slot 210 easily drops to the discharge chute 410 under the action of inertia, in this embodiment, a blocking piece 411 is connected to one side of the discharge chute 410 close to the blanking slot 210, and the blocking piece 411 extends upwards to the blanking slot 210. The baffle sheet 411 can block the nozzle falling from the blanking slot 210, so as to better improve the separation effect of the product and the nozzle. In practical application, in order to avoid the blocking piece 411 blocking the discharging of the product, the blocking piece 411 extends and is flush with the plane of the blanking slot 210, gaps are formed between the inner side and the outer side of the blocking piece 411 and the two sides of the blanking slot 210, so that the product can pass through the gaps, and when the water gap drops, the water gap is directed to the blocking piece 411 along the guiding direction of the blanking slot 210, and the blocking piece 411 blocks and drops into the recovery tank 420.

In the above embodiment, the dropping of the nozzle outward mainly depends on the outward centrifugal force generated by the feeding of the vibrating screw, and in order to make the material move to the outside of the material conveying chute 200 better, in this embodiment, the inner bottom surface of the material conveying chute 200 is inclined downward. The product and the nozzle can be inclined outwards along the delivery chute 200 and move to the outer side of the delivery chute 200, which is beneficial to falling from the screening opening 321 and the blanking slot 210.

While the preferred embodiments of the present invention have been described in detail, it will be understood by those skilled in the art that the invention is not limited to the details of the embodiments shown, but is capable of various modifications and substitutions without departing from the spirit of the invention.

Claims (7)

1. The utility model provides a product and mouth of a river sorter which characterized in that: the method comprises the following steps:

a vibrating disk body (100);

the material conveying groove (200) is connected to the material discharging end of the vibration disc body (100), extends around the vibration disc body (100) and takes one side, far away from the center of the vibration disc, of the material conveying groove (200) as the outer side;

the sorting structure comprises a material distribution groove (310) and a sorting baffle plate (320), a sorting outlet is formed in the outer side of the material conveying groove (200), one end of the material conveying groove (200) is connected to the sorting outlet, one end of the sorting baffle plate (320) is connected to the outer side of the material conveying groove (200), the other end of the sorting baffle plate (320) extends along the length direction of the material conveying groove (200) and passes through the sorting outlet, and a screening hole (321) is formed in the bottom side, right facing the sorting outlet, of the sorting baffle plate (320);

ejection of compact structure, it includes blown down tank (410) and accumulator (420), blown down tank (410) connect in vibration dish body (100) outside is located the terminal below of defeated silo (200), the bottom side of defeated silo (200) is followed the length extending direction of defeated silo (200) is provided with blanking slotted hole (210), accumulator (420) connect in the vibration dish body (100) outside is located blanking slotted hole (210) below, the inside wall of accumulator (420) is provided with the intercommunication mouth that vibration dish body (100) inside communicates each other.

2. A product and nozzle sorter as claimed in claim 1 wherein: the sorting baffle (320) is deviated towards the inner side of the material conveying groove (200) along the material conveying direction of the material conveying groove (200).

3. A product and nozzle sorter as claimed in claim 2 wherein: a connecting piece (322) is connected between the sorting baffle (320) and the outer side of the material conveying groove (200).

4. A product and nozzle sorter as in claim 3 wherein: the connecting piece (322) is connected between the top side of the sorting baffle (320) and the outer top side of the material conveying trough (200).

5. A product and nozzle sorter as claimed in claim 1 wherein: the width of the blanking slot hole (210) is gradually increased along the conveying direction of the conveying trough (200), and the blanking slot hole (210) extends to the tail end of the conveying trough (200).

6. A product and nozzle sorter as claimed in claim 5 wherein: one side of the discharge chute (410) close to the blanking slot hole (210) is connected with a blocking piece (411), and the blocking piece (411) extends upwards to the blanking slot hole (210).

7. A product and nozzle sorter as in claim 1 wherein: the inner bottom surface of the material conveying groove (200) is inclined outwards and downwards.

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