CN215746400U - Collecting device and dust collecting device of supply equipment - Google Patents

Abstract

A collecting device and a dust collecting device of a supply device are provided, wherein the collecting device is provided with a bearing disc below a mould of the supply device, the bearing disc is communicated to a groove body through a pipeline, so that redundant release materials provided by the supply device can be scattered to the bearing disc, and the redundant release materials are guided to the groove body through the pipeline, so that the redundant release materials are stored in the groove body, the problem of machine set contamination around the supply device can be avoided, and the product yield is effectively ensured.

Description

Collecting device and dust collecting device of supply equipment

Technical Field

The present invention relates to a collecting device and a dust collecting device, and more particularly, to a collecting device and a dust collecting device disposed on a feeding device.

Background

In the injection molding process, a desired product is usually manufactured through a mold, and before the injection molding operation, a release layer is coated in the mold to facilitate the subsequent demolding operation.

In a conventional work of applying a release layer, as shown in fig. 1, a release agent is sprayed onto a mold 1a and a mold 1b of the mold in a supply direction F through a nozzle 10 of a supply apparatus 1.

However, in the conventional supply apparatus 1, the release agent of the nozzle 10 is liable to overflow to the periphery of the side faces 1c of the modules 1a and 1b during the spraying process, which causes the fouling of the units around the supply apparatus 1 and even the failure of the units around the supply apparatus 1, resulting in poor product.

Furthermore, foreign matters or impurities often exist in the modules 1a and 1b, which causes the nozzle 10 to easily adhere the release agent together with impurities and impurities to the modules 1a and 1b during the spraying process, so that the release layer often cannot effectively separate the casting produced by the injection molding process, resulting in damage of the casting during the separation process and poor product produced by the supply device 1.

Therefore, how to overcome the above problems of the prior art has become a problem to be overcome in the industry.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned drawbacks of the prior art, the present invention provides a collecting device for a supply apparatus, the supply apparatus including a mold, the collecting device comprising: the bearing disc is arranged below the die; and the groove body is communicated with the bearing disc through a pipeline.

In the above-mentioned collecting device, the stopper is disposed above the mold, and at least one side plate is disposed adjacent to a side surface of the mold to form a box body, so that the tray is located at the bottom of the box body. For example, at least one supply device for supplying the releasing material to the mold is disposed in the box body, so that the receiving tray is loaded with the releasing material flowing out from the box body.

In the above-mentioned collecting device, the mold is communicated with an injection molding device for supplying a molding material to the mold, so that the receiving tray is disposed below the injection molding device, and the receiving tray collects a waste liquid flowing out from below the injection molding device. For example, the receiving tray is connected to a receiving tank, and the receiving tank is communicated to the tank body through the pipeline. Furthermore, the bearing groove surrounds the injection molding device and the mold. Alternatively, the receiving tray is connected to the receiving tank via a branch pipe.

In the aforementioned collecting device, the supplying apparatus further includes: a support structure; the first supply device is arranged on the support structure and is used for spraying the target material onto the mould in a first supply direction; and the second supply device is arranged on the support structure so as to spray the target material onto the mould in a second supply direction, and the first supply direction of the first supply device is different from the second supply direction of the second supply device, so that when the target material is sprayed onto the mould by the first supply device and the second supply device, the peripheral surface of the mould is shielded by the shielding device.

The present invention further provides a dust collecting device of a supply apparatus, the supply apparatus includes a mold, the dust collecting device includes: a pipeline; a fan which is communicated with the pipeline; a purification structure connected with the fan via the pipeline.

In the above-mentioned dust collecting device, the pipeline has a first port and a second port opposite to each other, the first port is communicated with the mold, and the second port is used as an exhaust port, so that the fan is disposed between the first port and the second port. For example, a purge structure is disposed between the blower and the second port. Further, the purification structure is an activated carbon box structure.

Therefore, compared with the prior art, the collecting device provided by the utility model is applied to the supply equipment, and when the deformed material is sprayed, the redundant deformed material is collected to the first tank body, so that the environment-friendly operation treatment cost can be saved, the problem that the units around the supply equipment are stained (even the units around the supply equipment are failed) can be avoided, and the product yield can be effectively ensured.

Furthermore, the dust collecting device of the present invention ensures the cleanness of the interior of the mold through the arrangement of the fan, so compared with the prior art, the dust collecting device of the present invention is applied to the supply equipment, when the release material is sprayed, the discharged fluid meets the environmental protection standard of air purification, and the problem that the release material attaches foreign matters or impurities to the mold can be avoided, so that the cast product can be effectively separated, and the cast product can be prevented from being damaged in the separation process.

Drawings

FIG. 1 is a schematic side plan view of a conventional supply apparatus in use.

Fig. 2 is a front perspective view of the collecting device of the present invention disposed on the supplying apparatus.

Fig. 2-1 is a partial rear perspective view of fig. 2.

Fig. 2-2 is an enlarged partial side plan view of fig. 2.

Fig. 2A is a partial front plan view of fig. 2-2.

Fig. 2B is a partial side plan view of fig. 2-2.

Fig. 2C is a schematic top plan view of a portion of fig. 2-2.

Fig. 3A is a partial plan view of the internal arrangement of fig. 2-2.

Fig. 3B is a partial plan view of the internal configuration of fig. 2-2.

Fig. 3C is a partially enlarged schematic view of fig. 2.

Fig. 3D is a perspective view of the collection device of the present invention.

Fig. 3E is a schematic perspective view of another aspect of fig. 3D.

Fig. 4 is an enlarged partial schematic view of the supply apparatus of fig. 2-2 in use.

Fig. 5 is a front perspective view of another embodiment of fig. 2.

Fig. 5A is a partial perspective view of fig. 5.

Fig. 5B is a partial perspective view of fig. 5A.

Description of reference numerals:

1,2 supplying device

1a,1b Module

1c side surface

10: nozzle

2' box body

2a shielding device

2b control base

2c supply assembly

2d injection molding apparatus

2e collecting device

2f dust collecting device

20 supporting structure

21 first supply device

21a first spray structure

210 first nozzle

22 second supply device

22a second spray structure

220 second nozzle

23 carrying platform

24a first stopper

24b second stop

25: frame body

26: track structure

27, 27' wall panel

27a,27b side plates

28 the first tray

28a second tray

28b receiving groove

280 first pipeline

281 the second pipeline

282 branch pipe

29 first tank body

29a second tank

30,40 displacement device

50: third pipeline

50a the first port

50b the second port

50c segmented Port

51 blower fan

52 purification structure

8: separating material

9: mold combination

9a first mold

9b second mold

A is a spray surface

F supply direction

F1 first supply direction

F2 second supply direction

L1, L2 moving direction

S is a containing space

S1 first groove

S2 second groove

Detailed Description

The following description of the embodiments of the present invention is provided by way of specific embodiments, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein.

It should be understood that the structures, ratios, sizes, and the like shown in the drawings and described in the specification are only used for understanding and reading the present disclosure, and are not used for limiting the conditions of the present disclosure, which will not be technically significant, and any structural modifications, ratio changes or size adjustments should be made within the scope of the present disclosure without affecting the function and the achievable purpose of the present disclosure. In addition, the terms such as "upper", "lower", "left", "right", "front", "back", "top", "bottom", and "one" used in the present specification are for convenience of description only, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof are also considered to be within the scope of the present invention without substantial changes in the technical content.

Fig. 2 is a schematic view of a collecting device 2e of the present invention disposed on a supply apparatus 2. As shown in fig. 2, 2-1 and 2-2, the supplying apparatus 2 includes a shielding device 2A including a mold assembly 9 (shown in fig. 2-2) and a supplying component 2c (shown in fig. 2-2) disposed corresponding to the mold assembly 9, the supplying component 2c includes a supporting structure 20 (shown in fig. 2A), a first supplying device 21 (shown in fig. 2A) disposed on the supporting structure 20, and a second supplying device 22 (shown in fig. 2A), and a first supplying direction F1 of the first supplying device 21 is different from a second supplying direction F2 of the second supplying device 22 (shown in fig. 2A).

In the present embodiment, the first supplying direction F1 of the first supplying device 21 is opposite to the second supplying direction F2 of the second supplying device 22.

The support structure 20 may be designed to have a desired appearance and interior, such as a laminate, a frame or other suitable structures, as shown in fig. 2A, 2B and 2C, without limitation.

The first supply device 21 includes a first spraying structure 21a (shown in fig. 2A) for supplying the release material 8 (shown in fig. 4) to spray the release material 8 onto the mold assembly 9 in the first supply direction F1.

In the present embodiment, the first spraying structure 21a has at least one first nozzle 210 for spraying the release material 8. For example, the first spraying structure 21a has a plurality of sets of first nozzles 210 arranged, as shown in fig. 2B and 2C.

Furthermore, the mold assembly 9 of the present embodiment is a mold for casting a plate material (e.g. a floor), and has a first mold 9a and a second mold 9b opposite to each other, as shown in fig. 2-2, and the release material 8 is in the form of a release agent, so that the mold assembly 9 after casting can be easily released. The mold assembly 9 is not limited to be used for manufacturing a cast plate.

The second supply device 22 includes a second spraying structure 22a for supplying the release material 8, so as to spray the release material 8 onto the mold assembly 9 in the second supply direction F2.

In the present embodiment, the second spraying structure 22a has at least one second nozzle 220 for spraying the release material 8. For example, the second spraying structure 22a has a plurality of sets of second nozzles 220 arranged, as shown in fig. 2B and 2C.

Furthermore, the first supply device 21 and the second supply device 22 are disposed on two opposite sides, such as left and right sides, of the supporting structure 20.

The supply device 2 further includes a vertical displacement device 30 and a horizontal displacement device 40 disposed on the support structure 20 for actuating the first supply device 21 and/or the second supply device 22, as shown in fig. 3A and 3B, the first supply device 21 and/or the second supply device 22 are disposed at the lower end of the vertical displacement device 30. For example, the up-down displacement device 30 and the left-right displacement device 40 can be driven by a motor or a hydraulic device, so that the up-down displacement device 30 and the left-right displacement device 40 can move on a slide rail. It should be understood that the vertical displacement device 30 and the horizontal displacement device 40 are not particularly limited, and may be of various types.

In addition, the supply device 2 further includes a control base 2B for operating the shielding device 2a, the up-down displacement device 30, the left-right displacement device 40, the first supply device 21 and the second supply device 22, as shown in fig. 3A and 3B, the up-down displacement device 30, the left-right displacement device 40, the first supply device 21 and the second supply device 22 are erected on the control base 2B, and the lower end of the control base 2B is fixed on a base preset by the supply device 2.

The shielding apparatus 2a includes a first blocking member 24a and a second blocking member 24b, and the first blocking member 24a and the second blocking member 24b are disposed above a carrying platform 23, as shown in fig. 2-1 and 2-2.

In the embodiment, the first stopper 24a has a first groove S1, and the second stopper 24b has a second groove S2, so that the first stopper 24a and the second stopper 24b can move linearly on a track structure 26. For example, the first stopper 24a is usually stationary, so that when the second stopper 24b is close to the first stopper 24a, the first recess S1 and the second recess S2 form a receiving space S (as shown in fig. 2-2) for receiving the vertical displacement device 30 and the horizontal displacement device 40, and the separation material 8 can be prevented from being sprayed upward, wherein the separation material 8 is a toxic substance, which is likely to cause environmental problems.

Furthermore, the carrying platform 23 is provided with a frame body 25 and a track structure 26 disposed on the frame body 25, so that the first blocking member 24a and the second blocking member 24b are disposed on the track structure 26, and the first blocking member 24a and the second blocking member 24b can move linearly relatively. For example, a movable side plate 27a (e.g. capable of moving linearly left and right or being lifted) may be disposed on the frame 25 corresponding to the lower portions of the first stopper 24a and the second stopper 24b and in front of the mold assembly 9, so as to facilitate easy removal of the mold assembly 9 after casting, and a fixed side plate 27b may be disposed on the opposite side of the side plate 27a, and forms a semi-closed box 2 'with the wall surfaces of the first mold 9a and the second mold 9b, so as to prevent the separated material 8 from being spread and ejected to the periphery and flowing out from the lower portion of the box 2'.

Furthermore, the shielding device 2a further includes at least one wall plate 27 and a wall plate 27 'disposed on the frame body 25 for fixing the mold assembly 9, and the wall plate 27' can move relative to the carrier 23. For example, the wall plate 27 and the wall plate 27' can bring the first mold 9a and/or the second mold 9b close to or apart from each other.

The collecting device 2e comprises a first tray 28 disposed at the bottom of the box 2 ', as shown in fig. 3C and 3D, for collecting the releasing material 8 flowing out from the bottom of the box 2 ', and the first tray 28 is connected to a first pipeline 280, and is communicated to a first tank 29 for collecting waste liquid (such as the releasing material 8 flowing out from the bottom of the box 2 ') through the first pipeline 280.

In this embodiment, an injection molding device 2d is further disposed on the carrier 23, and is disposed adjacent to the shielding device 2a to communicate with the mold assembly 9, so that the injection molding device 2d can supply at least one molding material to the mold assembly 9. For example, the collecting device 2E further includes a second tray 28a disposed below the injection molding device 2d, and has a rectangular shape as shown in fig. 3C and 3E, so as to collect the waste liquid (such as lubricating oil, water, etc.) flowing out from below the injection molding device 2d, and the second tray 28a is connected to a receiving tank 28b through a slide-shaped branch pipe 282, so as to divert the waste liquid to the receiving tank 28b and prevent the waste liquid from overflowing from the second tray 28 a.

Furthermore, the receiving groove 28b is in a rectangular ring shape and surrounds the injection molding device 2d and the shielding device 2a to collect the lubricant and the condensed water flowing out from the lower portion of the box body 2', and the receiving groove 28b is connected to a second pipeline 281, so that the receiving groove 28b is communicated to a second groove body 29a for collecting the waste liquid through the second pipeline 281.

In addition, the present invention can add a dust collecting device 2f connected to the shielding device 2a as required, as shown in fig. 5 and 5A, the dust collecting device 2f includes a third pipeline 50, a fan 51 connected to the third pipeline 50, and a purifying structure 52 connected to the third pipeline 50.

The third pipe 50 is multi-stage bent having a first port 50a and a second port 50b opposite to each other, and at least one segment port 50c is disposed between the first port 50a and the second port 50b as required.

In this embodiment, the first port 50a serves as an inlet port, which communicates with the first stopper 24a of the shielding device 2a, and the second port 50b serves as an outlet port.

The fan 51 is disposed on the segment port 50c, and the third pipeline 50 passes through the fan 51.

In the embodiment, the fan 51 is of a suction type, which provides suction force to make the fluid such as wind flow from the first port 50a to the second port 50b, so that the foreign matters accumulated in the shielding device 2a are filtered and discharged to the second port 50b, wherein the foreign matters are mainly oil gas or waste generated by the ejection of the deformer from the first nozzle 210 and the second nozzle 220.

The purifying structure 52 is disposed on the third pipeline 50 between the second port 50b and the blower 51 to filter the fluid before the fluid is discharged out of the second port 50b, so that the fluid discharged out of the second port 50b meets the environmental protection standard of air purification.

In the present embodiment, the purification structure 52 is an activated carbon box structure, as shown in fig. 5B. It should be understood that the variety of the purification structure 52 is not limited to the above.

Therefore, when the supply device 2 is used, the fan 51 can draw the foreign matters in the shielding device 2a or the box 2' before the injection molding device 2d supplies the molding material to the mold assembly 9 for casting, so as to ensure that the molding material will not mix the foreign matters or impurities into the casting when the injection molding device 2d performs casting.

Furthermore, after the injection molding device 2d supplies the molding material to the mold assembly 9 and the casting is completed, the first mold 9a and the second mold 9B are opened, after the casting is taken out, the control device of the control base 2B can make the first supply device 21 and the second supply device 22 move (the moving direction L1, L2 shown in fig. 3A and 3B) to the box 2' and locate at the middle position of the first mold 9a and the second mold 9B (shown in fig. 4), and then spray the separating material 8 on the surfaces of the first mold 9a and the second mold 9B in the first supply direction F1 and the second supply direction F2 respectively, so that the separating material 8 forms a separating layer on the spraying surface a (shown in fig. 4) of the first mold 9a and the spraying surface a (shown in fig. 4) of the second mold 9B, so as to facilitate the demoulding operation of the casting formed in the next casting.

Before the release material 8 is sprayed on the surfaces of the first mold 9a and the second mold 9b, the fan 51 can draw the foreign matters in the shielding device 2a or the box 2' to ensure that the release material 8 will not attach the foreign matters or impurities to the first mold 9a and the second mold 9 b.

In summary, the collecting device 2e of the present invention mainly depends on the design of the first tray 28, so that the excess of the separating material 8 will be scattered to the first tray 28 at the bottom of the box body 2', and the first tray 28 guides the redundant release material 8 to the first trough 29 through the first pipeline 280, so as to store the redundant release material 8 in the first groove 29, compared with the prior art, the collecting device 2e of the present invention is applied to the supplying equipment 2, when spraying the release material 8, the separating material 8 is collected in the first tank 29 and can be recycled into a container without waste disposal, which not only solves the problem of environmental pollution, but also saves the cost of waste disposal, and the problem of the damage of the units around the supply equipment 2 (even the failure of the units around the supply equipment 2) can be avoided, thereby effectively ensuring the product yield.

Furthermore, the collecting device 2e of the present invention, by virtue of the design of the second tray 28a, the waste liquid (such as lubricant oil, water, etc.) overflowing from the injection molding device 2d will be scattered to the second tray 28a, and the second tray 28a will flow the waste liquid thereon to the receiving tank 28b via the branch pipe 282, and then flow to the second tank 29a via the second pipeline 281, so as to store the waste liquid overflowing from the injection molding device 2d in the second tank 29a, and can be recycled to a container without waste disposal, which not only can solve the problem of environmental pollution and save the cost of waste disposal, but also the collecting device 2e of the present invention is applied to the supply device 2, and when the casting is made, the waste liquid overflowing from the injection molding device 2d will be collected to the second tank 29a, so as to avoid the problem of fouling of the units around the supply device 2 (even causing the failure of the units around the supply device 2), thereby effectively ensuring the product yield.

In addition, the dust collecting device 2f of the present invention ensures the neatness of the shielding device 2a or the box 2' by the arrangement of the fan 51 and the third pipeline 50, so compared to the prior art, the dust collecting device 2f of the present invention is applied to the supply equipment 2, when spraying the shape separating material 8 (or injecting the shape forming material), the problem that the shape separating material 8 attaches the foreign matters or impurities to the first mold 9a and the second mold 9b (or the foreign matters or impurities are mixed into the casting) can be avoided, and thus the casting can be effectively separated (or the structure of the casting is ensured to be free from the abnormal state), and the problem that the casting is damaged (or the casting is not bad) in the separation process can be avoided.

In addition, the dust collecting device 2f of the present invention can effectively filter the fluid in the third pipeline 50 by the configuration of the purifying structure 52, so that the fluid discharged from the second port 50b meets the environmental protection standard of air purification.

The utility model is described above, but not intended to limit the scope of the claims. Those skilled in the art should also realize that such changes and modifications can be made without departing from the spirit and scope of the present invention as defined by the appended claims.

Claims (12)

1. A collecting device for a supply apparatus, the supply apparatus including a mold, the collecting device comprising:

the bearing disc is arranged below the die; and

the groove body is communicated with the bearing disc through a pipeline.

2. The collecting device as claimed in claim 1, wherein the mold is provided with a stopper thereon, and at least one side plate is disposed adjacent to a side surface of the mold to form a box body, so that the tray is located at the bottom of the box body.

3. The collecting apparatus as claimed in claim 2, wherein at least one supply device for supplying a release material to the mold is provided in the housing, so that the receiving tray is loaded with the release material flowing out of the housing.

4. The collecting device as claimed in claim 1, wherein the mold is connected to an injection molding device for supplying a molding material to the mold, so that the receiving tray is disposed below the injection molding device, and the receiving tray collects a waste liquid flowing out from below the injection molding device.

5. The collecting apparatus as claimed in claim 4, wherein the tray is connected to a receiving tank, and the receiving tank is connected to the tank body via the pipeline.

6. The collection device of claim 5, wherein the receiving groove surrounds the injection molding device and the mold.

7. A collecting device as claimed in claim 5 wherein the drip pan is connected to the drip trough via a branch conduit.

8. The collecting apparatus of claim 1, wherein the supplying device further comprises:

a support structure;

the first supply device is arranged on the support structure and is used for spraying the target material onto the mould in a first supply direction; and

the second supply device is arranged on the support structure to spray the target material onto the mold in a second supply direction, and the first supply direction of the first supply device is different from the second supply direction of the second supply device, so that when the target material is sprayed onto the mold by the first supply device and the second supply device, the peripheral surface of the mold is shielded by the shielding device.

9. A dust collecting device of a supply device, the supply device comprises a die, and is characterized in that the dust collecting device comprises:

a pipeline;

a fan which is communicated with the pipeline; and

a purification structure connected with the fan via the pipeline.

10. The dust collecting device of claim 9, wherein the pipe has a first port and a second port opposite to each other, the first port is communicated with the mold, and the second port is used as an exhaust port, so that the fan is disposed between the first port and the second port.

11. The dust collecting apparatus of claim 10, wherein a purge structure is disposed between the fan and the second port.

12. The dust collecting apparatus of claim 11, wherein the purification structure is an activated carbon box structure.

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