CN115157551A - Supply device - Google Patents

Abstract

A supply apparatus, which uses an object as a part of a shielding device and when the supply apparatus sprays the object onto the object, the supply apparatus will not spray the object to the external environment of the object during the spraying process.

Description

Supply device

Technical Field

The present invention relates to a supply device, and more particularly to a supply device for supplying a material.

Background

In the injection molding process, a desired product is usually manufactured by 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 operation of applying a release layer, as shown in FIG. 1, a release agent is sprayed onto mold pieces 1a,1b of a die in a supply direction F by a nozzle 10 of a supply apparatus 1.

However, in the conventional supply apparatus 1, the nozzle 10 is apt to spray the setting agent to the periphery of the side face 1c of the modules 1a,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 the defective production.

Furthermore, the conventional supply apparatus 1 can only spray the releasing agent in a single direction, and after one mold 1a forms the releasing layer, the nozzle 10 is turned (for example, in the rotating direction R) to spray the other mold 1b, so that the spraying time is long, the time for producing the product is increased, and the cost for producing the product by the injection molding process is increased.

Furthermore, by rotating the single nozzle 10 to spray the releasing agent onto the mold parts 1a,1b, it is not easy to uniformly spray the releasing agent onto the mold parts 1a,1b, so that the releasing layer cannot effectively separate the product produced by the injection molding process.

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

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, the present invention provides a supply apparatus, comprising: a shielding device including a box body, wherein the box body is configured with an object; a support structure; a first supply device disposed on the support structure for spraying the target material onto the target object in a first supply direction; and a second supply device disposed on the support structure for spraying the target material onto the target object in a second supply direction, wherein the first supply direction of the first supply device is different from the second supply direction of the second supply device, so that the target material is not sprayed to the environment outside the target object when the target material is sprayed onto the target object by the first supply device and the second supply device.

The above-mentioned supplying equipment further includes an up-down displacement device and a left-right displacement device disposed on the supporting structure, the first supplying device and the second supplying device are disposed at the lower end of the up-down displacement device, so that the up-down displacement device and the left-right displacement device drive the first supplying device and the second supplying device. For example, the shielding device includes two stoppers, each of which has a recess, so that when the two stoppers are closed, the recesses of the two stoppers form a receiving space, so that the receiving space receives the up-down displacement device and the left-right displacement device. Furthermore, the shielding device further includes a carrying platform for disposing the two blocking members, and the carrying platform is provided with a frame body and a track structure disposed on the frame body, so that the two blocking members are disposed on the track structure, and at least one of the two blocking members is displaced by the track structure. Preferably, a side plate is disposed on the frame body at the front and rear of the object corresponding to the lower portion of the two stoppers, so that the side plate and the object form a semi-closed box.

In the above-mentioned supplying apparatus, the first supplying direction of the first supplying device is opposite to the second supplying direction of the second supplying device, and the first supplying device and the second supplying device are disposed at two opposite sides of the supporting structure.

In the above-mentioned supply apparatus, the first supply device and/or the second supply device has at least one nozzle. For example, the first supply device and/or the second supply device has 42 nozzles.

The above-mentioned supplying equipment further includes a control seat for controlling the operation of the shielding device, the first supplying device and the second supplying device.

In the above-mentioned supplying apparatus, the shielding device further includes at least one wall plate for fixing the target object, and the wall plate drives the target object to move.

In view of the above, in the supply apparatus of the present invention, the target is mainly used as a part of the box of the shielding device, so that when spraying the target material, the first supply device and the second supply device will not spray the target material to the environment outside the target in the spraying process, and therefore, compared with the prior art, the supply apparatus of the present invention will not cause pollution, so as to avoid the problem of bad product caused by damage of other units.

Furthermore, the first supply direction of the first supply device is different from the second supply direction of the second supply device, so as to spray the target material on the target object at the same time, thereby greatly reducing the supply time, and being beneficial to reducing the time for manufacturing the product of the mold if the supply equipment is applied to the operation of spraying the release agent compared with the prior art.

Moreover, the design of the plurality of sets of nozzles facilitates uniform supply of the target material, so that the supply apparatus of the present invention can facilitate the separation of the release layer from the product produced by the mold if applied to the operation of spraying the release agent, compared with the prior art.

Drawings

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

FIG. 2A is a perspective partial front view of the supply apparatus of the present invention.

FIG. 2B is a partial perspective rear view of the supply apparatus of the present invention.

FIG. 2C is a partial enlarged side plan view of the supply apparatus of the present invention.

FIG. 3A is a partial front plan view of the supply apparatus of the present invention.

FIG. 3B is a partial side plan view of the supply apparatus of the present invention.

FIG. 3C is a partial top plan view of the supply apparatus of the present invention.

FIG. 4A is a partial schematic plan view of the internal arrangement of the supply apparatus of the present invention.

FIG. 4B is a partial schematic plan view of the internal arrangement of the supply apparatus of the present invention.

Fig. 4C is a partially enlarged view of fig. 2A.

Fig. 4D is a partial perspective view of fig. 4C.

Fig. 4E is a partial perspective view of fig. 4C.

FIG. 5 is an enlarged partial view of the supply apparatus of the present invention in use.

Description of the reference numerals:

1,2 supply device

1a,1b Module

1c side surface

10: nozzle

2a shielding device

2b control base

2c supply assembly

2d injection molding apparatus

20 support 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 panels

27a,27b side plates

28,28a receiving tray

28b receiving groove

280,281 pipeline

282 branch pipe

29,29a trough body

30,40 displacement device

8 target material

9 target object

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

R is the direction of rotation

S is a containing space

S1: a first groove

S2, second groove

Detailed Description

The following description of the embodiments of the present invention is provided by way of specific examples, 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, etc. shown in the drawings and described in the specification are only used for understanding and reading the present disclosure, and are not used to limit the conditions for implementing the present disclosure, so that the present disclosure has no technical significance, and any structural modifications, ratio changes or size adjustments should fall within the scope of the present disclosure without affecting the function and the achievable purpose of the present disclosure. Meanwhile, in the present specification, the terms such as "upper", "lower", "left", "right", "front", "rear", "top", "bottom", and "one" are used for convenience of description, and are not intended to limit the scope of the present invention, and the relative relationship between the above terms and the above terms is not to be construed as a scope of the present invention.

Fig. 2A, 2B and 2C are schematic views of a supply apparatus 2 according to the present invention. As shown in fig. 2A, 2B and 2C, the supply apparatus 2 includes a shielding device 2A including at least one target 9 (shown in fig. 2C) and a supply assembly 2C disposed corresponding to the target 9, the supply assembly 2C includes a supporting structure 20 (shown in fig. 3A), a first supply device 21 (shown in fig. 3A) and a second supply device 22 (shown in fig. 3A) disposed on the supporting structure 20, and a first supply direction F1 of the first supply device 21 is different from a second supply direction F2 (shown in fig. 3A) of the second supply device 22.

In the present embodiment, the first supply direction F1 of the first supply device 21 is opposite to the second supply direction F2 of the second supply 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. 3A, 3B and 3C, without any particular limitation.

The first supply device 21 includes a first spraying structure 21a (shown in FIG. 3A) for supplying the target material 8 (shown in FIG. 5) to spray the target material 8 onto the target 9 in the first supply direction F1.

In this embodiment, the first spraying structure 21a has at least one first nozzle 210 for spraying the target material 8. For example, the first spraying structure 21a has a plurality of sets of first nozzles 210, and the number of the first nozzles 210 is determined according to the size of the casting. Specifically, the casting is a 60 cm & 60 cm high-rise floor, so the first nozzles 210 are configured in three rows, and as shown in fig. 3B and 3C, a total of 42 first nozzles 210 are provided.

Furthermore, the object 9 of the present embodiment is a mold for casting a plate material (e.g. a floor), which has a first mold 9a and a second mold 9b opposite to each other, as shown in fig. 2C, and the object 8 is a release agent, so that the cast object 9 can be easily released from the mold. The object 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 target material 8 to spray the target material 8 onto the target object 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 target material 8. For example, the second spraying structure 22a has a plurality of sets of second nozzles 220, and the number of the second nozzles 220 is determined according to the size of the casting. Specifically, the casting is a 60 cm & 60 cm high-rise floor, so the second nozzles 220 are configured in three rows, and as shown in fig. 3B and 3C, 42 second nozzles 220 are counted in total.

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

Furthermore, the supply device 2 further includes an up-and-down displacement device 30 and a left-and-right 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. 4A and 4B, the first supply device 21 and/or the second supply device 22 are disposed at the lower end of the up-and-down 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 displacement device 30 is not particularly limited with respect to its variety.

In addition, the supply device 2 further includes a control base 2b for controlling the operation of 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, and the up-down displacement device 30, the left-right displacement device 40, the first supply device 21 and the second supply device 22 are installed on the control base 2b, and the lower end of the control base 2b is fixed on a machine base preset by the supply device 2.

The shielding device 2A includes a first stopper 24a and a second stopper 24B, and the first stopper 24a and the second stopper 24B are disposed above a carrier 23, as shown in fig. 2A and 2B.

In this embodiment, the first stopper 24a has a first recess S1, and the second stopper 24b has a second recess S2, such 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 abutted against the first stopper 24a, the first recess S1 and the second recess S2 form a receiving space S (as shown in fig. 2C) for receiving the up-down displacement device 30 and the left-right displacement device 40, and the target material 8 can be prevented from being sprayed upward, wherein the target material 8 is a toxic substance, which is likely to cause environmental problems.

Furthermore, the carrying platform 23 is provided with a frame 25 and a track structure 26 disposed on the frame 25, so that the first stopper 24a and the second stopper 24b are disposed on the track structure 26, and the first stopper 24a and the second stopper 24b can move linearly relatively. For example, a movable side plate 27a (such as capable of moving linearly left and right or lifting) may be disposed on the frame 25 below the first stopper 24a and the second stopper 24b and in front of the object 9 to facilitate easy removal and removal of the object 9 after casting, a fixed side plate 27b may be disposed on the opposite side of the side plate 27a and forms a semi-closed box with the wall surfaces of the first mold 9a and the second mold 9b to prevent the object 8 from spraying out and flowing out from the bottom of the box, and a receiving tray 28 may be disposed at the bottom of the box as shown in fig. 4C and 4D to collect the object 8 flowing out from the bottom of the box, and the receiving tray 28 may be connected to a pipeline 280, such that the receiving tray 28 is connected to a tank 29 for collecting waste liquid (such as the object 8 flowing out from the bottom of the box) through the pipeline 280.

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

In addition, an injection molding device 2d is disposed on the stage 23, and is adjacent to the shielding device 2a to communicate with the object 9, so that the injection molding device 2d can supply at least one molding material to the object 9. For example, another rectangular receiving tray 28a can be disposed under the injection molding device 2d, as shown in fig. 4C and 4E, to collect the waste liquid (such as lubricant oil, water, etc.) flowing out from under the injection molding device 2d, and the receiving tray 28a is connected to a receiving tank 28b through a slide-shaped branch pipe 282 to branch the waste liquid to the receiving tank 28b to prevent the waste liquid from overflowing from the receiving tray 28 a. Specifically, the receiving groove 28b is formed 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, and the receiving groove 28b is connected to a pipe 281, so that the receiving groove 28b is communicated to a tank 29a for collecting the waste liquid through the pipe 281.

Therefore, when the supply apparatus 2 is used, after the injection molding device 2d supplies the molding material to the object 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 move the first supply device 21 and the second supply device 22 (in the moving directions L1, L2 shown in fig. 4A and 4B) into the box at the intermediate position of the first mold 9a and the second mold 9B (shown in fig. 5), spray the object 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 object material 8 (e.g., the parting agent) is formed on the spray surface a (shown in fig. 5) of the first mold 9a and the spray surface a (shown in fig. 5) of the second mold 9B in a parting state, thereby facilitating the next casting operation.

Furthermore, the excess target material 8 (such as the release agent) will be scattered to the tray 28 at the bottom of the box body, and the tray 28 will guide the excess target material 8 to the trough 29 through the pipeline 280, so as to store the excess target material 8 in the trough 29.

In summary, the supply apparatus 2 of the present invention forms a semi-closed box body mainly by the first stopper 24a and the second stopper 24b, the two side plates 27a,27b and the wall plates 27,27' (or the wall surfaces of the first mold 9a and the second mold 9 b) to shield the outer peripheral surface of the first mold 9a and the outer peripheral surface of the second mold 9b, so compared with the prior art, the supply apparatus 2 of the present invention can avoid the problem that the target material 8 sprayed out by diffusion is sprayed out of the box body to pollute the environment when spraying the target material 8, and can completely recycle the waste liquid (such as the target material 8 flowing out from the lower part of the box body) to solve the environmental problem.

Furthermore, by the design that the first supply direction F1 of the first supply device 21 is different from the second supply direction F2 of the second supply device 22, the target material 8 is simultaneously sprayed on the first mold 9a and the second mold 9b, so that the spraying time course can be greatly reduced, and compared with the prior art, the supply device 2 of the present invention is beneficial to reducing the time for manufacturing the product of the target material 9, i.e. the time for the die casting operation.

Furthermore, the design of the plurality of sets of the first nozzle 210 and the second nozzle 220 is beneficial to uniformly spray the target material 8, so that the target material (release layer) can effectively separate the product made by the target 9.

The invention 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 (11)

1. A supply apparatus, comprising:

a shielding device including a box body, wherein the box body is configured with an object;

a support structure;

a first supply device disposed on the support structure for spraying the target material onto the target object in a first supply direction; and

the second supply device is arranged on the support structure to spray the target material onto the target object 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 the target material is not sprayed to the external environment of the target object when the first supply device and the second supply device spray the target material onto the target object.

2. The supply apparatus as claimed in claim 1, further comprising an up-down displacement device and a left-right displacement device disposed on the support structure, and the first supply device and the second supply device are disposed at a lower end of the up-down displacement device, so that the up-down displacement device and the left-right displacement device can drive the first supply device and the second supply device.

3. The supply apparatus as claimed in claim 2, wherein the shielding device comprises two stoppers, each of which has a recess, such that when the two stoppers abut against each other, the recesses of the two stoppers form a receiving space, such that the receiving space receives the up-down displacement device and the left-right displacement device.

4. The supply apparatus as claimed in claim 3, wherein the shielding device further comprises a carrier for disposing the two stoppers, and the carrier is disposed with a frame and a track structure disposed on the frame, such that the two stoppers are disposed on the track structure, and at least one of the two stoppers is displaced by the track structure.

5. The supply apparatus according to claim 4, wherein a side plate is disposed on the frame at the front and rear of the object under the two stoppers, respectively, so that the side plate and the object form a semi-closed box.

6. The supply apparatus according to claim 5, wherein one side plate of the box is movable to remove the object by the side plate.

7. The supply apparatus as claimed in claim 1, wherein a first supply direction of the first supply device is opposite to a second supply direction of the second supply device, and the first supply device and the second supply device are disposed on opposite sides of the support structure.

8. The supply apparatus of claim 1, wherein the first supply device and/or the second supply device has at least one nozzle.

9. The supply apparatus of claim 1, wherein the first supply device and/or the second supply device has 42 nozzles.

10. The supply apparatus as described in claim 1, further comprising a control seat for controlling the operation of the shielding device, the first supply device and the second supply device.

11. The supply apparatus as claimed in claim 1, wherein the shielding device further comprises at least one wall plate for fixing the object, and the wall plate drives the object to move.

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