KR101196809B1 - Cleaning device and method for works of press mold - Google Patents

Abstract

PURPOSE: A device and a method for cleaning a workpiece in a mold are provided to improve production by automatically and rapidly removing dust using an automated device. CONSTITUTION: A device for cleaning a workpiece in a mold comprises a thin sheet support block(40). The thin sheet support block comprises a jetting passage(43), a blowing unit(44), a guide window(42), and a jetting end portion(46). After a cutter cuts a thin sheet, the jetting passage jets compressed air to dust remaining in the cut portion of the thin sheet. The blowing unit is installed in the jetting passage and generates compressed air. The guide window guides the cutter. The jetting end portion is located at the inner surface of the guide window, and the opening and closing thereof is determined by the cutter. [Reference numerals] (23) Pressurized air supply unit; (32) Suction unit; (44) Blowing unit

Description

Cleaning device and method for molds {Cleaning device and method for works of press mold}

The present invention relates to a workpiece cleaning apparatus and a cleaning method of a mold. In more detail, the present invention, by cutting the sheet-shaped workpiece by the press process and at the same time to blow and suction the dust outside the workpiece generated during the cutting process, to discharge to the outside of the device, the attraction force after cutting the thin plate The present invention relates to a cleaning apparatus and a cleaning method for automating a cleaning process performed by a separate operation.

'Thin plate' refers to a thin plate or a thin plate on which a thin film coating layer is formed, whether the material is hard or flexible. The most representative form of the thin plate formed with a special purpose coating layer on the surface may illustrate a binder used as a pole plate of a secondary battery. Here, it is known that the secondary battery means a battery that can be continuously charged unlike a disposable battery.

For reference, the secondary battery is configured by disposing a plurality of positive and negative electrode binders inside the housing and filling a medium for performing electrolysis therein. In particular, the binder is a pole plate such as silver or copper for performing electrolysis in a medium, and is produced by coating a film of a polymer material on the surface of the pole plate.

Such binders have recently emerged as an eco-friendly technology and are applied to batteries of rechargeable electric vehicles (secondary batteries) .Binders applied to batteries of such electric vehicles are largely divided into aqueous binders and PVDF (Polyvinylidiene Fluoride) binders. This is common. The binder forms a coating layer by coating a polymer film on a thin plate such as silver or copper to be applied as an electrode as described above, and cuts and cuts the thin plate on which the coating layer is formed into a target pole plate (hereinafter, referred to as cutting). Is produced.

In this case, the cutting of the polymer film-coated thin plate is generally performed by a cutter or a laser according to the shape of the electrode. In the rare case of PVDF binder, the cutting is performed by a press mold in which a cutter is installed in order to obtain higher productivity. Is doing. Here, the press mold is primarily applied to the thomson press mold to press the workpiece to fix the position, and secondly to cut the workpiece.

The thin plate cutting device to which the Thompson press die is applied is presented in Patent Registration No. 1046190 (registered on June 28, 2011, hereinafter referred to as Prior Art), filed by the present applicant. The preceding invention provides a mold in which the coating layer of the cut point is peeled off from the thin plate when the thin plate formed with the coating layer is formed or a means for eliminating defects of the cut surface is formed, and the thin plate is continuously supplied and cut to manufacture a product. It is configured to be automated and performed by this single device.

The foregoing invention is not sufficient to perform a stable automated operation without a bad cutting surface, in particular, in the case of the above-described electrode after the cutting process is performed to the outer edge portion of the thin plate when the aforementioned polymer coating layer is cut with the blade Dust generated by friction remains. If the secondary battery is manufactured in such a state that dust is not removed, a short circuit occurs with each of the pole plates, which causes product defects and safety accidents. Therefore, the dust should be removed immediately after the cutting process of the thin plate is a conventional removal of dust is manually removed for the cut thin plate.

The cutting of the thin plate by the manual work generates a high production cost according to the demand for a separate work manpower, and the work time for the post-process after the cutting of the thin plate is delayed, resulting in a problem that the productivity of the product is lowered. do.

The present invention has been invented to solve the above problems. In other words, the present invention, by cutting the workpiece in the form of a thin plate and blow and suction the dust outside the workpiece to be discharged to the outside of the device, the cleaning process is automated to reduce the cost of the product and the dust is easy to process It is an object of the present invention to provide a workpiece cleaning apparatus and a cleaning method for a mold to be performed cleanly and cleanly.

In the cleaning apparatus according to the present invention, a pair of molds for cutting a thin plate inside the press is disposed in a pair of upper and lower portions, and the upper mold is pressed to support the thin plate, and a cutter protruding from the upper mold passes and the thin plate is cut. In the thin plate cutting machine provided with a thin plate support block, the thin plate support block is formed with a spray passage for injecting compressed air to the dust side remaining at the cutting point after the cutter cuts the thin plate, the compressed passage to generate compressed air Blow units for supplying are connected and installed.

In addition, the present invention is formed so that the injection end is located on the inner surface of the guide window for the guide of the cutter through the thin plate support block is configured so that the opening and closing of the injection end is determined by the drive is passed through the guide window or returned. do.

At this time, the injection end is formed in a number along the longitudinal direction of the guide window.

In particular, the lower mold is formed with a suction window for suctioning dust scattered by the supply of compressed air to the lower side of the point where the thin plate is cut, the suction window is a suction unit for generating the suction force and collecting the dust collected It is connected and configured.

On the other hand, the inner side of the cutter is a point pressing member for precisely pressing the point to be cut of the thin plate is mounted to be pulled out and retractable from the inside of the cutter, the point pressing member is protruded from the cutter and the end of the thin plate It is formed to protrude longer than the surface for supporting the thin plate of the support block is configured to support the point to be cut first of the thin plate before the thin plate support block is pressed against the thin plate.

Here, the point pressurizing member supplies pressurized air from the upper mold to the point where the point pressurizing member of the cutter is mounted so that the cutter is always protruded from the cutter before cutting the sheet and after cutting the sheet. A passage is formed, and the pressurized air supply passage is connected to the pressurized air supply unit for generating and supplying pressurized air.

In the cleaning method according to the present invention, a pair of molds for cutting a thin plate inside the press is disposed in a pair of upper and lower portions, the upper mold is pressed to support the thin plate, and a cutter protruding from the upper mold passes and the thin plate is cut. In the process for cleaning the dust remaining at the cutting point after the thin plate is cut in the thin plate cutter equipped with the thin plate support block,

When the thin plate for cutting operation is entered between the upper and lower molds, the upper mold is lowered by driving the press so that the thin plate supporting block presses and supports the thin plate to the lower mold side. Cutting the thin plate while the cutter descends and closes the injection end formed on the inner surface of the guide window;

As the cutter cutting the thin plate rises, the injection end of the thin plate support block is opened, and compressed air generated and supplied by the blow unit is injected through the injection end to scatter dust remaining at the cut point of the thin plate. Steps;

When the dust is scattered by the compressed air, the suction unit connected to the suction window of the lower mold is driven to collect the scattered dust through the suction window to collect;

.

As described above, the present invention, by cutting the workpiece in the form of a thin plate, such as the electrode of the secondary battery, the dust remaining at the point cut at the same time by the automated device to clean the workpiece, There is an effect that can produce a good quality product according to.

In addition, the present invention does not require a separate work force by the automatic dust removal according to the automated device can significantly reduce the manufacturing cost, and obtain the effect of improving the productivity of the product according to more rapid dust removal do.

1 is an exemplary view of a thin plate cutter to which the cleaning device according to the present invention is applied.
2 is a front view of the cleaning apparatus according to the present invention.
3 is a side sectional view of a cleaning apparatus according to the present invention;
4a to 4c are views illustrating a driving state of the cleaning apparatus according to the present invention.
5 is a flowchart of a cleaning process according to the present invention.

Embodiments of the present invention as described above will be described in detail with reference to the accompanying drawings.

1 is an exemplary view of a thin plate cutter to which the cleaning device according to the present invention is applied, FIG. 2 is a front view of the cleaning device according to the present invention, FIG. 3 is a side cross-sectional view of the cleaning device according to the present invention, and FIG. It is an illustration of the driving state of a cleaning apparatus.

Referring to the drawings, the sheet metal cutter 1 to which the cleaning apparatus according to the present invention is applied is disposed in the upper and lower sides of the press 2 arranged up and down with the working point therebetween so as to face each other. It is installed and configured. Here, the mold 10 is divided into an upper mold 20 and a lower mold 30, and when the thin plate 3, which is a workpiece, enters the working point, the upper mold 20 is elevated to the lower mold 30 side. Thus, the pressing operation for cutting the thin plate 3 is performed.

In this case, the mold 10 is installed in two places while maintaining a specific interval, which is to clarify the configuration of the sheet cutting device for cutting and cutting the secondary battery electrode of the above-described prior invention.

In this configuration, the mold 10 is divided into an upper mold 20 and a lower mold 30, and a cutter 21 for cutting the thin plate 3 is formed to protrude from the lower side of the upper mold 20. The lower mold 30, which is opposite thereto, is provided with a groove 31 through which the cutter 21 passes in order to provide a shear load to the thin plate 3 by pressing the cutter 21.

In addition, the upper mold 20 is provided with a thin plate support block 40 for inducing accurate cutting by pressing and supporting the upper surface of the thin plate 3 before the thin plate 3 is cut by the cutter 21. The thin plate supporting block 40 is arranged to maintain a constant distance with the upper mold 20, is elastically connected by a plurality of guide members 41, the cutter 21 after pressing the thin plate 3 is supported A guide window 42 corresponding to the shape of the cutter 21 is formed so as to pass and cut the thin plate 3.

In the configuration of the thin plate cutter 1 as described above, the cleaning apparatus according to the present invention is installed in the thin plate support block 40. More specifically, the thin plate support block 40 is formed with a spray passage 43 for spraying compressed air to the dust side remaining at the cutting point after the cutter 21 cuts the thin plate 3, the injection passage ( 43, a blow unit 44 such as a compressor for generating and supplying compressed air is connected to constitute a cleaning device.

Here, the injection passage 43 is provided with a supply end 45 for receiving compressed air through the blow unit 44 on one side of the thin plate support block 40, the cutter of the thin plate support block 40 ( 21 is guided and formed so that the injection end 46 is located on the inner side of the guide window 42 for passage.

At this time, the supply end portion 45 is formed in a single number, the injection end portion 46 is formed along the longitudinal direction of the guide window 42, for this purpose, the injection passage 43 is a thin plate support block ( 40) A single passage is formed at the point where the supply end portion 45 of one side is formed, and a plurality of branches are formed at the point where the injection end portion 46 is formed.

In particular, the injection end portion 46 formed on the inner surface of the guide window 42 is kept closed on the wall surface of the cutter 21 when the cutter 21 passes through the guide window 42, the thin plate 3 The cutter 21 is opened when the cutter 21 is returned after cutting, so that the opening and closing of the injection end 46 is determined by the passage and return of the cutter 21.

In an additional configuration, the lower mold 30 is provided with a suction unit 32 for collecting and processing the suction and collecting dust remaining after cutting of the thin plate 3 by the injection of the compressed air described above. do.

The suction unit 32 is applied in the configuration of a vacuum pump or a vacuum ejector combined with a compressor for generating a suction force, the thin plate of the lower mold 30 to perform the suction of dust to the suction unit 32 ( A suction window 33 for sucking dust scattered by the supply of compressed air is formed at the lower side of the cut point 3), and the suction unit 32 is connected to the suction window 33.

In a further configuration, the inner side of the cutter (21) of the thin plate support block 40 so as to press the point to be cut first of the thin plate (3) before the pressing of the thin plate 3 of the thin plate (3) A point pressing member 22 is mounted to allow the thin plate 3 to be cut more precisely by locally pressing the point to be cut.

The point pressing member 22 is mounted to be pulled in and out by sliding up and down inside the cutter 21, and a lower end thereof protrudes from the cutter 21, and an end thereof is a thin plate of the thin plate supporting block 40. 3) is formed to protrude longer than the surface for supporting.

Such a point pressing member 22 is driven to be drawn out from the cutter 21 by the pressurized air supply unit 23, for this purpose, the point pressing member of the cutter 21 in the upper mold 20 ( A pressurized air supply passage 24 is formed to a point at which 22 is mounted, and the pressurized air supply passage 24 is connected to a pressurized air supply unit 23 such as a compressor for generating and supplying pressurized air. .

The point pressurizing member 22 is pressurized air generated in the pressurized air supply unit 23 is supplied through the pressurized air supply passage 24 so that the cutter 21 cuts the thin plate 3 before cutting. The point to be cut is pressed and supported more precisely, and then the state in which the cutter 21 always protrudes from the cutter 21 after cutting the thin plate 3 and returned.

5 is a flowchart of a cleaning process according to the present invention. Referring to the drawings, in order to perform the cleaning process by the cleaning apparatus according to the present invention by driving the apparatus so that the thin plate 3 is transferred between the upper, lower mold 30 is supplied (S1).

Subsequently, when the press 2 is driven to lower the upper mold 20 as shown in FIG. 4A (S2), the point pressing member 22 protruding from the cutter 21 cuts the cut point of the thin plate 3. Locally pressurized. (S3)

Subsequently, as shown in FIG. 4B, the thin plate supporting block 40 presses the thin plate 3 toward the lower mold 30 by lowering the upper mold 20 (S4), and then, the thin plate supporting block 40. The cutter 21 is lowered and passed through the guide window 42 formed at the cut window 3 while closing the injection end portion 46 formed on the inner surface of the guide window 42. (S5)

After the cutting process of the thin plate 3 is performed, as shown in FIG. 4C, the cutter 21 cutting the thin plate 3 is raised while the spray end 46 of the thin plate supporting block 40 is opened. (S6) The compressed air generated and supplied by the blow unit 44 is sprayed through the injection end portion 46 to scatter dust remaining at the cut point of the thin plate 3 (S7).

When dust is scattered by the compressed air as described above, the suction unit 32 connected to the suction window 33 of the lower mold 30 is driven, and the dust scattered by the driving of the suction unit 32 is suction window. Suction is collected through (33). (S8) By the same process as above, the dust generated by the cutting of the thin plate 3 and the cutting of the thin plate 3 is cleaned cleanly.

10: mold 20: upper mold
21: cutter 30: lower mold
32: Suction unit 33: Suction window
40: sheet support block 42: guide window
43: injection passage 44: blow unit
45: supply end 46: injection end

Claims (7)

The mold 10 for cutting the thin plate 3 inside the press 2 is disposed as a pair of the upper mold 20 and the lower mold 30, and the upper mold 20 is pressed to support the thin plate 3. And in the thin plate cutting machine provided with a thin plate support block 40 to pass the cutter 21 protruding formed in the upper mold 20 and the thin plate is cut,
The thin plate support block 40 is formed with an injection passage 43 for injecting compressed air to the dust side remaining at the cutting point after the cutter 21 cuts the thin plate 3, and the injection passage 43 Blow units 44 are connected and installed for generating and supplying compressed air;
The cutter 21 of the sheet support block 40 is guided and formed so that the injection end portion 46 is positioned on the inner side of the guide window 42 for passing through the cutter 21 passes through the guide window 42. Or configured to determine the opening and closing of the injection end portion 46 by the driving or returning;
The workpiece cleaning apparatus of the metal mold characterized by the above-mentioned.
delete The method of claim 1,
The injection end portion 46 is a workpiece cleaning apparatus of the mold, characterized in that a plurality formed along the longitudinal direction of the guide window (42).
The method of claim 1,
The lower mold 30 is provided with a suction window 33 for sucking dust scattered by the supply of compressed air to the lower side of the point where the thin plate 3 is cut, and the suction window 33 generates suction force And a suction unit (32) connected to collect the sucked dust.
The method of claim 1,
Inside the cutter 21, a point pressing member 22 for precisely pressing and supporting the point to be cut of the thin plate 3 is slidably mounted in the cutter 21 to be pulled in and out. 22 is formed to protrude from the cutter 21 and the end thereof is formed to protrude longer than the surface for supporting the thin plate 3 of the thin plate support block 40 so that the thin plate support block 40 presses the thin plate 3. Apparatus for cleaning a workpiece of a mold, characterized in that it is configured to first press support the point to be cut of the thin plate (3) before supporting.
The method of claim 5, wherein
The point pressurizing member 22 has an upper mold to maintain the state that the cutter 21 always protrudes from the cutter 21 before the cutter 21 cuts the thin plate 3 and after cutting and returning the thin plate 3. 20, a pressurized air supply passage 24 is formed from the cutter 21 to the point where the pressurizing member 22 of the cutter 21 is mounted, and the pressurized air supply passage 24 supplies pressurized air for generating and supplying pressurized air. A workpiece cleaning apparatus for a mold, which is configured to be connected to a unit (23).
The mold 10 for cutting the thin plate 3 inside the press 2 is disposed in a pair of upper and lower portions, and the upper mold 20 is pressed against the thin plate 3 and protrudes from the upper mold 20. In the process for cleaning the dust remaining at the cutting point after the thin plate is cut in the thin plate cutter is provided with a thin plate support block 40 is passed through the cutter 21 is formed,
When the thin plate 3 to be cut between the upper and lower molds 30 is entered, the upper mold 20 is lowered by driving the press 2 so that the thin plate supporting block 40 is thin plate ( 3) the injection end portion 46 formed on the inner side of the guide window 42 through the cutter 21 is lowered and passed through the guide window 42 formed in the thin plate support block 40 after pressing and supporting the lower mold 30 side Cutting the thin plate 3 while closing it;
As the cutter 21 cutting the thin plate 3 rises, the injection end portion 46 of the thin plate support block 40 is opened, and the compressed air generated and supplied from the blow unit 44 is supplied to the injection end portion ( Spraying through 46) to scatter dust remaining at the cut point of the thin plate 3;
When the dust is scattered by the compressed air, the suction unit 32 connected to the suction window 33 of the lower mold 30 is driven to collect and collect the scattered dust through the suction window 33;
Workpiece cleaning method of a mold comprising a.

Images