KR102436644B1 - Mold breakage prevention device - Google Patents

Abstract

Disclosed is a device for preventing mold breakage. A mold breakage preventing device according to the present invention includes: a base; a first mold part mounted on the base part, on which a material is disposed; a second mold part disposed on the upper side of the first mold part and pressing the material; and a control unit for controlling the operation of the first mold part or the second mold part, wherein the second mold part is disposed opposite to the first mold part on the upper side of the first mold part, and a second mold pressing part for pressing the material; And it is mounted on the second mold pressing unit, characterized in that it comprises a distance sensing sensor for detecting whether the separation distance from the material is a set separation distance to the control unit.

Description

Mold breakage prevention device {PREVENTION APPARATUS FROM BEING BROKEN OF MOLD}

The present invention relates to a mold breakage preventing device, and more particularly, to a mold breakage preventing device capable of preventing a mold from being damaged by a material being put into a mold in excess of a set number.

In general, the material is placed in a mold and molded. Two or more of the plurality of materials may be put into the mold due to the oil remaining in the material in the mold apparatus. Exceeding the set number of materials in the mold may cause the mold to be damaged. Therefore, there is a need to improve it.

Background art of the present invention is disclosed in Republic of Korea Utility Model Registration No. 20-0290508 (registered on September 14, 2002, title of design: mold breakage prevention structure).

The present invention was created to improve the above problems, and an object of the present invention is to provide a mold breakage prevention device capable of preventing the mold from being damaged by the material being put into the mold in excess of the set number.

A mold breakage preventing device according to the present invention includes: a base; a first mold part mounted on the base part and on which a material is disposed; a second mold part disposed above the first mold part and pressing the material; and a control unit for controlling the operation of the first mold part or the second mold part, wherein the second mold part is disposed opposite the first mold part on the upper side of the first mold part, and pressurizes the material a second mold pressing unit; and a distance sensing sensor unit mounted on the second mold pressing unit, detecting whether the separation distance from the material is a set separation distance, and transmitting it to the control unit.

In the present invention, a plurality of the distance sensing sensor unit is mounted on the second mold pressing unit.

In the present invention, the distance sensor part measures the length of the material disposed in the first mold part.

In the present invention, the distance sensor unit is made of an infrared sensor.

In the present invention, the first mold part may include: a first mold pressing part disposed opposite to the second mold part under the second mold part, and in which the material is disposed; and a weight sensor unit mounted on the first mold pressing unit, detecting the weight of the material, and transmitting it to the control unit.

In the present invention, the weight sensor unit is composed of a load cell.

According to the mold breakage prevention device according to the present invention, the distance sensor unit mounted on the second mold part measures the separation distance from the material disposed on the first mold part, confirms whether the set material is disposed, and introduces additional material It is possible to prevent damage to the first mold part and the second mold part by the

According to the present invention, it is possible to prevent damage to the first mold part and the second mold part, thereby reducing repair and maintenance costs and improving productivity.

1 is a perspective view schematically illustrating an apparatus for preventing mold breakage according to an embodiment of the present invention.
FIG. 2 is a front view schematically showing that the distance sensing sensor detects the separation distance between the second mold part and the material in the mold breakage prevention device according to an embodiment of the present invention.
3 is a front view schematically showing that the second mold part presses the material when the separation distance between the second mold part and the material is a set separation distance in the mold breakage prevention apparatus according to an embodiment of the present invention.
4 is a front view schematically showing that the material is not pressed when the separation distance between the second mold part and the material in the mold breakage prevention apparatus according to an embodiment of the present invention is greater than a set separation distance.
5 is a front view schematically showing that the material is not pressed when the separation distance between the second mold part and the material is smaller than the set separation distance in the mold breakage prevention device according to an embodiment of the present invention.

Hereinafter, an embodiment of a mold breakage preventing device according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators. Therefore, definitions of these terms should be made based on the content throughout this specification.

1 is a perspective view schematically showing a mold breakage preventing device according to an embodiment of the present invention, and FIG. 2 is a second mold part and a material in the distance sensing sensor part in the mold breakage preventing device according to an embodiment of the present invention. It is a front view schematically showing sensing the separation distance, and FIG. 3 is a second mold part pressing the material when the separation distance between the second mold part and the material is the set separation distance in the mold breakage prevention device according to an embodiment of the present invention. 4 is a front view schematically showing that the material is not pressed when the separation distance between the second mold part and the material is greater than the set separation distance in the mold breakage prevention device according to an embodiment of the present invention 5 is a front view schematically showing that the material is not pressed when the separation distance between the second mold part and the material is smaller than the set separation distance in the mold breakage prevention device according to an embodiment of the present invention.

1 to 5 , an apparatus for preventing mold breakage according to an embodiment of the present invention includes a base part 100 , a first mold part 200 , a second mold part 300 , and a control part 400 . do.

The base part 100 is disposed on the ground, and provides a space in which the first mold part 200 can be mounted. The base part 100 fixes the first mold part 200 or supports the first mold part 200 to be liftable.

The first mold part 200 is mounted on the base part 100 . It is disposed on one surface (the upper surface of FIG. 1 ) of the first mold part 200 . The first mold part 200 may be fixed to the base part 100 or may be mounted to be lifted from the base part 100 .

The first mold part 200 includes a first mold pressing part 210 and a weight sensor part 220 . The first mold pressing part 210 is disposed under the second mold pressing part 310 of the second mold part 300 to face the second mold pressing part 310 of the second mold part 300 . The material 10 is disposed on one surface (the upper surface of FIG. 1 ) of the first mold pressing unit 210 .

The first mold pressing part 210 is a second mold pressing part 310 of the second mold part 300 together with one surface (lower surface in FIG. 3) and the other surface (upper surface in FIG. 3) of the material 10. pressurize each.

The weight sensor unit 220 is mounted on the first mold pressing unit 210 , detects the weight of the material 10 , and transmits it to the control unit 400 . The weight sensor unit 220 is mounted inside the first mold pressing unit 210 and detects whether the weight of the material 10 is a set weight. The weight sensor unit 220 transmits weight information of the detected material 10 to the control unit 400 .

In the present invention, the weight sensor unit 220 is formed of a load cell. The weight sensor unit 220 made of a load cell measures the weight (load) of the material 10 disposed on the surface of the first mold pressing unit 210 . The weight sensor unit 220 converts the weight of the material 10 into an electric signal and transmits it to the control unit 400 .

The second mold part 300 is disposed on the upper side of the first mold part 200 , and descends toward the first mold part 200 or rises away from the first mold part 200 . The second mold part 300 presses the material 10 while descending. The second mold unit 300 presses the material 10 while descending by a signal from the control unit 400 to shape the material 10 into a desired shape.

The second mold part 300 includes a second mold pressing part 310 and a distance sensor part 320 . The second mold pressing part 310 is disposed on the upper side of the first mold pressing part 210 of the first mold part 200 to face the first mold pressing part 210 of the first mold part 200 .

The second mold pressing unit 310 is formed with the first mold pressing unit 210 of the first mold unit 200 on one side (lower side in FIG. 3 ) and the other side (upper side in FIG. 3 ) of the material 10 . By pressing each, the material 10 is molded into a shape to be molded.

The distance sensing sensor unit 320 is mounted inside the second mold pressing unit 310 , and detects whether the separation distance from the material 10 is a set separation distance L0 and transmits it to the control unit 400 . The distance sensor unit 320 detects a separation distance between the second mold pressing unit 310 and the material 10 .

A plurality of distance sensor units 320 are mounted inside the second mold pressing unit 310 . The plurality of distance sensing sensor units 320 may detect an average of the separation distance from the second mold pressing unit 310 to the material 10, or may detect a distance at a specific location.

In addition, the distance sensor unit 320 includes not only the separation distance from the second mold pressing unit 310 to the material 10, but also the material disposed in the first mold pressing unit 210 of the first mold unit 200 ( 10) can be measured.

The distance sensor unit 320 detects whether the length of the material 10 disposed in the first mold pressing unit 210 of the first mold unit 200 is the set length W0 and transmits it to the control unit 400 . .

In the present invention, the distance sensor unit 320 is made of an infrared sensor (Infrared Ray Sensor). In measuring the distance or length separated from the material 10, the distance sensing sensor unit 320 made of an infrared sensor irradiates infrared rays toward the material 10, and the infrared rays collide with the material 10 and are reflected back through can be measured The separation distance from the second mold pressing unit 310 to the material 10 is sensed as half the length of the reflected and returned infrared rays, and the length of the material 10 is detected through whether infrared rays are reflected or not.

The controller 400 controls the operation of the first mold part 200 or the second mold part 300 . The control unit 400 controls the weight of the material 10 sensed by the weight sensing unit 220 of the first mold unit 200 or the material detected by the distance sensing unit 320 of the second mold unit 300 ( 10) and receives information on the distance or length, and controls the operation of the first mold part 200 or the second mold part 300 .

An operation of the mold breakage preventing device according to an embodiment of the present invention will be described with reference to FIGS. 2 to 5 .

Referring to FIG. 2 , the distance sensor unit 320 detects a distance from the second mold pressing unit 310 to the material 10 disposed on the first mold pressing unit 210 . In addition, the distance sensor unit 320 may detect the length of the material 10 disposed on the first mold pressing unit 210 .

Information on the material 10 sensed by the distance sensor unit 320 is transmitted to the control unit 400 . The control unit 400 determines whether the distance between the second mold pressing unit 310 and the material 10 disposed on the first mold pressing unit 210 is a set separation distance L0.

Also, the control unit 400 determines whether the length of the material 10 disposed in the first mold pressing unit 210 is a set length W0 based on the information detected by the distance sensing unit 320 .

Meanwhile, the weight sensor unit 220 detects the weight of the material 10 disposed on the first mold pressing unit 210 . The control unit 400 determines whether the material 10 disposed in the first mold pressing unit 210 has a set weight based on the information detected by the distance sensing unit 320 .

Referring to FIG. 3 , the control unit 400 determines that the material 10 meets the set conditions through the information detected by the distance sensing unit 320 or the weight sensing unit 220 , and pressurizes the first mold. By operating the part 210 or the second mold pressing part 310, the material 10 is molded into a desired shape.

Referring to FIG. 4 , the control unit 400 determines whether the distance between the second mold pressing unit 310 and the material 10 disposed on the first mold pressing unit 210 is a set separation distance L0. In FIG. 4 , the distance from the second mold pressing unit 310 sensed by the distance sensing unit 320 to the material 10 disposed on the first mold pressing unit 210 is L1 . where L1 is less than L0 (L1 < L0).

The control unit 400 determines that more materials 10 than the set number are disposed in the first mold pressing unit 210 through the separation distance information transmitted from the distance sensing unit 320 . Alternatively, when the material 10 sensed by the distance sensor unit 320 is shorter or longer than the set length W0, the control unit 400 determines that the material 10 is defective. Alternatively, the control unit 400 through the information that the weight detection sensor unit 220 detects that the material 10 is heavier than the set weight, the first mold pressing unit 210 more than the set number of materials 10 are disposed judge that

The control unit 400 determines that the material 10 does not meet the set conditions through the information detected by the distance sensing unit 320 or the weight sensing unit 220, and the first mold pressing unit 210 or The second mold pressing unit 310 is not operated.

Referring to FIG. 5 , the control unit 400 determines whether the distance between the second mold pressing unit 310 and the material 10 disposed on the first mold pressing unit 210 is a set separation distance L0. In FIG. 5 , the distance from the second mold pressing unit 310 sensed by the distance sensing unit 320 to the material 10 disposed on the first mold pressing unit 210 is L2. where L2 is greater than L0 (L2 > L0).

The control unit 400 determines that the material 10 is not disposed in the first mold pressing unit 210 through the separation distance information transmitted from the distance sensor unit 320 or that the material 10 is disposed less than the set number. Alternatively, when the material 10 sensed by the distance sensor unit 320 is shorter or longer than the set length W0, the control unit 400 determines that the material 10 is defective. Alternatively, the control unit 400 determines that the material 10 is not placed in the first mold pressing unit 210 or is greater than the set number through the information detected by the weight sensor unit 220 that the material 10 is lighter than the set weight. judged to be under-placed.

The control unit 400 determines that the material 10 does not meet the set conditions through the information detected by the distance sensing unit 320 or the weight sensing unit 220, and the first mold pressing unit 210 or The second mold pressing unit 310 is not operated.

According to the mold breakage prevention device according to the present invention, the distance sensor unit 320 mounted on the second mold part 300 measures the separation distance from the material 10 disposed on the first mold part 200, It is possible to check whether the set material 10 is disposed or not, and to prevent damage to the first mold part 200 and the second mold part 300 due to the inflow of the additional material 10 .

According to the present invention, damage to the first mold part 200 and the second mold part 300 is prevented, so that repair and maintenance costs can be reduced and productivity can be improved.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments are possible by those of ordinary skill in the art to which the present invention pertains. will understand Therefore, the true technical protection scope of the present invention should be defined by the following claims.

10: material 100: base part
200: first mold part 210: first mold pressing part
220: weight sensor unit 300: second mold unit
310: second mold pressing unit 320: distance sensing sensor unit
400: control unit

Claims (6)

base part;
a first mold part mounted on the base part and on which a material is disposed;
a second mold part disposed above the first mold part and pressing the material; and
a control unit for controlling the operation of the first mold part or the second mold part;
The second mold part,
a second mold pressing part disposed opposite the first mold part on an upper side of the first mold part and pressing the material; and
It is mounted on the second mold pressing unit, and includes a distance sensing sensor unit that detects whether the separation distance from the material is a set separation distance and transmits it to the control unit,
A plurality of the distance sensing sensor units are mounted on the second mold pressing unit,
The distance sensor unit detects the separation distance between the second mold pressing unit and the material,
A plurality of the distance sensing sensor unit detects an average of the separation distance from the second mold pressing unit to the material, or detects a distance at a specific location,
The distance sensor unit measures the length of the material disposed in the first mold part,
The control unit determines whether the distance between the second mold pressing unit and the material disposed in the first mold unit is a set separation distance, and when the material sensed by the distance sensor unit is shorter or longer than the set length, Mold breakage prevention device, characterized in that the material is judged as defective.
delete delete According to claim 1,
The distance detection sensor unit is a mold breakage prevention device, characterized in that made of an infrared sensor.
According to claim 1,
The first mold part,
a first mold pressing part disposed opposite to the second mold part under the second mold part, and in which the material is disposed; and
and a weight detection sensor mounted on the first mold pressing unit, detecting the weight of the material, and transmitting the weight to the control unit.
6. The method of claim 5,
The weight sensor unit is a mold breakage prevention device, characterized in that made of a load cell.

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