KR200461928Y1 - Apparatus For Checking Cooling Liquid Flow Of Mold - Google Patents

Abstract

The present invention relates to a cooling fluid identification device of a mold that makes it easy to visually determine whether the cooling fluid of various molds are flowing through the cooling fluid piping.
The configuration is installed on the conduit of the cooling fluid pipe (P) through which the cooling fluid of the mold flows, the connecting portion 12 for connecting to the cooling fluid pipe (P) is provided at both ends and the middle portion is transparent or A transparent tube 10 made of a translucent material cylinder 11; Rotating blades 20 are fixedly installed in the see-through tube 10 and rotated about an axis X perpendicular to the conduit by a flow of cooling fluid; Wing installation means for allowing the rotary blade 20 is fixed to the perspective tube body 10; Wipe means 40 which is installed at the end of the rotary blade 20 is in contact with the inner wall surface (11a) of the see-through tube 10 as the rotary blade 20 is rotated about the axis (X). It characterized in that it comprises a).

Description

Apparatus For Checking Cooling Liquid Flow Of Mold}

The present invention relates to a cooling fluid checking device of a mold, and more particularly, to a cooling fluid checking device of a mold to visually easily determine whether the cooling fluid of the mold is flowing through the cooling fluid pipe.

Various molds are provided with heating means or cooling means for maintaining a constant temperature of the mold or adjusting the temperature of the mold as necessary. In particular, in order to mold products with precise, high gloss surfaces, the temperature of the mold must be very delicate and controlled quickly. A heating device or hot water is used to increase the temperature of the mold, and a cooling fluid such as cooling water is generally used to lower the temperature of the mold.

The mold is provided with a fluid flow jacket to allow the cooling fluid to flow through, and the cooling fluid piping is connected to the fluid flow jacket. The pump generates pressure to allow the cooling fluid to circulate through the cooling fluid piping. Although a plurality of cooling fluid pipes may be installed in one mold, the cooling water may not be circulated evenly distributed in all cooling fluid pipes. If a certain pipe is blocked and the cooling fluid does not flow, the cooling fluid is not supplied to the fluid flow jacket of the mold connected to the cooling fluid pipe, which may cause product defects.

In addition, there is a problem with the pump, even if the cooling fluid is not properly supplied will cause a problem.

However, since the existing cooling fluid piping can not determine whether the cooling fluid flows, it was most often possible to know what the problem was after the problem occurred.

In contrast, an apparatus for visually checking the inside of a pipe through which a fluid flows has been provided. For example, a transparent viewing window was sometimes installed in a part of the pipeline, and a floating ball was installed inside the viewing window.

However, in the case of the prior art, when the fluid flows on the conduit, it is difficult to accurately determine the flow state of the fluid with the naked eye, and sometimes it is difficult to determine whether the flow is due to the small movement. In particular, Utility Model Registration Application No. 20-2005-0028802 has proposed a configuration in which a fluid flows in a pipeline so that the movement increases due to the movement force of the fluid. When moss or scale occurs on the inner wall, there is a problem in that the field of vision is blurred so that the flow cannot be properly understood.

An object of the present invention for the above problems, an object of the present invention is to provide a cooling fluid check device of the mold to easily determine whether the cooling fluid flows properly in the cooling fluid pipe of the mold.

A more specific object of the present invention is to ensure that the supply of the cooling fluid without the help of the electric device, but the cooling fluid of the mold to easily grasp the flow of the fluid even if foreign matter caught in the inner wall of the pipe during long use An identification device is provided.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention by those skilled in the art.

The above object is to be installed on the pipeline of the cooling fluid pipe through which the cooling fluid of the mold flows, and a connecting part for connecting to the cooling fluid pipe is installed at both ends, and the middle part is a transparent or semi-transparent material that is transparent. Tube; Rotating blade that is fixed to the inside of the see-through pipe is rotated about an axis perpendicular to the pipe by the flow of cooling fluid; Wing installation means for allowing the rotary wing to be fixedly installed in the see-through tube; Installed at the end of the rotary blade is achieved by the cooling fluid check device of the mold characterized in that it comprises a wiper means for contacting the inner wall surface of the see-through tube as the rotary blade is rotated about the axis.

According to a feature of the present invention, the wiping means is made of a flexible material may be a member in the form of a sheet provided with a fitting protrusion at one end to be fitted into the fitting groove provided at the end of the rotary blade.

According to another feature of the present invention, the wing installation means is installed on the upstream side of the conduit to make a right angle with the conduit, and upstream side support for providing a first fluid passage hole, and the downstream of the conduit to make a right angle with the conduit The vertical support is installed on the side and the downstream support for providing a second fluid passage hole, and the upstream support and the downstream support is installed in the center of the see-through tube and provided with a shaft hole for installing the rotary wing It may be a fixture including a.

According to another feature of the present invention, the wing installation means is installed on the upstream side of the conduit so as to make a right angle with the conduit and upstream side support for providing a first fluid passage hole, and of the conduit so as to make a right angle with the conduit A vertical axis is installed on the downstream side and the downstream support for providing a second fluid passage hole, and connecting the upstream support and the downstream support is installed in the center of the see-through tube, the vertical axis is provided with a shaft hole for installing the rotary wing It includes a base, and two rotary blades are installed along the longitudinal axis, the first fluid passage hole and the second fluid passage hole may be formed in the opposite direction with respect to the center.

According to the above configuration, when the cooling fluid flows through the cooling fluid pipe, it is possible to know whether the cooling fluid flows as the rotary blade is rotated, and the wiping means installed at the end of the rotary blade cleans the see-through tube even if the installation time is long. This prevents opacity due to scale or foreign matter getting stuck in the see-through tube. Therefore, the flow of the cooling fluid can be clearly and easily understood for a long time without the help of electric force.

1 is a perspective view of a cooling fluid check apparatus of a mold according to an embodiment of the present invention.
2 is a cross-sectional view taken along line AA of FIG. 1, and FIG. 3 is a cross-sectional view taken along line BB of FIG. 1.
4 is a perspective view of a fixture for installing a rotary blade of the cooling fluid check apparatus of the mold according to an embodiment of the present invention.
5 is a partially exploded perspective view of the rotary blade of the cooling fluid check apparatus of the mold according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings attached hereto.

Reference is mainly made to FIGS. 1 to 3, and FIGS. 4 to 5 will be referred to where necessary.

Cooling fluid check apparatus of the mold according to the present invention can be applied to various molds used in industrial sites. In addition, the cooling fluid basically contains a liquid, but may also include a gas.

The see-through tube 10 is interposed on the conduit of the cooling fluid pipe P through which the cooling fluid of the mold flows. Both ends of the see-through tube 10 is provided with a connecting portion 12 for connecting to the cooling fluid pipe (P), the middle portion of the see-through tube 10 is made of a transparent or translucent cylinder 11. The connection part 12 may be a screw part as shown, and various piping components may be interposed between the connection part 12 and the cooling fluid pipe P. The cylinder 11 and the connection part 12 may be integrated, and may be separate. The material of the cylinder 11 may be synthetic resin or glass. In some cases, the cylinder 11 may be transparent or translucent only in the viewing direction. The cross section of the cylinder 11 is rectangular as shown, but may be a polygon other than circular or rectangular.

The rotary blade 20 is rotatably installed in the see-through tube 10 and rotates about an axis X perpendicular to the conduit by the flow of the cooling fluid. The rotary blade 20 is fixedly installed in the see-through tube 10 by the wing installation means to be described later.

Wipe means 40 is installed at the end of the rotary blade 20. The wiper means 40 is attached to the inner wall surface 11a of the see-through tube 10 as the rotary blade 20 is rotated about the axis X so that a scale or the like is attached to the inner wall surface 11a of the see-through tube 10. Will be prevented.

According to an embodiment of the present invention, the wiping means 40 is a sheet-like thin member made of a flexible material such as rubber. Wiping means 40 is provided with a fitting protrusion 41 is provided at one end to be fitted into the fitting groove 23 provided at the end of the rotary blade 20 as shown in FIG. A slit 24 is provided between the end of the rotary blade 20 and the fitting groove 23 to allow the cleaning piece 42 of the wiping means 40 to be fitted.

Referring to FIG. 5, the pin blade 22 is perforated in the transverse direction at the center of the rotor blade 20, and the unit blade 20a is composed of three. Each unit blade 20a of the rotary blade 20 has a pointed tip when viewed from the front as shown in FIG. 3. A pin 21 serving as the rotation shaft X is fitted into the pin hole 22, and both ends of the pin 21 are fitted into and fixed to the wing installation means described later. The number and shape of the unit wings 20a can be variously modified.

The wing installation means may include a fixing stand 30 fitted on the pipeline.

The fixing stand 30 is installed upstream of the pipeline to be perpendicular to the pipeline, the upstream side support 33 for providing a first fluid through-hole 35, and is installed downstream of the pipeline to be perpendicular to the pipeline, the second The downstream support 32, which provides the fluid passage hole 36, and the upstream support 33 and the downstream support 32, are installed in the center of the see-through tube 10, and the shaft hole 31 is provided. It may include a vertical axis 34 to be. 2 and 4, the side shape of the fixing stand 30 is similar to the (乙), but may be provided in various forms for easy fixing to the see-through tube (10). The vertical stem 34 is in contact with the inner wall surface of the see-through tube 10, and the shaft hole 31 is provided at positions opposite to each other of the vertical stem 34.

Fixture 30 may be fixed in a variety of ways inside the see-through body (10). For example, an adhesive may be used, it may be fixed by indentation, or a non-illustrated fixing member for fixing the holder 30 may be used. In any case, as shown in FIG. 2, the side surface 33a of the upstream support 33 and the side surface 32a of the downstream support 32 are supported by the inner wall surface 11a of the see-through tube 10, respectively.

According to the embodiment of the present invention, two rotary blades 20 are provided along the extending direction of the longitudinal stem 34. This is for example, so that even if one rotary blade 20 'is not rotated in any circumstances, the remaining rotary blade 20 "is rotated to grasp the flow of the cooling fluid.

Meanwhile, the first fluid through hole 35 and the second fluid through hole 36 may be formed in opposite directions with respect to the pipe as shown in FIG. 2. According to this, in the case where the cooling fluid flows from the bottom to the top, the cooling fluid passes while being guided in an S shape as indicated by the arrow. Therefore, since the cooling fluid acts the eccentric fluid pressure on the rotary blade 20, the rotary blade 20 is easily rotated. As shown, when two rotary blades 20 ', 20 "are installed between the upstream support 33 and the downstream support 32, the rotary blades 20' adjacent to the upstream side are moved in the counterclockwise direction and downstream. The rotary blade 20 "adjacent to the side can be rotated clockwise.

What has been described above are only a few examples based on the technical idea of the present invention. Those skilled in the art will be able to make various modifications using the examples as illustrated without departing from the scope of the technical spirit of the present invention as expressed through the claims. For example, the shape of the rotary blade 20 and the stator 30 may be variously changed to induce the flow of the cooling fluid or to improve the fixing.

10: perspective tube 11: body
12: connection part 20 (20 ', 20 "): rotary blade
21: pin 30: holder
31 pinhole 32 upstream support
33: downstream support 34: longitudinal axis
35, 36: first and second fluid passage 40: wiper means
41: fitting 42: small piece
P: Cooling fluid piping

Claims (4)

The cooling fluid of the mold is installed on the pipeline of the cooling fluid pipe (P) flowing through the connecting portion 12 for connecting to the cooling fluid pipe (P) is installed at both ends, the middle portion is a transparent or semi-transparent material of the cylinder A perspective tube (10) consisting of (11);
Rotating blades 20 are fixedly installed in the see-through tube 10 and rotated about an axis X perpendicular to the conduit by a flow of cooling fluid;
Wing installation means for allowing the rotary blade 20 is fixed to the perspective tube body 10;
Wipe means 40 which is installed at the end of the rotary blade 20 is in contact with the inner wall surface (11a) of the see-through tube 10 as the rotary blade 20 is rotated about the axis (X). ),
The wiping means 40 is made of a flexible material, characterized in that the sheet-like member is provided with a fitting protrusion 41 is provided at one end to be fitted into the fitting groove 23 provided at the end of the rotary blade 20. Cooling fluid checking device of mold.
delete The method of claim 1,
The wing installation means is installed on the upstream side of the conduit to be perpendicular to the conduit, the upstream side support 33 for providing a first fluid through hole 35, and to the downstream side of the conduit so as to be perpendicular to the conduit A shaft hole for being installed but connecting the downstream side support 32 and the upstream side support 33 and the downstream side support 32 to provide a second fluid passage hole 36 and to install the rotary blade 20 ( 31) is a cooling fluid check device of the mold, characterized in that the fixing base (30) comprising a longitudinal axis (34) is provided.
The method of claim 1,
The wing installation means is installed on the upstream side of the conduit to be perpendicular to the conduit, the upstream side support 33 for providing a first fluid through hole 35, and to the downstream side of the conduit so as to be perpendicular to the conduit A shaft hole for being installed but connecting the downstream side support 32 and the upstream side support 33 and the downstream side support 32 to provide a second fluid passage hole 36 and to install the rotary blade 20 ( 31 is a fixing base 30 including a vertical axis 34 is provided,
Two rotary blades 20 are installed along the vertical shaft 34, and the first fluid passage hole 35 and the second fluid passage hole 36 pass through the cooling fluid in the form of S. Cooling fluid check apparatus of the mold, characterized in that formed in the opposite direction with respect to the center as possible.

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