KR20160037564A - Sensor fixing apparatus using magnetic - Google Patents

Abstract

The present invention relates to a sensor fixing apparatus using a magnet. The sensor fixing apparatus using a magnet according to an embodiment of the present invention comprises a sensor rod inserted into an insertion groove of a mold to detect the temperature; an adhesion part having the sensor rod penetrating the center, and having one side coupled with the mold by a magnetic force; an elastic part located on the outer side of the sensor rod, and connected to the adhesion part to be transformed according to movement of the adhesion part; and a fixing part located on the outer side of the elastic part, and fixing the other side of the elastic part. An additional structure like a bracket is not needed to be installed on an object such a mold or the like by a structure attached to the mold by a magnetic force.

Description

SENSOR FIXING APPARATUS USING MAGNETIC BACKGROUND OF THE INVENTION [0001]

TECHNICAL FIELD [0001] The present invention relates to a sensor fixing apparatus using a magnet, and more particularly, to a sensor fixing apparatus for fixing a sensor by magnetic force.

Injection molding technology is an important factor in the quality of injection mold products. That is, the quality of the injection-molded article may vary depending on the temperature of the injection mold. In order to control the temperature of the injection mold at a constant level, it is necessary to attach a sensor for sensing the temperature of the injection mold to the mold to sense the temperature in real time. Depending on the size and type of the mold, the point at which the mold temperature is measured may vary, and the number of sensors used may vary.

[0002] Regardless of the size or type of a mold, a lower adapter and a fixture (not shown) are used for a temperature sensor, The present invention relates to a structure for attaching a temperature sensor of an injection mold to be mounted on a mold having different sizes and shapes as well as being easy to attach and install by allowing the length of the sensor to be adjusted by inserting the sensor into the mold by the fixed cap. Is improved.

However, in the conventional technique described above, a structure in which an adapter is inserted into an insertion hole formed in a mold to insert the sensor is used. Such a structure brings about a secondary deformation in the mold, and there is a problem that attachment and detachment to and from a mold becomes troublesome in that it has to have an additional structure called an adapter. Further, there is a problem that the accuracy of the temperature of the metal mold detected by the sensor is lowered by the adapter.

SUMMARY OF THE INVENTION The present invention provides a sensor fixing device using a magnet that can be easily attached and detached without providing a separate structure such as a bracket in a mold or the like and can improve the accuracy of the sensor and fix the position of the sensor .

A sensor fixing device using a magnet according to an embodiment of the present invention includes a sensor bar inserted into a mold insertion groove to sense a temperature, an attachment portion passing through the sensor rod at a center thereof and having one side engaged with the mold by magnetic force, An elastic part disposed on the outer side of the sensor rod and having one side connected to the attachment part and deformed according to the movement of the attachment part and a fixing part located outside the elastic part and fixing the other side of the elastic part.

The attachment unit may include a magnetic body formed in a cylindrical shape and passing through the sensor rod therein; And a body portion in which a receiving groove for receiving the magnetic body is formed and in which a through hole penetrating the sensor rod is formed, wherein the elastic portion has one side larger than the outside diameter of the through hole and the other side smaller than the outside diameter of the through hole As shown in FIG.

The fixing part may include a nut part located on the outer side of the elastic part and a bolt part inserted into the side surface of the nut part and closely fixing the elastic part to the sensor rod to fix the elastic part .

Accordingly, a structure such as a separate bracket may not be provided to the mold through the structure attached to the mold by the magnetic force. In addition, detachment and attachment are facilitated by the magnetic force, and the accuracy of the sensor can be improved. In addition, the length can be adjusted, and the position of the sensor can be changed.

1 is a configuration diagram of a sensor fixing device using a magnet according to an embodiment of the present invention;
Fig. 2 is an exploded perspective view of the sensor fixing device using the magnet shown in Fig. 1,
FIGS. 3A and 3B are cross-sectional side views of a sensor fixing device using the magnet shown in FIG. 1;
FIGS. 4A and 4B are views for explaining how the sensor fixing device using the magnet according to FIG. 1 is attached to a mold.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The terms used are terms selected in consideration of the functions in the embodiments, and the meaning of the terms may vary depending on the user, the intention or the precedent of the operator, and the like. Therefore, the meaning of the terms used in the following embodiments is defined according to the definition when specifically defined in this specification, and unless otherwise defined, it should be interpreted in a sense generally recognized by those skilled in the art.

FIG. 1 is a configuration diagram of a sensor fixing apparatus using a magnet according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view of a sensor fixing apparatus using the magnet according to FIG.

1 and 2, a sensor fixing device 100 using a magnet according to an embodiment of the present invention includes a sensor rod 110, an attachment portion 120, an elastic portion 130, and a fixing portion 140 .

The sensor rod 110 is formed in the shape of a rod in the longitudinal direction and inserted into the insertion groove of the skin complex such as a mold to sense the temperature. For example, the sensor rod 110 senses a temperature change by detecting a change in resistance of electricity supplied through the sensing line 115 according to the temperature of the metal mold. The sensor rod 110 is inserted into the insertion groove formed in the mold, and in this case, the mold may be a general injection mold. Further, a plurality of insertion grooves may be formed in one mold. After the sensor rod 110 is inserted and the predetermined time has elapsed, temperature information can be confirmed through an external temperature measuring device (not shown) connected to the sensor rod 110.

The attaching portion 120 is attached to the mold so as to support the sensor rod 110 so as not to be detached from the mold. Since the conventional attaching portion 120 has a structure in which a bracket is attached to a mold, the design of the mold is complicated and it is difficult to install the mold on an existing mold. The sensor rod 110 passes through the center of the attachment part 120, and one side of the sensor rod 120 is coupled to the mold by a magnetic force. That is, the attachment part 120 can support the sensor rod 110 without additional brackets by being coupled to the mold by the magnetic force in a state where the sensor rod 110 is inserted into the metal mold.

More specifically, the attachment portion 120 includes a magnetic body 125 and a main body portion 121. [ The magnetic body 125 is formed in a cylindrical shape and the sensor rod 110 passes through the magnetic body 125. The magnetic body 125 serves to attach the attachment portion 120 to the metal mold by a metal mold and a magnetic force. In this case, the magnetic substance 125 may be a general magnet or an electromagnet. When the electromagnet is used as the magnetic body 125, the magnetic body 125 is attached to the mold when the DC power is supplied to the magnetic body 125. When the DC power is shut off, the magnetic body 125 is removed from the mold, have.

The body portion 121 is formed of a metal component, and accommodates the magnetic body 125 therein, and fixes the elastic portion 130, which will be described later, on one side. That is, the main body 121 has a receiving groove 122 for receiving the magnetic body 125 therein. In the receiving groove 122, a magnetic body 125 is accommodated, and a through hole is formed through the sensor rod 110 on the bottom surface. In this case, one side of the elastic portion 130 is accommodated between the bottom surface and the spaced space in a state where the magnetic substance 125 is accommodated in the receiving groove 122. One side of the elastic part 130 is formed so as to have a larger outer diameter than the through hole and can not escape from the through hole and is accommodated in the main body part 121.

The elastic part 130 is located on the outer side of the sensor rod 110 in a spring shape and one side of the elastic part 130 is connected to the attachment part 120 and deformed according to the movement of the attachment part 120. For example, the elastic portion 130 may be formed so that one side thereof is larger than the outer diameter of the through-hole formed in the main body 121, and the other side thereof is smaller than the outer diameter of the through-hole. That is, when one side of the elastic part 130 is accommodated in the main body part 121, the magnetic body 125 moves and attaches to the mold by the magnetic force, so that an external force acts on the elastic part 130. The other side of the elastic part 130 is tightly fixed to the outside of the sensor rod 110 by the fixing part 140 described later. Therefore, when the attachment part 120 moves to the mold side, the elastic part 130 is extended. When the attachment part 120 is separated from the mold, the elastic part 130 is restored to its original position. Accordingly, the sensor rod 110 can be touched with a skin complex such as a mold to improve the detection accuracy.

The fixing portion 140 is located on the outer side of the elastic portion 130 to fix the other side of the elastic portion 130. More specifically, it includes a nut portion 141 and a bolt portion 142. The nut portion 141 is located on the outer side of the elastic portion 130 and has a hole through which the bolt portion 142 described later can be inserted. The bolt portion 142 is inserted into the side surface of the nut portion 141 to securely fix the elastic portion 130 to the sensor rod 110. This is for adjusting the length of the sensor rod 110 exposed to the outside according to the depth of the insertion groove formed in the mold. The length of the sensor rod 110 exposed to the outside can be changed according to user setting.

The mold temperature sensor 100 attached by magnetic force has a configuration in which one side of the elastic part 130 is fixed between the magnetic body 125 of the attachment part 120 and the main body part 121, And the sensor rod 110 connected to the sensing line 115 is inserted into the elastic portion 130 and exposed to the outside of the attachment portion 120 to be assembled.

Meanwhile, the mold temperature sensor 100 attached by a magnetic force according to another embodiment of the present invention may further include a handle 150. The grip portion 150 is formed to extend from the attachment portion 120 so that the user can easily attach and detach the attachment portion 120. The grip portion 150 may be integrally formed with the attachment portion 120 or may be formed in a detachable manner. The handle 150 may be pierced inward to allow the sensor rod 110 to pass therethrough.

FIGS. 3A and 3B are cross-sectional side views of a sensor fixing device using the magnet according to FIG. 1;

3A, one side of the elastic part 130 is fixed by the bottom surface of the main body part 121 of the attachment part 120 and the other side is fixed to the nut part 141 of the fixing part 140 and the bolt part 142 to the outer side of the sensor rod 110 and fixed thereto. In this case, the magnetic body 125 is accommodated in the upper receiving groove 122 opened in the main body 121 to close the inner space, and a through hole 123 is formed in the bottom surface of the main body 121. One side of the elastic part 130 moves and extends together with the attachment part 120 when the magnetic body 125 moves to the mold side and is attached. Further, the elastic portion 130 is restored to its original position by the restoring force when the attachment portion 120 is detached from the mold.

Referring to FIG. 3B, the basic structure is the same as FIG. 3A, but shows a case where the magnetic body 125 is implemented by an electromagnet. When the magnetic body 125 is formed of an electromagnet, a power line 116 for supplying DC power to the magnetic body 125 may be additionally formed in addition to the sensing line 115 connected to the sensor rod 110. The power line 116 may be connected to the electromagnet through the inner space of the elastic portion 130. In this case, it is preferable that the power source line 116 is formed to have a sufficient length so that the power source line 116 is not separated from the magnetic body 125 as the attachment portion 120 moves along the sensor rod 110.

When the DC power is supplied to the magnetic body 125 through the power line 116, the magnetic body 125 of the attaching portion 120 is attached to the mold side by the magnetic force. When the DC power is shut off, the attaching portion 120 is separated from the mold And is restored to the original position. In this case, it is preferable that the distance between the mold and the attaching portion 120 is such that the distance between the mold and the attaching portion 120 can be increased by the magnetic force when the sensor rod 110 is inserted into the insertion groove of the mold. It is also possible to move the attachment portion 120 to the mold side using the grip portion 150. [

FIGS. 4A and 4B are views for explaining how the sensor fixing device using the magnet according to FIG. 1 is attached to a mold.

4A shows a state in which the sensor rod 110 of the mold temperature sensor 100 is inserted into the insertion hole 11 of the mold 10. Between the attachment portion 120 and the mold 10, And is spaced at a predetermined distance. In this case, the distance between the attaching portion 120 and the mold 10 can be adjusted by the fixing portion 140. [ In this case, when the attaching portion 120 is moved toward the mold 10 by using the grip portion 150, the attaching portion 120 is attached to the mold 10 by the magnetic force while the elastic portion 130 is extended. In this case, it is preferable that the magnetic force applied to the mold 10 by the attaching portion 120 is formed larger than the restoring force of the elastic portion 130.

4B, the attachment part 120 is moved toward the mold 10 using the handle 150 of the mold temperature sensor 100 so that the attachment part 120 is attached to the mold 10 by the magnetic force . The magnetic force of the attachment part 120 is set to be larger than the restoration of the elastic part 130 and the attachment part 120 is not separated from the mold 10 without depending on external force. In this case, the sensor rod 110 can be held in the state of being inserted into the attachment portion 120 without providing a separate bracket structure in the mold 10. In this case, when the user moves the grip part 150 in the direction away from the mold 10, the attachment part 120 is separated from the mold 10, and the attachment part 120 is moved by the restoring force of the elastic part 130 And returns to the position shown in FIG. 4A.

As described above, the sensor fixing device using the magnet according to the embodiment of the present invention can fix the sensor by closely contacting the inside and the outside of the skin complex such as a mold through the structure attached to the mold by the magnetic force. In addition, detachment and attachment to skin complexes such as molds are facilitated by the magnetic force, and the degree of contact between the sensor and the contact point is improved, thereby improving the accuracy. In addition, the length can be adjusted so that the depth of the sensor can be changed according to the mold. In addition, a sensor used in a conventional metallic machine can be used in place of the sensor.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, Therefore, the present invention should be construed as a description of the claims which are intended to cover obvious variations that can be derived from the described embodiments.

100: Sensor fixing device 110: Sensor rod
115: sense line 116: power line
120: attachment part 121:
122: receiving groove 123: through hole
125: magnetic body 130:
140: fixing part 141: nut part
142: bolt part 150: handle part

Claims (3)

A sensor rod inserted into a mold insertion groove to sense temperature;
An attachment part through which the sensor rod penetrates at the center, and one side of which is engaged with the mold by a magnetic force;
An elastic part located on the outer side of the sensor rod and having one side connected to the attachment part and deformed according to the movement of the attachment part; And
And a fixing part which is located outside the elastic part and fixes the other side of the elastic part. The method according to claim 1,
The attachment portion
A magnetic body formed in a cylindrical shape and passing through the sensor rod therein; And
And a body portion in which a receiving groove for receiving the magnetic body is formed and in which a through hole penetrating the sensor rod is formed,
The elastic portion
Wherein one side of the through hole is larger than an outer diameter of the through hole and the other side of the through hole is smaller than an outer diameter of the through hole. The method according to claim 1,
Further comprising a grip portion connected to the attachment portion,
The fixed portion
And a bolt portion inserted into the side surface of the nut portion and closely contacting the elastic portion with the sensor rod to fix the sensor portion.

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