JP2017049191A - Pin with pressure sensor and molding apparatus - Google Patents

Pin with pressure sensor and molding apparatus Download PDF

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Publication number
JP2017049191A
JP2017049191A JP2015174258A JP2015174258A JP2017049191A JP 2017049191 A JP2017049191 A JP 2017049191A JP 2015174258 A JP2015174258 A JP 2015174258A JP 2015174258 A JP2015174258 A JP 2015174258A JP 2017049191 A JP2017049191 A JP 2017049191A
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Prior art keywords
pin
pressure sensor
pressure
brim
flange
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JP2015174258A
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JP6184452B2 (en
Inventor
康弘 野原
Yasuhiro Nohara
康弘 野原
綾一郎 早野
Ryoichiro Hayano
綾一郎 早野
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双葉電子工業株式会社
Futaba Corp
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Abstract

PROBLEM TO BE SOLVED: To provide a pin with a pressure sensor capable of detecting pressure of fluid resin and melted metal filled in the molding section of a mold without variations and for which neither high assembling accuracy nor high process tolerance is required.SOLUTION: A pin l with a pressure sensor includes a rod-like section 2, a flange section 3, and a pressure detection element 4. The terminal section 2b of the rod-like section 2, a flange section first member 3a, and a flange section side face member 3c are integrally provided. The pressure detection element 4 is provided in a range capable of detecting pressure with maximum sensitivity.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a pin with a pressure sensor for detecting the pressure of a fluid resin or a melted resin filled in a molding part in a mold of a molding apparatus, for example.

  There is a pin with a pressure sensor incorporated in the mold in order to detect the pressure of the fluid resin or dissolved resin filled in the molding part in the mold, as described in Patent Document 1 and Patent Document 2 A pin with a pressure sensor is known.

JP-A 63-068254 JP-A-10-076554

  FIG. 8 is a cross-sectional view of a pin with a pressure sensor described in Patent Document 1. A pin 100 with a pressure sensor described in Patent Document 1 is provided with a hollow hole 102 in a fixed portion 101 and a plurality of strain gauges 104 on a cylindrical inner wall 103. The fixed portion 101 is integrated with the rod-shaped portion 105, and the fixed portion 101 also serves as a casing for the flange portion.

  FIG. 9 is a cross-sectional view of a pin with a pressure sensor described in Patent Document 2. The pin 200 with a pressure sensor described in Patent Document 2 is provided with a flange portion 203 at the end portion 202 of the rod-shaped portion 201, and the flange portion 203 includes a first casing 204, a second casing 205, and a third casing. Covered by the body 206. The strain gauge 207 is provided on the flange 203 so as to face the third housing 206.

The pin with a pressure sensor described in Patent Document 1 and Patent Document 2 is provided in a molding part in a mold of a molding apparatus, and detects the pressure of a fluid resin or a molten metal filled in the part, thereby preventing inconvenience. It is possible to automatically identify non-defective products and grasp the state in the mold. If there is a variation in the detected value, it becomes impossible to automatically determine the defective product and to grasp the state in the mold.

  However, the pin 100 with a pressure sensor described in Patent Document 1 has a problem that an accurate pressure cannot be detected unless a plurality of strain gauges 104 are provided. Further, since the pressure is detected by the plurality of strain gauges 104, there is a problem that the detection value varies depending on the direction of the pressure applied to the rod-shaped portion 105.

Further, there is a problem that the detection values vary if the plurality of strain gauges 104 are not provided evenly in the circumference. Further, providing a plurality of strain gauges 104 and providing them uniformly in a circumferential shape on the cylindrical inner wall 103 requires high assembly accuracy.

  Further, the pressure sensor-equipped pin 200 described in Patent Document 2 has various problems depending on the dimensional tolerance of the clearance 208 between the first housing 204 and the rod-shaped portion 201. For example, if the clearance 208 between the first housing 204 and the rod-shaped portion 201 is too narrow, sliding resistance is generated. As a result, there is a problem that variations in detection values occur. There is also a problem that the life of the pin 200 with the pressure sensor is shortened due to wear of the first housing 204 and the rod-shaped portion 201 due to sliding resistance.

On the other hand, if the clearance 208 between the first housing 204 and the rod-shaped portion 201 is too wide, there is a problem that foreign matter enters the housing from the clearance 208. There is also a problem that the pressure cannot be detected when gas generated in the mold enters from the clearance 208 and the strain gauge 207 is eroded.

Furthermore, high machining accuracy is required for the clearance 208 between the rod-shaped portion 201 and the first housing 204 to be within a certain value.

  Therefore, the present invention solves the above problems, can detect the pressure of the fluid resin and molten metal filled in the molding part in the mold without variation, and has high assembly accuracy and high processing accuracy. An object is to provide a pin with a pressure sensor which is not required.

  The pin with a pressure sensor according to claim 1 includes a rod-shaped portion, a flange portion, and a pressure detection element, and the flange portion includes a flange-portion first member provided integrally with an end portion of the rod-shaped portion, and the flange. A brim part side member extending in the opposite direction to the rod-like part along the outer periphery of the first part member, and a brim part in contact with the inner surface of the brim part side member and provided substantially parallel to the first brim part member The second member, the pressure detecting element is provided on the side opposite to the side where the rod-shaped portion of the collar portion first member is provided, and receives pressure at the tip of the rod-shaped portion, An electrical signal corresponding to the pressure is output.

The pin with a pressure sensor according to claim 2 is the pin with a pressure sensor according to claim 1, wherein the pressure detection element is a strain gauge, and is provided in a range in which the amount of strain of the brim portion first member is the largest. Features.

The pin with a pressure sensor according to claim 3 is the pin with a pressure sensor according to claim 1, wherein the pressure detection element is a piezoelectric element, and is provided in a range where the deflection of the first flange member is large. And

The pin with a pressure sensor according to claim 4 is characterized in that, in the pin with a pressure sensor according to any one of claims 1 to 3, the center of the rod-shaped portion is coincident with the center of the pressure detection element. To do.

The pin with a pressure sensor according to claim 5 is the pin with a pressure sensor according to any one of claims 1 to 4, wherein the brim portion second member is made of a plate-like member, and is bonded to the side surface of the brim portion. It is characterized in that it is bonded with an adhesive resin.

The pin with a pressure sensor according to claim 6 is the pin with a pressure sensor according to any one of claims 1 to 5, wherein the flange side member is provided with a groove for fitting the flange second member. It is characterized by being.

The pin with a pressure sensor according to claim 7 is the pin with a pressure sensor according to any one of claims 1 to 6, wherein the brim portion has an accommodation area, and the accommodation area is filled with resin. It is characterized by having.

A metal mold according to an eighth aspect is characterized in that the pin with a pressure sensor according to any one of the first to seventh aspects is incorporated.

A molding apparatus according to a ninth aspect is characterized in that the mold according to the eighth aspect is incorporated.

  According to the present invention, it is possible to provide a pin with a pressure sensor that does not require high assembly accuracy and high processing accuracy. In addition, since the pressure detection element is provided in a range where the distortion amount and the deflection amount of the flange portion first member are the largest, an accurate pressure can be detected. Furthermore, since there is no influence due to dimensional tolerance, the pressure can be detected without variation.

It is explanatory drawing which showed the metal mold | die in which embodiment of this invention was integrated. It is explanatory drawing which showed the external appearance of the pin with a pressure sensor which concerns on this invention. It is sectional drawing of the pin with a pressure sensor at the time of cut | disconnecting by the plane containing the continuous line AA which passes along the center of the pin with a pressure sensor which concerns on this invention. It is sectional drawing in the other Example of the pin with a pressure sensor which concerns on this invention. It is explanatory drawing which showed the substantially spoke-wheel-shaped strain gauge which concerns on this invention. It is explanatory drawing shown about the range which provides the substantially spoke-wheel-shaped strain gauge which concerns on this invention. It is explanatory drawing shown about the range which provides the piezoelectric element which concerns on this invention. It is sectional drawing of the pin with a pressure sensor described in patent document 1. FIG. It is sectional drawing of the pin with a pressure sensor described in patent document 2. FIG.

  Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to the drawings. It should be noted that the present invention is not limited by the mode for carrying out the invention, and all other modes, examples, operational techniques, etc. that can be implemented by those skilled in the art based on this mode are all within the scope of the present invention. included.

Initially, the metal mold | die in which the pin with a pressure sensor of this invention is integrated is demonstrated. This mold is attached to a molding apparatus that obtains a molded product by injecting a fluid resin or molten metal that has been heated and melted into the mold, and cooling and solidifying the mold.

As shown in FIG. 1, the mold 10 includes a fixed side mounting plate 20 attached to a fixed side holder of a molding apparatus (not shown) and a movable side mounting plate 30 attached to a movable side holder of a molding apparatus (not shown). have. A fixed-side mold plate 22 having a female cavity 21 is attached to the fixed-side mounting plate 20. A movable mold plate 32 having a male core 31 is mounted on the movable mounting plate 30 via a spacer block 33.

A space provided by the cavity 21 and the core 31 is the molding part 11. The shape of the molded part is determined by the shape of the molded part 11.

The mold 10 can be divided between the fixed side mold plate 22 and the movable side mold plate 32. In accordance with the movement of a movable side holder of a molding apparatus (not shown), the movable side mold plate 32 is moved relative to the fixed side mold plate 22 along a direction perpendicular to the plate surface, whereby the fixed side mold plate 22 and the movable side mold are moved. The plate 32 is opened and closed.

The fixed-side mounting plate 20 is provided with a sprue 23 serving as a path for injecting molten resin into a mold from a nozzle of a cylinder of a molding apparatus (not shown). The melted resin passes through the sprue 23 and fills the molding part 11 between the cavity 21 and the core 31 to form a molded product.

An ejector plate 12 is provided on the movable mounting plate 32. The ejector plate 12 incorporates a pin 1 with a pressure sensor that protrudes from the core 31 and protrudes out of the mold, protruding from the core 31 when the mold 10 is opened.

  In addition, although the example in which the pin 1 with the pressure sensor is incorporated in the ejector plate 12 has been described, the place where the pin 1 with the pressure sensor is incorporated is not limited to this form. For example, the pin 1 with the pressure sensor may be directly incorporated into the fixed side mold plate 22 or the movable side mold plate 32. In that case, the pin 1 with the pressure sensor may not have a function of sticking the molded product formed in the molding part 11 out of the mold.

The pin 1 with a pressure sensor is demonstrated using FIG. 2 and FIG. FIG. 2 is an external view of the pin 1 with pressure sensor. FIG. 3 is a cross-sectional view of the pressure sensor pin 1 when cut along a plane including a solid line AA passing through the center of the pressure sensor pin 1 of FIG.

  As shown in FIG. 3, the pin 1 with a pressure sensor has a rod-like portion 2 whose tip portion 2 a comes into contact with a molded product formed on the molded portion 11, and a flange integrally provided with the end portion 2 b of the rod-like portion 2. The unit 3 and the pressure detection element 4 are included. By receiving pressure at the tip 2a of the rod-like portion 2, an electrical signal corresponding to the pressure is output.

  The material of the rod-shaped part 2 and the collar part 3 is a metal material such as SKH51. This material is selected from the viewpoints of wear resistance, toughness, resistance to thermal shock or thermal fatigue.

The material of the rod-like portion 2 and the flange portion 3 only needs to satisfy the above-mentioned viewpoint, and other high-speed or metal tool ore (for example, SKD61) can also be used.

  The flange portion 3 includes a flange portion first member 3a provided integrally with the end portion 2b of the rod-shaped portion 2, and a flange portion extending in the opposite direction to the rod-shaped portion 2 along the outer periphery of the flange portion first member 3a. It is comprised from the side part 3c and the collar part 2nd member 3b provided in contact with the inner surface of the collar part side surface member 3c, and substantially parallel to the collar part 1st member 3a.

  The brim part 3 composed of the brim part first member 3a, the brim part second member 3b, and the brim part side surface member 3c has an accommodation area. Further, the inner diameter 3 w of the brim portion 3 is larger than the outer diameter 2 w of the rod-like portion 2.

Moreover, the collar part 1st member 3a and the collar part side surface member 3c are provided integrally. That is, the rod-shaped portion 2, the flange portion first member 3a, and the flange portion side surface member 3c are integrally provided.

  The brim part second member 3 b is a plate-like member, and is bonded to the brim part side member 3 c by an adhesive resin 5 to seal the brim part 3.

The adhesive resin 5 only needs to be able to bond the brim portion second member 3b to the brim portion side surface member 3c, and desirably, a material such as a silicone-based adhesive or an epoxy-based adhesive having a high heat resistance temperature can be used.

  The brim part second member 3b may be made of the same material as the brim part first member 3a or the brim part side member 3c, or may be made of a different material. As the different material, it is sufficient that the brim portion 3 can be sealed. Desirably, a metal material such as stainless steel (for example, SUS303), a resin material having a heat resistance near 200 ° C., or a peak material including a glass reinforcing material is used. be able to.

  In addition, although the example of the shape of the collar part 3 was demonstrated, the shape of the collar part 3 is not limited. For example, as shown in FIG. 4, the flange portion side surface member 3 c may be provided with a groove 6 of the flange portion side surface member 3 c for fitting the flange portion second member 3 b. The brim part second member 3b can be firmly bonded by providing the brim part side member 3c with the groove 6 of the brim part side member 3c on which the brim part second member 3b is provided.

Moreover, although the example of how to provide the adhesive resin 5 has been described, the brim portion 3 having an accommodation region may be filled with resin. By filling the flange portion 3 with resin, the pressure detection element 4 can be protected from erosion by foreign matter or gas.

This resin may be an adhesive resin 5 for bonding the brim part second member 3b and the brim part side member 3c, or may be a different resin. As a different material, it is sufficient that the brim portion 3 can be filled. Desirably, a flexible material such as a silicone resin or a urethane resin can be used.

  The pressure detection element 4 is provided on the side opposite to the side where the rod-like part 2 of the brim part first member 3a is provided. As one embodiment, the pressure detection element 4 will be described using a substantially spoke wheel-shaped strain gauge 4a as shown in FIG. The substantially spoke-wheel-shaped strain gauge 4a has a substantially spoke-wheel shape in which ends of a plurality of radially arranged sensor portions are connected by an arc so that the whole is drawn with a single stroke. FIG. 5 is a view of the pressure sensor-equipped pin 1 of FIG.

  When pressure is applied to the distal end portion 2 a of the rod-shaped portion 2 that comes into contact with the molded portion 11, the pressure is transmitted to the brim portion first member 3 a via the rod-shaped portion 2. When the pressure is transmitted, the brim portion first member 3a bends. The amount of strain when the brim portion first member 3a is bent is output as an electric signal corresponding to the pressure by the strain gauge 4a having a substantially spoke wheel shape.

The electric signal is led to a control device (not shown) outside the mold 1. In that case, the lead wire (not shown) of the substantially spoke wheel-shaped strain gauge 4a is led to the outside through a through hole (not shown) provided in the flange side surface 3c. And a pressure can be detected by converting into a pressure by the control apparatus which is not shown in figure.

  If the brim portion first member 3a is too thick, the brim portion first member 3a reaches the yield point and plastically deforms beyond the elastic limit. On the contrary, when the brim portion first member 3a is not bent, the substantially spoke wheel-shaped strain gauge 4a cannot detect pressure. The thickness is preferably such that the maximum strain of the brim portion first member 3a is 10 to 30 μm due to the pressure received by the tip 2a of the rod-like portion 2 during molding. Moreover, the thickness which the collar part 1st member 3a does not plastically deform is preferable.

  As shown in FIG. 6, the strain gauge 4a is provided so that the center 2c of the rod-shaped portion 2 and the center 4c of the substantially spoke wheel-shaped strain gauge 4a coincide. That is, the center 4c of the substantially spoke wheel-shaped strain gauge 4a shown in FIG. 5 coincides with the center 2c of the rod-like portion 2 shown by a one-dot chain line in FIG. When the center 2c of the rod-like portion 2 and the center 4c of the substantially spoke-wheel-shaped strain gauge 4a coincide with each other, pressure is evenly transmitted to the substantially spoke-wheel-like strain gauge 4a via the rod-like portion 2, and the detection value varies. Will not occur.

The substantially spoke-wheel-shaped strain gauge 4a is provided in a range where the amount of strain of the brim portion first member 3a is the largest. The range in which the amount of strain is large refers to a range surrounded by the outer diameter 2 w of the rod-shaped portion 2 and the inner diameter 3 w of the flange portion 3. Preferably, the strain gauge installation portion 7 is indicated by the hatched portion in FIG. The strain gauge installation portion 7 is in a range slightly outside the outer diameter 2 w with respect to the center 2 c of the rod-shaped portion 2 and slightly inside the inner diameter 3 w of the flange portion 3. By providing the substantially spoke-wheel-shaped strain gauge 4a in the range where the amount of strain of the brim portion first member 3a is the largest, the pressure can be detected with maximum sensitivity.

  Although an example of the pressure detection element 4 has been described, the pressure detection element 4 is not limited. For example, a strain gauge or a piezoelectric element having another shape may be used as the pressure detection element 4. As other shape strain gauges, rectangular strain gauges and circumferential strain gauges can be used.

The case where the piezoelectric element 8 is used as the pressure detection element 4 will be described with reference to FIG. The piezoelectric element 8 is provided in a state sandwiched between the brim part first member 3a and the brim part first member 3b. The range in which the piezoelectric element 8 is provided is provided in a range in which the deflection amount of the flange first member 3a is the largest. The range in which the amount of deflection is large is inside the inner diameter 3w of the flange portion 3. Preferably, the piezoelectric element installation portion 9 is indicated by the hatched portion in FIG. The piezoelectric element installation portion 9 is in a range that substantially matches the outer diameter 2 w of the rod-like portion 2. By providing the piezoelectric element 8 in a range where the deflection of the brim portion first member 3a is the largest, the pressure can be detected with maximum sensitivity.

In addition, the piezoelectric element 8 is provided so that the rod-like portion 2 and the center 8c of the piezoelectric element 8 coincide. By matching the center 2c of the rod-shaped portion 2 and the center 8c of the piezoelectric element 8, pressure is evenly transmitted to the piezoelectric element 8 through the rod-shaped portion 2, and the detection value does not vary.

According to the pin with the pressure sensor described above, the pressure of the fluid resin or the molten metal filled in the molding part in the mold is a pin with a pressure sensor that does not require high assembly accuracy and high processing accuracy. Detection is possible without variation.

DESCRIPTION OF SYMBOLS 1 Pressure sensor pin 2 Rod-shaped part 2a Rod-shaped tip part 2b Rod-shaped end part 2c Rod-shaped part center 2w Rod-shaped part outer diameter 3 Collar part 3a Collar part first surface 3b Collar part second surface 3c Collar part side surface 3w Inner diameter of flange part 4 Pressure detecting element 4a Strain wheel-like strain gauge 4c Center of substantially spoke wheel-like strain gauge 5 Adhesive resin 6 Groove on side of flange part 7 Strain gauge installation part 8 Piezoelectric element 8c Piezoelectric element Center 9 of piezoelectric element 10 Mold 11 Molding part 12 Ejector plate 20 Fixed side mounting plate 21 Cavity 22 Fixed side mold plate 23 Spru 30 Movable side mounting plate 31 Core 32 Movable side mold plate 33 Spacer block

Claims (9)

  1. It consists of a rod-shaped part, a flange part, and a pressure detection element.
    The brim part includes a brim part first member provided integrally with a terminal part of the bar part, and a brim part side surface member extending in an opposite direction to the bar part along the outer periphery of the brim part first member. And a flange portion second member provided in contact with the inner surface of the flange portion side surface member and substantially parallel to the flange portion first member,
    The pressure detection element is provided on the side opposite to the side on which the rod-like portion of the brim portion first member is provided,
    A pin with a pressure sensor, wherein an electric signal corresponding to the pressure is output by receiving pressure at a tip of the rod-shaped portion.
  2.   2. The pin with a pressure sensor according to claim 1, wherein the pressure detecting element is a strain gauge, and is provided in a range where the amount of strain of the brim portion first member is the largest.
  3.   The pressure sensor pin according to claim 1, wherein the pressure detection element is a piezoelectric element, and is provided in a range where the deflection amount of the first flange member is the largest.
  4.   The pin with a pressure sensor according to any one of claims 1 to 3, wherein the center of the rod-shaped portion is coincident with the center of the pressure detection element.
  5. The brim second member is made of a plate-shaped member,
    The pin with a pressure sensor according to any one of claims 1 to 4, wherein the pin is attached to the flange side surface member with an adhesive resin.
  6.   The pressure sensor pin according to any one of claims 1 to 5, wherein the flange side surface member is provided with a groove for fitting the flange second member.
  7.   The pressure sensor pin according to any one of claims 1 to 6, wherein the brim portion has an accommodation area, and the accommodation area is filled with resin.
  8.   A die having the pressure sensor pin according to any one of claims 1 to 7 incorporated therein.
  9. A molding apparatus in which the mold according to claim 8 is incorporated.
JP2015174258A 2015-09-04 2015-09-04 Pin with pressure sensor and molding device Active JP6184452B2 (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2019158339A1 (en) * 2018-02-13 2019-08-22 Kistler Holding Ag Pressure sensor

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4735760A (en) * 1985-01-24 1988-04-05 Toshiba Kikai Kabushiki Kaisha Method and apparatus for controlling injection step of injection molding machines
JP3045078B2 (en) * 1996-09-04 2000-05-22 双葉電子工業株式会社 Ejector pin with pressure sensor
JP3937525B2 (en) * 1997-09-10 2007-06-27 双葉電子工業株式会社 Ejector pin with pressure sensor
JP4028785B2 (en) * 2002-11-05 2007-12-26 株式会社タニタ Load detection unit and electronic scale using the same

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4735760A (en) * 1985-01-24 1988-04-05 Toshiba Kikai Kabushiki Kaisha Method and apparatus for controlling injection step of injection molding machines
JP3045078B2 (en) * 1996-09-04 2000-05-22 双葉電子工業株式会社 Ejector pin with pressure sensor
JP3937525B2 (en) * 1997-09-10 2007-06-27 双葉電子工業株式会社 Ejector pin with pressure sensor
JP4028785B2 (en) * 2002-11-05 2007-12-26 株式会社タニタ Load detection unit and electronic scale using the same

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2019158339A1 (en) * 2018-02-13 2019-08-22 Kistler Holding Ag Pressure sensor

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