KR20130029465A - Measuring device made of synthetic resin for inserting metal nut - Google Patents

Abstract

PURPOSE: An apparatus for measuring a metal nut insert of a synthetic resin product is provided to accurately measure whether or not a metal nut is embedded in a precise depth according to the design. CONSTITUTION: An apparatus for measuring a metal nut insert of a synthetic resin product comprises an upper body(3), an intermediate body(4), a lower body(5), a product supporting part(6), a lower spring, a nut supporting part(7), and an upper spring. The upper body is fixed and installed on the top of an upper plate of a table. The intermediate body is elastically supported by the bottom of the upper body to be separated. The product supporting part is slidingly inserted in a hollow part of the upper body. The upper end of the product supporting part is protruded higher than the upper end of the upper body, and the lower end thereof is fixed on the intermediate body by a key bolt. The upper end of the lower spring elastically supports the product supporting part in a state where the lower end of the lower spring is elastically supported on the top of the intermediate body. The nut supporting part comprises a slide support part and a lot.

Description

Measuring device made of synthetic resin for inserting metal nut

The present invention relates to a metal nut insert measuring fixture of a synthetic resin product, and more particularly, whether a metal nut embedded in a nut insert hole formed in a synthetic resin product is exposed to a depth set based on the surface of the nut insert hole. It relates to a metal nut insert measuring instrument for measuring.

Due to the technological development of the automobile industry, the cooling water circulation controller for circulating the cooling water in the engine of the automobile is designed to be mounted on the engine by screwing the injection molded product with synthetic resin into bolts. Metal nuts are buried.

In order to mount the coolant circulation controller on the engine, a metal nut for screwing the fastening flange to the site where the engine is mounted is embedded.

Conventionally, when injection molding a coolant circulation controller mounted on an automobile engine with a synthetic resin, a plurality of insert holes for embedding metal nuts are previously formed, and then each of the plurality of insert holes formed in the coolant circulation controller where injection molding is completed. The metal nut is buried in a heated state.

However, in the related art, metal nuts may not be correctly embedded in each of the plurality of insert holes formed in the coolant circulation controller. If the metal nuts are not correctly embedded in the insert holes, the coolant circulation controller may be installed in the engine of the vehicle. Since it is not mounted as designed, the coolant leakage occurs, which degrades the performance of the car, and the air supply has a big problem such as having to recall the shipped car.

The present invention has been proposed in view of the above-mentioned problems in the related art, and comprises an automation system that includes an apparatus for embedding in a plurality of insert holes formed in a coolant circulation controller mounted on an automobile engine, and formed in the coolant circulation controller. After the metal nut insert process of heating and automatically embeding the metal nut in each of the plurality of insert holes in a short time, the measuring tool for measuring whether the metal nut embedded in the insert hole of the coolant circulation controller is buried as designed is provided. The invention was invented for the purpose of distinguishing between genuine and non-defective metal nuts embedded in each of the plurality of insert holes formed in the cooling water circulation controller.

The present invention, as a means for pursuing the above object,

In the metal nut insert measuring tool using an electronic micro meta to measure the exposure state of the metal nut embedded in the insert hole formed in the synthetic resin product injection-molded with the synthetic resin,

The metal nut insert measuring jig,

An upper body fixedly installed so that an upper end protrudes from an upper surface of the table upper plate;

An intermediate body that is elastically supported to be detachable at a lower end of the upper body;

A lower body which is elastically supported to be detachable at a lower end of the intermediate body;

An upper end protruding higher than an upper end of the upper body while being slidably inserted into the hollow part of the upper body, and a lower end of the product support fixedly attached to the intermediate body by a key bolt;

A lower spring having a lower end elastically supported on an upper surface of the intermediate body and having an upper end formed to elastically support a product support;

The slide cylindrical portion is slidably inserted into the guide hole formed in the upper part of the product support and a rod extending downwardly from the bottom thereof, the lower end of the rod slides through the intermediate body so as to slide the key A nut support fixedly attached to the lower body by a bolt;

An upper spring elastically supporting a slide cylindrical portion of the nut support while a lower end is elastically supported by a support annulus formed below the guide hole of the product support;

It characterized in that it is configured to measure whether the surface of the metal nut embedded in the insert hole of the synthetic resin product is inserted to the depth as designed.

In addition, the differential body of the electronic micro meta is fixed to the lower body, the differential transformer is characterized in that the measuring head is installed while being supported on the bottom of the intermediate body.

In addition, the upper end of the nut support is characterized in that the protrusion is inserted into the hole of the metal nut embedded in the insert hole of the synthetic resin product.

In addition, the elastic force of the lower spring to elastically support the intermediate body and the product support is characterized in that it is stronger than the elastic force of the upper spring to elastically support the product support and the nut support.

According to the present invention, by measuring the exposed state of the metal nut buried to be exposed to the inserted depth set in the insert hole formed in the synthetic resin product to accurately measure whether the metal nut is embedded at a precise depth according to the design This effect is to provide an effect that, in the case of a car is an advantage that can be accurately assembled assembly parts, such as coolant circulation controller mounted on the engine.

1 is a perspective view of a metal nut insert measuring jig for explaining the present invention
2 is a cross-sectional view of the metal nut insert measuring fixture of the present invention.
3 and 4 are cross-sectional view of the operating state of the metal nut insert measuring tool of the present invention

Detailed description of the metal nut insert measuring fixture of a synthetic resin product according to the present invention will be described in detail with reference to the accompanying drawings.

Reference numeral 1 denotes a metal nut insert measuring tool, and the metal nut insert measuring tool 1 includes a metal nut 12 embedded in an insert hole 11 formed in a synthetic resin product 10. It is a mechanism for measuring whether it is buried and exposed to the depth set in 11), the displacement amount of the core (coil) or coil (coil) is converted into an electrical signal and sent to the controller 21, the controller 21 is transmitted as an electrical signal An electronic micro meta differential transformer (LVDT PROBE: 2) is used to express the displacement amount by numerical value or the like.

The metal nut insert measuring tool 1 is placed on the upper surface 31 of the table top plate 13 for seating downward on the exposed surface of the metal nut 12 embedded in the insert hole 11 of the synthetic resin product 10. An upper body 3 fixedly installed to expose a part, an intermediate body 4 installed to be elastically supported to be relaxed to a lower end 32 portion of the upper body 3, and a lower end of the intermediate body 4. It is divided into lower body (5) which is installed to be elastically supported to relax.

A hollow portion 33 penetrating up and down is formed at the center of the upper body 3, and the upper portion 61 is inserted to be slidable in the hollow portion 33 and the upper portion 61 is an upper portion 31 of the upper body. Protruding higher and the lower end 62 is a product support 6 which is fixedly attached by the key bolt 63 is assembled to the intermediate body (4), and a guide hole formed in the upper portion of the product support (6) 64 is provided with a nut support 7 fixedly attached by a key bolt 71 screwed to the lower body 5 while being slidably inserted into the lower body 5.

The nut support 7 slides the slide cylindrical portion 7a and the product support 6 and the intermediate body 4 which are slidably inserted into the hollow part 33 of the upper body 3. It consists of a rod 7b which penetrates and is fixed by the key bolt 71 in the state inserted into the guide hole 51 of the lower body 5.

The key bolt 71 is screwed on one side of the lower body 5 to fix the rod 7b of the nut support 7 inserted into the guide hole 51.

A lower spring 8a is elastically installed between the upper surface of the intermediate body 4 and the bottom of the support annulus 65 of the product support 6, and an upper portion of the support annulus 65 of the product support 6. And an upper spring 8b is elastically installed between the bottom of the slide cylindrical portion 7a of the nut support 7, and the elastic force of the lower spring 8a is stronger than the elastic force of the upper spring 8b. It is. For reference, the drawing of FIG. 2 shows that the steel wire diameter of the lower spring 8a is configured to have a diameter larger than the steel wire of the upper spring 8b.

In addition, a protrusion inserted into the hole of the metal nut 12 embedded in the synthetic resin product 10 on the upper surface of the slide cylindrical portion 7a of the nut support 7 exposed to the upper portion of the metal nut insert measuring tool 1. 72 is formed to protrude, and the protrusion 72 has a diameter that fits tightly in the hole of the metal nut 12 so that the synthetic resin product 10 can be accurately seated on the table top plate 13.

In addition, the metal nut insert measuring fixture 1 is configured such that the measuring head 22 of the differential transformer 2 detachably installed at one side of the lower body 5 is supported at the bottom of one side of the intermediate body 4. The measuring head 22 can move the lower body 5 on which the rod 7b is fixed while the slide cylindrical portion 7a of the nut support 7 elastically compresses the upper spring 8b. Displacement amount and displacement amount when the product support 6 moves the intermediate body 4 downward while elastically compressing the lower spring 8a (the displacement amount is the displacement amount of the core and coil installed inside the differential transformer). And converts it into an electrical signal and sends it to the controller 21, the controller 21 displays the displacement amount as a numerical value on a measurement screen (not shown), so that the measurement operator is displayed on the measurement screen of the controller 21. The numerical value of the displacement Bit 12 is sikimyeo verify that that the well or not insert the insert precisely as designed, and separated by regular and defective products are genuine original is transferred to the conveyor songyong, defective products will thereby be defective is transferred to the conveyor songyong.

The operation of the present invention configured as described above will be described.

The operation of embedding the metal nut 12 in each insert hole 11 formed in the synthetic resin product 10 is made of an automated system, in which the metal nut 12 uses a high frequency induction heating apparatus. For a very short time (about 1 to 3 seconds) is heated to a high temperature of 250 ~ 500 ℃ is automatically embedded into the insert hole (11), the metal nuts (12) heated to a high temperature by using an automated system Even if the insert holes 11 are formed in the insert hole 11 formed in the synthetic resin product 10 under the same insert working condition, the metal nut 12 is not embedded in the insert hole 11 to the same depth as designed. Therefore, after the insert work process of embedding the metal nut 12 in each insert hole 11 of the synthetic resin product 10 is completed, it is embedded in the insert hole 11 of the synthetic resin product 10. By measuring whether the surface of the metal nut 12 is exposed to the depth of embedding as designed in the insert hole 11 to screen out genuine and defective products.

That is, as shown in FIG. 3, the protrusion protruding from the upper end of the slide cylindrical portion 7a of the nut support 7 into the hole of the metal nut 12 embedded in the insert hole 11 of the synthetic resin product 10 ( 72, the metal nut 12 is in contact with the upper surface of the slide cylindrical portion 7a while the metal nut 12 is fixed to the upper end of the slide cylindrical portion 7a of the nut support 7. Then, the synthetic resin product 10 is pressed at a set pressure. In this case, the surface of the metal nut 12 exposed from the insert hole 11 is initially applied to the synthetic resin product 10. The upper end of the slide cylindrical portion 7a of the nut support 7 is pressed, and the slide cylindrical portion 7a is applied when the surface of the metal nut 12 pressurizes the upper end of the slide cylindrical portion 7a. To compress the upper spring 8b elastically Is moved (see Fig. 4)

However, the upper spring 8b that elastically supports the bottom of the slide cylindrical portion 7a of the nut support 7 has a weaker elastic force than the elastic force of the lower spring 8a that supports the product support 6. Since the metal nut 12 embedded in the insert hole 11 pressurizes the upper end of the slide cylindrical portion 7a as described above, the lower spring 8a may be elastically compressed even if the upper spring 8b is elastically compressed. Is not compressed.

Therefore, in the operating state in which the metal nut 12 presses only the slide cylindrical portion 7a of the nut support 7, the nut support 7 moves downward while elastically compressing the upper spring 8b. Accordingly, the lower body 5 having the lower end of the rod 7b of the nut support 7 is fixedly moved together with the nut support 7 (see FIG. 4), and the lower body ( 5), the differential transformer 2 of the electronic micro meta is also moved downward, so that the measuring head 22 of the differential transformer 2 which is in contact with the bottom of the intermediate body 4 is as shown in FIG. When the measuring head 22 of the differential transformer 2 relaxes at the bottom of the intermediate body 4, the amount of displacement when the measuring head 22 of the differential transformer 2 is relaxed at the bottom of the intermediate body 4 is controlled. The numerical value is displayed on the measurement screen.

In addition, as shown in FIG. 4, the metal nut 12 applies the pushing pressure to the upper end of the slide cylindrical portion 7a of the nut support 7, thereby guiding the slide cylindrical portion 7a to the product support 6. The slide cylindrical portion 7a is swept into the hole 61 until the surface of the insert hole 11 of the synthetic resin product 10 is in surface contact with the upper end of the product support 6. Only 8b) is elastically compressed, and in this state, if the pressing pressure is continuously applied to the synthetic resin product 10, the surface of the insert hole 11 of the synthetic resin product 10 is then opened. The pressing operation is made directly, and thus the product support 6 is inserted downward into the hollow part 33 of the upper body 3 while elastically compressing the lower spring 8a.

Therefore, as described above, when the pressure is applied to the synthetic resin product 10, the lower body 5 moves downward by the operation of the metal nut 12 pressing the nut support 7. Displacement amount that appears when the measuring head 22 of the measuring body 22 relaxes at the bottom of the intermediate body 4, and the product support 6 is lower spring due to the synthetic resin product 10 pressurizing the product support 6 By moving the intermediate body 4 downward while compressing the 8a, the amount of displacement that appears when the bottom of the intermediate body 4 approaches the measuring head 22 of the differential transformer 2 is subtracted. By being displayed on the measurement screen of the measurement operator can check whether the metal nut 12 is correctly inserted into the insert hole 11 of the synthetic resin product 10 by looking at the numerical value shown on the measurement screen of the controller 21 .

Therefore, the measurement operator checks the numerical value displayed on the measurement screen of the controller 21 of the electronic micro meta to confirm whether the metal nut 12 is correctly or incorrectly embedded in the insert hole 11 of the synthetic resin product 10 as designed. The nut 12 accurately distinguishes the genuine product and the non-defective goods that are buried, and the genuine product is transferred to the genuine conveying conveyor, and the defective product is transferred to the defective conveying conveyor for separation.

Meanwhile, the metal nut insert measuring tool 1 according to the present invention is applied to all synthetic resin parts in which a plurality of metal nuts are embedded, such as a coolant circulation controller mounted on an automobile engine, to determine whether the metal nuts embedded in each insert hole are embedded as designed. It can be used to measure.

1: Metal nut insert measuring tool 10: Synthetic resin product
11: Insert hole 12: Metal nut
13: table top 2: differential transformer
21 controller 22 measuring head
3: upper body 31: upper
32: lower part 33: hollow part
4: middle body 5: lower body
51: guide 6: product support
61: top 62: bottom
63: key bolt 64: guide hole
65: support ring 7: nut support
7a: slide cylinder 7b: rod
71: key bolt 72: protrusion
8a: lower spring 8b: upper spring

Claims (4)

In the metal nut insert measuring tool using an electronic micro meta to measure the exposure state of the metal nut embedded in the insert hole formed in the synthetic resin product injection-molded with the synthetic resin,
The metal nut insert measuring jig,
An upper body fixedly installed to expose an upper end of the upper surface of the table top plate;
An intermediate body that is elastically supported to be detachable at a lower end of the upper body;
A lower body which is elastically supported to be detachable at a lower end of the intermediate body;
An upper end protruding higher than an upper end of the upper body while being slidably inserted into the hollow part of the upper body, and a lower end of the product support fixedly attached to the intermediate body by a key bolt;
A lower spring having a lower end elastically supported on an upper surface of the intermediate body and having an upper end formed to elastically support a product support;
The slide cylindrical portion is slidably inserted into the guide hole formed in the upper portion of the product support and a rod extending downwardly from the bottom thereof, the lower end of the rod slides through the intermediate body so as to slide the key A nut support fixedly attached to the lower body by a bolt;
An upper spring elastically supporting a slide cylindrical portion of the nut support while a lower end is elastically supported by a support annulus formed below the guide hole of the product support;
Metal nut insert measuring jig, characterized in that configured to measure whether the surface of the metal nut embedded in the insert hole of the synthetic resin product exposed to the height as designed.
The method of claim 1,
The lower body is attached to the differential transformer of the electronic micro meta, the differential transformer is a metal nut insert measuring fixture of the synthetic resin product, characterized in that the measuring head is fixed to the state supported by the bottom of the intermediate body.
The method of claim 1.
The nut nut measuring jig of the synthetic resin product, characterized in that the protrusion is inserted into the hole of the metal nut embedded in the insert hole of the synthetic resin product protrudes.
The method of claim 1,
The metal nut insert measuring jig of the synthetic resin product, characterized in that the elastic force of the lower spring to elastically support the intermediate body and the product support is stronger than the elastic force of the upper spring to elastically support the product support and the nut support.

Images