TW201411094A - Inner hole gauge for production process - Google Patents

Abstract

The invention is an inner hole gauge for a production process. It comprises a main body wherein the main body is mainly composed of a first detection section, a second detection section and a crankshaft. An external diameter of the first detection section is smaller than an external diameter of the second detection section. The first detection section is provided at one end of the main body. The second detection section is adjacent to the first detection section. A central axis of the second detection section is on the same line with a central axis of the first detection section. Detection efficiency for an inner hole can be raised by adjacent axial constitution of the first detection section and the second detection section.

Description

Inner hole gauge for production process

The present invention is related to the amount, and more particularly, to a bore gauge for a production process for measuring the inner diameter of a hole.

Whether the inner diameter of the hole is in conformity with the specification can be detected using a gage such as a vernier caliper, a centimeter card or a bore gauge, wherein the inner diameter is detected for a plurality of different holes having the same inner diameter size specification. Compared with the selection of the vernier caliper or the centimeter card, the use of the inner hole gauge as the detection gauge facilitates the simple and rapid execution of the inspection work.

The conventional inner hole gauge for detecting the inner diameter of the hole mainly comprises a first measuring head, a second measuring head and a middle rod, wherein the first measuring head and the second measuring head are respectively disposed on the middle rod And the outer diameter of the first measuring head is smaller than the second measuring head.

When using the conventional inner hole gauge to detect the inner diameter of the hole, the hand-held middle handle inserts the first measuring head axially into the detected hole. If the first measuring head cannot enter the inside of the hole, the inner diameter of the hole is too small. The first measuring head can enter the inside of the hole, and the first measuring head is extracted, and the second measuring head is axially inserted into the detected hole. If the second measuring head can be inserted into the inside of the hole, the inner diameter of the hole is too large, if The second measuring head cannot be inserted into the inside of the hole, indicating that the inner diameter of the hole is between the outer diameter of the first measuring head and the outer diameter of the second measuring head, and the inner diameter of the hole meets the requirements.

When the first measuring head and the second measuring head are inserted into the hole, the center axis of the first measuring head and the second measuring head and the center line of the hole must be protected If the first measuring head fails to enter the hole smoothly due to the lateral deflection caused by the first measuring head, the misalignment of the aperture is too small, if the second measuring head produces a lateral direction. The deflection causes the second measuring head to fail to enter the hole smoothly, which will lead to the misjudgment of the hole diameter. The use of the conventional hole gauge to detect the hole requires the first measuring head and the second measuring separately. When the head is inserted into the hole, it takes a considerable amount of time for each inspection work, so that the conventional inner hole gauge is suitable for the case where the quality control personnel take a small amount of sampling test, and for the person who actually performs the processing and production operation on the production process, If a well-processed bore gauge is used to detect the finished hole, it will affect the work efficiency.

In view of this, the inventor has been devote himself to research, and the invention has been innovated and rich in industrial value.

The main object of the present invention is to provide a bore gauge for a production process, which is improved in the efficiency of the inner bore by the configuration in which the first measuring section and the second measuring section are axially adjacent.

In order to meet the intended purpose, the present invention is a bore gauge for a production process, comprising a body, wherein the body is mainly composed of a first measuring section, a second measuring section and a handle axially connected, the first The outer diameter of the second measuring segment is smaller than the outer diameter of the second measuring segment, the first measuring segment is disposed at one end of the body, the second measuring segment is adjacent to the first measuring segment, and the central axis of the second measuring segment is The center axis of the first measurement segment is on the same straight line.

In order to achieve a further understanding and recognition of the features of the present invention and the objects and effects thereof, the specific embodiments are described in conjunction with the drawings. Rear.

The first figure is a perspective view of an embodiment of the invention.

The second drawing is a side view of an embodiment of the invention.

The third figure is a schematic diagram (1) of the use state of the embodiment of the present invention.

The fourth figure is a schematic diagram of the use state of the embodiment of the present invention (2).

As shown in the first and second figures, the embodiment of the inner hole gauge for manufacturing a process of the present invention comprises a body (1), wherein the body (1) is mainly composed of a first measuring section (12), a The second measuring section (14) and a handle (16) are axially connected, and the outer diameter of the first measuring section (12) is smaller than the outer diameter of the second measuring section (14), and the first measuring section (12) Provided at one end of the body (1), the second measuring section (14) is disposed between the first measuring section (12) and the holding handle (16), the second measuring section (14) and the first A measuring section (12) is adjacent, and a central axis of the second measuring section (14) is located on the same straight line as a central axis of the first measuring section (12).

Referring to the first to fourth figures, when the inside diameter of a hole (9) is detected by using the inner hole gauge for manufacturing the process, the first measuring section (12) is held along the holding handle (16). The hole (9) is inserted into the hole (9) in the direction of the central axis. If the first measuring segment (12) cannot enter the inside of the hole (9), the inner diameter of the hole (9) is too small; if the first The measuring section (12) can enter the inside of the hole (9) (as shown in the third figure), and the first measuring section (12) is not required to be pulled away from the hole (9), and the second measuring section is directly 14) inserting the hole (9) along the central axis direction of the hole (9), if the second measuring segment (14) can be smoothly inserted into the hole (9) (as shown in the fourth figure), indicating the hole The inner diameter of (9) is too large. If the second measuring section (14) cannot be inserted into the hole (9), the inner diameter of the hole (9) is defined by the outer diameter of the first measuring section (12) and Between the outer diameters of the second measuring section (14), it can be determined that the inner diameter of the hole (9) meets the requirements.

The first section (12) is axially adjacent to the second measuring section (14) and the central axis of the second measuring section (14) is located on the same line as the central axis of the first measuring section (12). In the process of detecting the hole (9) by using the present invention, when the first measuring section (12) can be smoothly inserted into the inside of the hole (9), the first measurement is performed by the hole (9) The central axis of the segment (12) forms a guiding restriction such that the central axis of the second measuring segment (14) is less prone to significant lateral deflection, and the user performs the operation of inserting the second measuring segment (14) into the hole (9). In the process, it is not necessary for the central axis of the second measuring section (14) to be consistent with the central axis of the hole (9), which takes too much time and attention, and is for the actual production and processing work of the production process. The invention can reduce the time taken for the detection work and improve the work efficiency in performing a large number of inspection work.

Further, in the case where the article is to be processed into a screw hole, after performing the drilling process on the article, before the tapping process is performed, the present invention can also be applied to measure the hole diameter of the hole for the hole that has not been tapped to form the screw hole. Whether it conforms to the inner diameter of the screw hole formed by the machining, and avoiding the hole with the hole diameter not conforming to the required tapping process directly, the tapping tool may be damaged due to the small aperture, or the tapping process may be ineffective due to the excessive aperture.

In summary, the present invention has undergone numerous trials to confirm that it can fully satisfy the intended purpose, and has excellent efficacy. It has not been seen in public publications and public use before application, and is in line with the requirements of invention patents, and submits applications according to law. The applicant has no intention to bear the burden of reviewing the patent and granting the patent as soon as possible.

(1)‧‧‧handle

(12) ‧‧‧First measurement

(14) ‧‧‧Second measurement

(16) ‧‧‧Handle

(9) ‧‧‧ holes

The first figure is a perspective view of an embodiment of the invention.

The second drawing is a side view of an embodiment of the invention.

The third figure is a schematic diagram (1) of the use state of the embodiment of the present invention.

The fourth figure is a schematic diagram of the use state of the embodiment of the present invention (2).

(1)‧‧‧handle

(12) ‧‧‧First measurement

(14) ‧‧‧Second measurement

(16) ‧‧‧Handle

Claims (1)

An inner hole gauge for a production process, comprising a body, wherein the body is mainly composed of a first measuring section, a second measuring section and a holding handle axially connected, wherein the outer diameter of the first measuring section is smaller than the first measuring section An outer diameter of the second measuring segment, the first measuring segment is disposed at one end of the body, the second measuring segment is adjacent to the first measuring segment, and the central axis of the second measuring segment is located at the same time as the central axis of the first measuring segment Straight line.