CN217385001U - High-precision tensile machine for machining built-in part of precise notebook computer - Google Patents

Abstract

The utility model discloses a high-precision tensile machine for processing a precise notebook computer built-in part, which comprises a base, a lifting upright post, an upper clamp, a lower clamp, a moving transverse rod, a control unit, a power motor, a mounting bracket, a guide upright post and an observation lens, wherein the moving transverse rod is connected with the upper clamp, the lower clamp is positioned at the position under the upper clamp, the guide upright post is mounted on the mounting bracket at the outer side of the lifting upright post, and the observation lens is positioned and mounted on the guide upright post. Three groups of lenses are uniformly arranged on the basis of the central support body, and the lenses are used for carrying out local amplification observation on the workpiece to be tested.

Description

High-precision tensile machine for machining built-in part of precision notebook computer

Technical Field

The utility model relates to a pulling force machine field, especially a high accuracy pulling force machine that is used for accurate notebook computer built-in parts to process.

Background

The tension tester is also called a universal material tester. The universal tester is a mechanical stress tester for testing mechanical properties such as static load, stretching, compression, bending, shearing, tearing, peeling and the like of instruments and equipment aiming at various materials, is suitable for testing various physical and mechanical properties of materials such as plastic plates, pipes, profiled bars, plastic films, rubber, electric wires, cables, steel, glass fibers and the like, is material development, is indispensable detection equipment for physical property test, teaching research, quality control and the like, and can not be visually observed by naked eyes for tension test of precise equipment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's shortcoming, provide a high accuracy pulling force machine that is used for accurate notebook computer built-in part to process. In order to realize the purpose, the utility model adopts the following technical proposal:

the utility model provides a high accuracy pulling force machine for processing of accurate notebook computer built-in spare, includes base, lift stand, goes up anchor clamps, anchor clamps down, motion horizontal pole, controls unit, motor power, installing support, direction stand, observation lens, and the anchor clamps are installed in the connection of motion horizontal pole, and the position location has lower anchor clamps under going up the anchor clamps, installs the direction stand on the installing support based on the lift stand outside, and observation lens location is installed on the direction stand.

Preferably, the motion cross rod is internally installed on the inner guide rod, and the motion cross rod can stably move up and down on the inner guide rod.

Preferably, the observation lens comprises a side support, a central support, lenses and a locking knob, wherein the side support and the central support are installed in a butt joint mode, three groups of lenses are evenly distributed on the basis of the central support, the lenses are used for observing the local amplification of the workpiece to be tested, and the locking knob is used for installing the observation lenses on the guide stand column in a positioning mode.

Preferably, the side supports and the central support are positioned and installed by using a rotating shaft, and the central support can be overturned at multiple angles to observe a test workpiece.

Compared with the prior art, the utility model has the advantages of it is following: a high accuracy pulling force machine for accurate notebook computer built-in parts processing, this device design:

1: the side support and the central support are positioned and installed through a rotating shaft, the central support can turn over at multiple angles to observe a test workpiece, the side support and the central support are installed in a butt joint mode, three groups of lenses are evenly distributed on the basis of the central support, the lenses are used for carrying out local amplification observation on the test workpiece to be detected, the locking knobs are used for installing the observation lenses on the guide stand columns in a positioning mode, and the lifting height is adjustable.

Drawings

Fig. 1 is a schematic structural diagram of the high-precision tensile machine for machining the built-in part of the precision notebook computer.

Fig. 2 is a schematic view of the installation structure of the high-precision tensile machine for machining the built-in part of the precision notebook computer.

Fig. 3 is a schematic structural view of the protective cover of the present invention.

Fig. 4 is a schematic structural view of the angle marking of the present invention.

In the figure: 1. the device comprises a base, 2, a lifting upright post, 3, an upper clamp, 4, a lower clamp, 5, a moving cross rod, 6, a control unit, 7, a power motor, 8, a mounting bracket, 9, a guide upright post, 10, an observation lens, 11, an inner guide rod, 12, a side bracket, 13, a central bracket, 14, a lens, 15 and a locking knob.

Detailed Description

The present invention will be further described in detail with reference to the drawings and specific embodiments.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, a high precision tensile machine for processing a precise notebook computer built-in part comprises a base 1, a lifting upright post 2, an upper clamp 3, a lower clamp 4, a moving cross rod 5, a control unit 6, a power motor 7, a mounting bracket 8, a guide upright post 9 and an observation lens 10, wherein the lifting upright post 2 is vertically mounted on the base 1, the moving cross rod 5 is horizontally mounted on the lifting upright post 2, the moving cross rod 5 is connected with and mounted on the upper clamp 3, the lower clamp 4 is positioned right below the upper clamp 3, the control unit 6 is electrically connected and mounted at the side end of the lifting upright post 2, the power motor 7 is mounted on the lifting upright post 2, the guide upright post 9 is mounted on the mounting bracket 8 on the outer side of the lifting upright post 2, and the observation lens 10 is positioned and mounted on the guide upright post 9.

The motion cross rod 5 is internally installed on the inner guide rod 11, the motion cross rod 5 stably moves up and down on the inner guide rod 11, and the motion cross rod 5 is electrically connected with a sensor for data transmission.

Observation lens 10 comprises side support 12, central support 13, lens 14 and locking knob 15, and side support 12 and central support 13 butt joint installation, and based on central support 13 support body equipartition install three groups of lens 14, lens 14 is to the local enlarged observation of the work piece that awaits measuring, and locking knob 15 will observe lens 10 location and install on direction stand 9, and the different enlargies designs of different multiples can be done to three groups of lens 14 focuses.

The side support 12 and the central support 13 are positioned and installed by using a rotating shaft, and the central support 13 can turn over at multiple angles to observe a test workpiece, so that the device is suitable for multi-angle observation operation.

The utility model discloses the theory of operation: the utility model provides a high accuracy pulling force machine for processing of accurate notebook computer built-in spare, this device design is applicable to the tensile test of the built-in machined part of notebook computer, will treat that the machined part is hung and put the operation control unit on anchor clamps and carry out the tensile test, the installation of collateral branch frame and central support butt joint, the collateral branch frame uses pivot location installation with the central support, but the central support multi-angle upset is surveyed the test piece, install three groups lens based on central support body equipartition, lens are to the local enlarged observation of the test piece that awaits measuring.

The foregoing is a preferred embodiment of the present invention, and for those skilled in the art to understand the teaching of the present invention, the changes, modifications, replacements and variations to the embodiments will still fall within the protection scope of the present invention without departing from the principle and spirit of the present invention.

Claims (4)

1. A high-precision tensile machine for machining a built-in part of a precision notebook computer is characterized by comprising a base (1), a lifting upright post (2), an upper clamp (3), a lower clamp (4), a moving cross rod (5), a control unit (6), a power motor (7), a mounting bracket (8), a guide upright post (9) and an observation lens (10), wherein the lifting upright post (2) is vertically mounted on the basis of the base (1), the moving cross rod (5) is transversely mounted on the lifting upright post (2), the moving cross rod (5) is connected with and mounted on the upper clamp (3), the lower clamp (4) is positioned right below the upper clamp (3), the side end of the lifting upright post (2) is electrically connected with and mounted on the control unit (6), the power motor (7) is mounted on the lifting upright post (2), the guide upright post (9) is mounted on the mounting bracket (8) on the outer side of the lifting upright post (2), the observation lens (10) is positioned and arranged on the guide upright post (9).

2. The high-precision tensile machine for machining the precise built-in part of the notebook computer according to claim 1, wherein the moving cross rod (5) is internally installed on the inner guide rod (11), and the moving cross rod (5) stably moves up and down on the inner guide rod (11).

3. The high-precision tensile machine for machining the precise notebook computer built-in part according to claim 1, wherein the observation lens (10) consists of a side support (12), a central support (13), lenses (14) and a locking knob (15), the side support (12) and the central support (13) are installed in a butt joint mode, three groups of lenses (14) are evenly installed on the basis of the central support (13), the lenses (14) observe the part of the workpiece to be tested in an enlarged mode, and the observation lens (10) is installed on the guide upright post (9) in a positioning mode through the locking knob (15).

4. The high-precision tensile machine for machining the precise notebook computer built-in part according to claim 3, wherein the side supports (12) and the central support (13) are positioned and installed by using rotating shafts, and the central support (13) can be overturned at multiple angles to observe a test workpiece.

Images