CN211785176U - MIM duplex position check out test set - Google Patents

Abstract

The utility model provides a MIM duplex position check out test set, which comprises a fixing frame, mount bottom four corners department is equipped with a stabilizer blade respectively, the right side is equipped with the power supply box in the mount, be equipped with the power in the power supply box, the left side is equipped with computer in the mount, mount upper portion front side is equipped with the operation workstation, the top of mount is equipped with marble mesa board, the top surface top of marble platform is equipped with the aluminium alloy support, be equipped with two Y axle removal subassemblies and measuring component in the aluminium alloy support, be equipped with two backlights on the two Y axle removal subassemblies, all be equipped with a frock tool on every backlight, every backlight is fixed mutually with frock tool and just follows two Y axle removal subassemblies back-and-forth movement, the top of two Y axle removal subassemblies is equipped with the X axle removal subassembly that is. The utility model has the advantages of replace the manual work to detect the MIM hardware and measure, the efficient of detection, the productivity is high, the operation stable quality, the material resources that use manpower sparingly originally etc.

Description

MIM duplex position check out test set

Technical Field

The utility model belongs to the technical field of check out test set, concretely relates to MIM duplex position check out test set.

Background

The Metal (ceramic) powder Injection Molding technology (MIM technology for short) is a product integrating a plurality of subjects of plastic Molding technology, polymer chemistry, powder metallurgy technology, Metal material science and the like, which are mutually permeated and crossed, and structural parts with high density, high precision and three-dimensional complex shapes can be quickly manufactured by utilizing a mold Injection Molding accessory and sintering, so that the design idea can be quickly and accurately changed into products with certain structures and functional characteristics, the parts can be directly produced in batches, and the Metal (ceramic) powder Injection Molding technology is a new change of the manufacturing technology industry. The MIM hardware needs to utilize the manual work to detect the hardware after finishing producing and measure, and this kind of operation gimmick requires the manual work high, and is inefficient, needs a large amount of manpower and materials, and utilizes the manual work to detect the measured data unstability, and the operation quality is stable inadequately.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the weak point among the prior art, provide one kind and replace the manual work to detect the measurement to the MIM hardware, the efficient that detects, the productivity is high, the operation stable quality, the manual MIM duplex position check out test set of material resources of using manpower sparingly.

In order to solve the technical problem, the utility model adopts the following technical scheme:

an MIM double-station detection device comprises a fixed frame, wherein four corners at the bottom of the fixed frame are respectively provided with a support leg, the right side in the fixed frame is provided with a power box, a power supply is arranged in the power box, the left side in the fixed frame is provided with a computer mainframe, the front side at the upper part of the fixed frame is provided with an operating workbench, the top of the fixed frame is provided with a marble table panel, an aluminum profile support is arranged above the top surface of the marble table, a double-Y-axis moving component and a measurement component are arranged in the aluminum profile support, the double-Y-axis moving component is provided with two backlight sources, each backlight source is provided with a tooling fixture, each backlight source is fixed with the tooling fixture and moves back and forth along the double-Y-axis moving component, an X-axis moving component for driving the measurement component to move left and, the right side wall of the power box is provided with a power switch, a power supply in the power box is electrically connected with the measuring component, the double-Y-axis moving component, the X-axis moving component and the computer host, and the computer host is electrically connected with the display and the measuring component.

Preferably, two Y axle removal subassemblies include first guide rail and second guide rail, and first guide rail and second guide rail all are located the upper surface of marble panel and first guide rail is located the left side of second guide rail, are equipped with first Y axle mobile device on the first guide rail, are equipped with second Y axle mobile device on the second guide rail, all are equipped with a backlight on first Y axle mobile device and the second Y axle mobile device, all are fixed with a frock tool on every backlight, first Y axle mobile device and second Y axle mobile device and power electric connection.

Preferably, the X axle subassembly includes X axle mobile device, and X axle mobile device is located the top of two frock tools, is fixed with measuring component on the X axle mobile device, and measuring component includes CCD camera and CCD main part device, and the front side at CCD main part device is fixed to the CCD camera, and the front side of CCD camera is equipped with the safety cover, and CCD main part device sets up and removes about just following X axle mobile device in X axle mobile device's front side, and X axle mobile device, CCD camera, CCD main part device all with power electric connection.

Preferably, two casters are respectively arranged on the fixing frame between the two support legs on the left side and the fixing frame between the two support legs on the right side along the front-back direction at the bottom of the fixing frame.

Preferably, the left side face, the right side face, the top face and the rear side face of the aluminum section support are all provided with tawny organic glass plates.

Preferably, safety gratings are arranged on the left side and the right side of the aluminum profile support along the up-down direction.

Preferably, the top of the aluminum profile support is provided with a safety alarm lamp.

Adopt above-mentioned technical scheme, the utility model discloses following beneficial effect has:

(1) the left side surface, the right side surface, the top surface and the rear side surface of the aluminum profile support are all provided with the tawny organic glass plate, the left side and the right side of the aluminum profile support are provided with the safety grating along the up-down direction, and the tawny organic glass plate and the safety grating are arranged to ensure the safety of a user when the aluminum profile support is used;

(2) the utility model discloses a mount bottom is located the mount between two left stabilizer blades and is located the mount between two right side stabilizer blades and is equipped with two truckles respectively along the fore-and-aft direction, and mount bottom four corners department is equipped with a stabilizer blade respectively, and the top of mount is equipped with marble deck plate, and the top surface top of marble deck plate is equipped with the aluminium alloy support, and stabilizer blade, truckle, marble deck plate and aluminium alloy support's setting has guaranteed the stability of the utility model when operation;

(3) the utility model discloses be equipped with two Y axle removal subassemblies and measuring unit, be equipped with two backlights on the two Y axle removal subassemblies, all be equipped with a frock tool on every backlight, every backlight is fixed mutually with frock tool and moves along two Y axle removal subassemblies back-and-forth movement, when utilizing the utility model discloses when measuring, can place each product on frock tool, just the utility model discloses a frock tool is equipped with two, when measuring to examine, can alternate use and improve the efficiency of production detection, just the utility model discloses a setting up of backlight has guaranteed the normal use of measuring unit when measuring;

(4) the utility model discloses an X axle subassembly includes X axle mobile device, and X axle mobile device is located the top of two frock tools, is fixed with measuring component on the X axle mobile device, and measuring component includes CCD camera and CCD main part device, and X axle mobile device can drive the CCD camera and shoot to finally reflect the image into the figure and judge on the display, replaced the manual work to detect the MIM hardware and measure, the efficiency of detection is high, and the productivity is high, compares with manual detection, the utility model discloses a quality of detection operation is stable, has saved a large amount of manpower and materials;

to sum up, the utility model has the advantages of replace the manual work to detect the MIM hardware and measure, the efficient of detection, the productivity is high, the operation stable quality, the material resources personal of using manpower sparingly etc.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is an enlarged view at P in fig. 1.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention.

The components of the embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in figures 1 and 2, the MIM double-station detection device of the utility model comprises a fixed frame 1, four corners at the bottom of the fixed frame 1 are respectively provided with a support leg 2, the right side in the fixed frame 1 is provided with a power supply box 3, the power supply box 3 is internally provided with a power supply, the left side in the fixed frame 1 is provided with a computer 4, the front side of the upper part of the fixed frame 1 is provided with an operating workbench 5, the top of the fixed frame 1 is provided with a marble table panel 6, the upper part of the top surface of the marble table is provided with an aluminum profile bracket 7, the aluminum profile bracket 7 is internally provided with a double-Y-axis moving component and a measuring component, the double-Y-axis moving component is provided with two backlight sources 8, each backlight source 8 is provided with a tooling fixture 9, each backlight source 8 is fixed with the tooling fixture 9 and moves back and, the measuring component is connected to the X-axis moving component, a display 10 is fixed on the right side face of the aluminum profile support 7, a power switch 11 is arranged on the right side wall of the power box 3, a power supply in the power box 3 is electrically connected with the measuring component, the double Y-axis moving component, the X-axis moving component and the computer host 4, and the computer host 4 is electrically connected with the display 10 and the measuring component.

The double-Y-axis moving assembly comprises a first guide rail 12 and a second guide rail 13, the first guide rail 12 and the second guide rail 13 are located on the upper surface of the marble panel, the first guide rail 12 is located on the left side of the second guide rail 13, a first Y-axis moving device 14 is arranged on the first guide rail 12, a second Y-axis moving device 15 is arranged on the second guide rail 13, a backlight source 8 is arranged on each of the first Y-axis moving device 14 and the second Y-axis moving device 15, a tooling jig 9 is fixed on each backlight source 8, and the first Y-axis moving device 14 and the second Y-axis moving device 15 are electrically connected with a power supply.

The X axle subassembly includes X axle mobile device 16, X axle mobile device 16 is located the top of two frock tools 9, be fixed with measuring unit on the X axle mobile device 16, measuring unit includes CCD camera 17 and CCD subject device 18, CCD camera 17 is fixed at the front side of CCD subject device 18, CCD camera 17's front side is equipped with safety cover 19, CCD subject device 18 sets up and removes about X axle mobile device 16's front side and edge X axle mobile device 16, CCD camera 17, CCD subject device 18 all with power electric connection.

Two casters 20 are respectively arranged on the fixing frame 1 between the two support legs 2 on the left side and the fixing frame 1 between the two support legs 2 on the right side at the bottom of the fixing frame 1 along the front-back direction.

The left side, the right side, the top surface and the rear side of the aluminum section bar bracket 7 are all provided with tawny organic glass plates 21.

The left side and the right side of the aluminum profile support 7 are provided with safety gratings 22 along the up-down direction.

And a safety alarm lamp 23 is arranged at the top of the aluminum section bracket 7.

The utility model discloses a concrete use as follows:

when the utility model is used, the computer host 4 and the display 10 are firstly opened, the power switch 11 is pressed down, the operation working table 5 is provided with the operation equipment such as the mouse and the keyboard which are connected with the computer host 4, the utility model is in the standby working state, the first Y-axis moving device 14, the second Y-axis moving device 15 and the X-axis moving device 16 are all in the original point position, the user of the utility model firstly places the product to be measured on the operation working table 5 for standby, then opens the detection program of the utility model through the mouse and the keyboard, the user of the utility model respectively places the product to be measured in the tool 9 on the left side and the tool 9 on the right side, after the product is placed, the first Y-axis moving device 14 drives the product to be measured to move backwards from the original point, when the product to be measured moves to the position to be detected along the front-back direction, the first Y-axis moving device 14 stops moving, the X-axis moving device 16 starts and drives the CCD camera 17 to move from the original point to the position right above the product to be measured, the CCD camera 17 automatically converts the obtained detection original image into digitalization, and compares, analyzes, checks and judges the converted digitalized data with the originally set standard, then the detection program on the computer host 4 is utilized to automatically control and judge, after the detection is finished, the first Y-axis moving device 14 and the X-axis moving device 16 both recover to the original point, when the product is judged to be a good product, the utility model discloses a user takes down the product and puts the product into a good product area, when the utility model discloses a judge to be a bad product, the utility model discloses a user puts the product into a bad product area;

meanwhile, the second Y-axis moving device 15 drives the product to be measured to move backward from the original point, when the product to be measured moves to the detected position in the front-back direction, the second Y-axis moving device 15 stops moving, the X-axis moving device 16 starts and drives the CCD camera 17 to move from the original point to the position right above the product to be measured and measure the product in the tooling jig 9 on the second Y-axis moving device 15, and during the measurement process, the user of the present invention puts a new undetected product in the tooling jig 9 on the first Y-axis moving device 14, and after the product detection in the tooling jig 9 on the second Y-axis moving device 15 is finished, the second Y-axis moving device 15 and the X-axis moving device 16 both return to the original point, at this time, the first Y-axis moving device 14 starts again and moves backward, and the new undetected product is replaced in the tooling jig 9 on the second Y-axis moving device 15 and so on, double-station alternate detection is realized;

in the whole using process, the safety grating 22 is arranged to ensure the safety of the user when the utility model is used, when the utility model is in the operating process, someone stretches the body parts such as hands into the utility model, the safety grating 22 of the utility model is sensed and then stops the start of the utility model, and when an emergency occurs, the safety alarm lamp 23 can send out an alarm to warn; when the utility model discloses need remove, can utilize the utility model discloses a truckle 20 removes.

The present embodiment is not intended to limit the shape, material, structure, etc. of the present invention in any form, and all of the technical matters of the present invention belong to the protection scope of the present invention to any simple modification, equivalent change and modification made by the above embodiments.

Claims (7)

1. An MIM duplex position check out test set which characterized in that: comprises a fixed frame, four corners at the bottom of the fixed frame are respectively provided with a support leg, the right side in the fixed frame is provided with a power box, the power box is internally provided with a power supply, the left side in the fixed frame is provided with a computer mainframe, the front side at the upper part of the fixed frame is provided with an operating workbench, the top part of the fixed frame is provided with a marble table panel, an aluminum profile bracket is arranged above the top surface of the marble table, the aluminum profile bracket is internally provided with a double-Y-axis moving component and a measuring component, the double-Y-axis moving component is provided with two backlight sources, each backlight source is provided with a tooling fixture, each backlight source is fixed with the tooling fixture and moves back and forth along the double-Y-axis moving component, an X-axis moving component for driving the measuring component to move left and right is arranged above the double-Y, the power supply in the power supply box is electrically connected with the measuring assembly, the double Y-axis moving assembly, the X-axis moving assembly and the computer host, and the computer host is electrically connected with the display and the measuring assembly.

2. The MIM dual station sensing apparatus of claim 1 wherein: the double-Y-axis moving assembly comprises a first guide rail and a second guide rail, the first guide rail and the second guide rail are both located on the upper surface of the marble panel, the first guide rail is located on the left side of the second guide rail, a first Y-axis moving device is arranged on the first guide rail, a second Y-axis moving device is arranged on the second guide rail, a backlight source is arranged on each of the first Y-axis moving device and the second Y-axis moving device, a tooling fixture is fixed on each backlight source, and the first Y-axis moving device and the second Y-axis moving device are electrically connected with a power source.

3. The MIM dual station sensing apparatus of claim 2 wherein: the X axle subassembly includes X axle mobile device, and X axle mobile device is located the top of two frock tools, is fixed with measuring component on the X axle mobile device, and measuring component includes CCD camera and CCD main part device, and the CCD camera is fixed in the front side of CCD main part device, and the front side of CCD camera is equipped with the safety cover, and CCD main part device sets up and removes about just following X axle mobile device in X axle mobile device's front side, and X axle mobile device, CCD camera, CCD main part device all with power electric connection.

4. The MIM dual station sensing apparatus of claim 1 wherein: the bottom of the fixing frame is positioned on the fixing frame between the two left support legs and the fixing frame between the two right support legs, and two trundles are respectively arranged on the fixing frame along the front-back direction.

5. The MIM dual station sensing apparatus of claim 1 wherein: the left side face, the right side face, the top face and the rear side face of the aluminum section support are all provided with tawny organic glass plates.

6. The MIM dual station sensing apparatus of claim 1 wherein: the left side and the right side of the aluminum profile support are provided with safety gratings along the up-down direction.

7. The MIM dual station sensing apparatus of claim 1 wherein: and a safety alarm lamp is arranged at the top of the aluminum profile support.

Images