CN219200302U - Glass die punch detection device - Google Patents

Abstract

A glass die punch detection device belongs to the technical field of glass grinding tool detection. The detection device is used for detecting the punch head and is characterized in that: including bottom plate, detection part, clamping part and stand, the stand vertical be fixed in on the bottom plate, clamping part sliding fit on the stand, detection part set up on clamping part, specifically include horizontal micrometer and vertical micrometer, horizontal micrometer be used for measuring the diameter on the drift position, vertical micrometer drive clamping part thereby along the stand removal regulation clamping part and the relative position of last detection part and drift, finally measure the diameter on each position of drift. The advantages are that: simple structure, easy and simple to handle, the practicality is strong, has improved the detection efficiency and the precision of whole drift.

Description

Glass die punch detection device

Technical Field

The utility model belongs to the technical field of glass die detection, and particularly relates to a glass die punch detection device.

Background

The glass die punch is one of essential technological equipment in glass product production, and directly affects the quality, production efficiency, economic benefit and the like of the glass product. In the prior art, the punch of the glass die is generally of a conical structure, the diameters of all the positions of the punch are different, the difficulty in detecting the diameters of all the positions of the punch is generally larger, the quality of the glass die can be influenced by the dimensional error of any position, the manual measurement mode is generally adopted at present, the positions of the punch are drawn by a vernier caliper to measure, the mode has larger error and poor detection efficiency, and finally, the quality of a glass product is influenced, so that the improvement of the quality and the precision of the punch of the die is an important task of industry progress.

In view of the above-described prior art, it is necessary to design a glass die punch detection device to improve the efficiency and accuracy of punch detection. To this end, the applicant has made an advantageous design, and the technical solutions described below are produced in this context.

Disclosure of Invention

The utility model aims to provide a device for detecting a punch of a glass die, which has the advantages of simple structure, simplicity and convenience in operation and strong practicability, and improves the detection efficiency and accuracy of the whole punch.

The utility model accomplishes the task in this way, a kind of glass die punch detection device, used for detecting the punch, the characteristic is: including bottom plate, detection part, clamping part and stand, the stand vertical be fixed in on the bottom plate, clamping part sliding fit on the stand, detection part set up on clamping part, specifically include horizontal micrometer and vertical micrometer, horizontal micrometer be used for measuring the diameter on the drift position, vertical micrometer drive clamping part thereby along the stand removal regulation clamping part and the relative position of last detection part and drift, finally measure the diameter on each position of drift.

In a specific embodiment of the present utility model, the bottom plate is provided with a column cavity, the column is adapted to be positioned in the column cavity and extend out of the surface of the bottom plate, and the column is fixed on the bottom plate by a column fixing pressing plate.

In another specific embodiment of the present utility model, the clamping component includes a slider, and the slider is horizontally sleeved on the upright and moves up and down along the upright.

In another specific embodiment of the present utility model, the clamping member includes a left clamping plate and a right clamping plate, and the left clamping plate and the right clamping plate are respectively slidably mounted at two ends of the slider in one direction.

In still another specific embodiment of the present utility model, the clamping component further includes a left clamping plate slider and a right clamping plate slider, where the slider is provided with a first chute for sliding the left clamping plate slider and a second chute for sliding the right clamping plate slider along a direction; the left clamping plate is fixedly arranged on the left clamping plate sliding block through a left clamping plate fixing screw, and the left clamping plate sliding block can slide along the first sliding groove; the right clamping plate is fixedly arranged on the right clamping plate sliding block through a right clamping plate fixing screw, and the right clamping plate sliding block can slide along the second sliding groove.

In still another specific embodiment of the present utility model, the transverse micrometer is mounted on the left clamping plate and/or the right clamping plate, the transverse micrometer is fixedly mounted on a transverse micrometer fixing seat, and the transverse micrometer fixing seat is fixedly mounted on one side of the sliding block, which is away from the punch, through a transverse micrometer fixing seat screw.

In a further specific embodiment of the utility model, a rotatable transverse knob is mounted at one end of the transverse micrometer far away from the punch, a transverse ejector rod is mounted at one end of the transverse micrometer close to the punch, the transverse ejector rod can be pushed out or pulled back by rotation of the transverse knob, and the transverse ejector rod is in ejector fit with one side of the left clamping plate and/or the right clamping plate far away from the punch.

In a further embodiment of the utility model, the longitudinal micrometer is vertically and fixedly mounted on the slide block.

In still another specific embodiment of the present utility model, a rotatable longitudinal knob is installed at the upper end of the longitudinal micrometer, a longitudinal ejector rod is installed at the lower end of the longitudinal micrometer, the longitudinal ejector rod can be pushed out or pulled back by rotation of the longitudinal knob, and the longitudinal ejector rod is matched with a longitudinal micrometer supporting screw fixedly installed on the bottom plate in a propping mode.

In yet a further specific embodiment of the utility model, the upper surface of the base plate is flat and in close contact with the bottom surface of the punch.

The utility model has the beneficial effects that due to the adoption of the structure, the utility model has the following advantages: the left knob is rotated to push the left clamping plate until the left clamping plate and the right clamping plate clamp the punch at the same time, the reading of the left micrometer is the diameter of the position of the punch, and compared with the detection by using a vernier caliper, the detection device has the advantages that the placement of the punch is stable, the detection time is shortened, and the detection efficiency and the detection precision are obviously improved; secondly, the diameter of each position of the punch can be measured by rotating the longitudinal knob, so that the detection efficiency of the whole punch is further improved; thirdly, this detection device simple structure, easy and simple to handle, the practicality is strong.

Drawings

Fig. 1 is an exploded view of the punch detection apparatus according to the present utility model.

Fig. 2 is a schematic diagram of the detection of the punch detection device according to the present utility model.

In the figure: 1. a bottom plate and 11, a column cavity; 2. the device comprises a detection component, a transverse micrometer, a transverse knob, a transverse ejector rod, a longitudinal micrometer and a longitudinal knob, wherein the transverse micrometer is 21, the transverse knob is 212, the transverse ejector rod is 22, the longitudinal knob is 221, the longitudinal ejector rod is 222, the transverse micrometer fixing seat is 23, the transverse micrometer fixing seat screw is 24, and the longitudinal micrometer supporting screw is 25; 3. clamping parts, 31, left clamping plates, 311, left clamping plate fixing screws, 32, right clamping plates, 321, right clamping plate fixing screws, 33, sliding blocks, 331, sliding cavities, 332, sliding block mounting pressing plates, 333, first sliding grooves, 334, second sliding grooves, 335, longitudinal micrometer mounting holes, 34, left clamping plate sliding blocks, 35 and right clamping plate sliding blocks. Fourth, stand column, 41. Stand column fixed pressing plate; 5. and (5) punching.

Detailed Description

The following detailed description of specific embodiments of the utility model, taken in conjunction with the accompanying drawings, is not intended to limit the scope of the utility model, but rather should be construed to cover any and all modifications that may fall within the spirit and scope of the utility model.

In the following description, any reference to the directions or azimuths of up, down, left, right, front and rear is based on the positions shown in the corresponding drawings, and therefore, should not be construed as a limitation on the technical solutions provided by the present utility model.

Referring to fig. 1 and 2, the present utility model relates to a device for detecting a punch of a glass die, which comprises a base plate 1, a detecting member 2, a clamping member 3 and a column 4, wherein the whole detecting device is used for detecting a punch 5. The upright post 4 is vertically fixed on the bottom plate 1, the upper surface of the bottom plate 1 is flat, and the bottom surface of the bottom plate can be tightly contacted with the punch 5. The punch 5 is of a conical cap structure with the top end diameter smaller than the bottom end diameter.

The base plate 1 is provided with a column cavity 11, the column 4 is adapted to the column cavity 11 to realize positioning and extends out of the surface of the base plate 1, and the column 4 is fixed on the base plate 1 through a column fixing pressing plate 41. In this embodiment, the cross section of the upright 4 is "U" shaped.

The detection part 2 is arranged on the clamping part 3 and specifically comprises a transverse micrometer 21 and a longitudinal micrometer 22, the transverse micrometer 21 is used for measuring the diameter of one position of the punch 5, the longitudinal micrometer 22 drives the clamping part 3 to move along the upright post 4 so as to adjust the relative positions of the clamping part 3 and the detection part 2 and the punch 5, and finally the diameters of all positions of the punch 5 are measured.

The clamping part 3 is in sliding fit with the upright post 4, so that the transverse micrometer 21 is driven to detect the diameters of the punch 5 at all positions. The device specifically comprises a left clamping plate 31, a right clamping plate 32, a sliding block 33, a left clamping plate sliding block 34 and a right clamping plate sliding block 35. The sliding block 33 is horizontally sleeved on the upright post 4. Specifically, a sliding cavity 331 with an internal shape adapted to the external shape of the upright post 4 and semi-surrounding the upright post 4 is formed in the sliding block 33, a sliding block mounting pressing plate 332 is arranged on one side of the sliding block 33, and the upright post 4 is surrounded by the sliding block 33 and the sliding block mounting pressing plate 332, so that the sliding block 33 can move up and down along the upright post 4.

The left clamping plate 31 and the right clamping plate 32 are respectively and slidably mounted at two ends of a direction of the sliding block 33, and the sliding block 33 is provided with a first sliding groove 333 for sliding the left clamping plate sliding block 34 and a second sliding groove 334 for sliding the right clamping plate sliding block 35 along the direction. The left clamping plate 31 is fixedly mounted on the left clamping plate sliding block 34 through a left clamping plate fixing screw 311, and the left clamping plate 31 and the left clamping plate sliding block 34 can slide along a first chute 333. The right clamping plate 32 is fixedly mounted on the right clamping plate slide block 35 through a right clamping plate fixing screw 321, and the right clamping plate 32 and the right clamping plate slide block 35 can slide along the second sliding groove 334.

The transverse micrometer 21 is fixedly arranged on the transverse micrometer fixing seat 23 through a threaded mounting head, and the transverse micrometer fixing seat 23 is fixedly arranged on one side, away from the punch 5, of the sliding block 33 through a transverse micrometer fixing seat screw 24. The rotatable transverse knob 211 is installed to the one end that keeps away from the drift 5 of transverse micrometer 21, transverse ejector pin 212 is installed to the one end that is close to the drift 5 of transverse micrometer 21, transverse ejector pin 212 can be released or pulled back in the rotation of transverse knob 211, transverse ejector pin 212 and left splint 31 cooperation, specifically, transverse ejector pin 212 top join in marriage in the one side that left splint 31 kept away from drift 5, when rotatory transverse knob 211, transverse ejector pin 212 is released and is pushed out on left splint 31 to promote left splint 31 to move to drift 5 direction along spout one 333.

The longitudinal micrometer 22 is vertically and fixedly arranged on the longitudinal micrometer mounting hole 335 of the sliding block 33 through a threaded mounting head, and the longitudinal micrometer 22 is arranged in the U-shaped groove of the upright post 4. The upper end of the longitudinal micrometer 22 is provided with a rotatable longitudinal knob 221, the lower end of the longitudinal micrometer 22 is provided with a longitudinal ejector rod 222, the longitudinal ejector rod 222 can be pushed out or pulled back by the rotation of the longitudinal knob 221, the longitudinal ejector rod 222 is matched with a longitudinal micrometer support screw 25 fixedly arranged on the bottom plate 1, specifically, the longitudinal ejector rod 222 is matched with the longitudinal micrometer support screw 25, when the longitudinal knob 221 is rotated, the longitudinal ejector rod 222 is pushed out to be propped against the longitudinal micrometer support screw 25, and the longitudinal micrometer 22 moves upwards under the action of the reaction force due to the fixed installation of the longitudinal micrometer support screw 25, and simultaneously, the upward movement of the longitudinal micrometer 22 drives the sliding block 33 and the left clamping plate 31, the right clamping plate 32 and the transverse micrometer 21 on the sliding block 33 to move upwards together for detecting the diameter of the other height of the punch 5.

With continued reference to fig. 2 and with reference to fig. 1, the working principle of the device for detecting the punch of the glass die according to the present utility model is as follows: the punch 5 is placed on the bottom plate 1 and is located between the left clamping plate 31 and the right clamping plate 32, in this embodiment, in order to fix the right clamping plate 32, only the transverse micrometer 21 is operated, for example, the transverse knob 211 is rotated to push out the transverse push rod 212, and the transverse push rod 212 pushes the left clamping plate 31 to slide along the first chute 333 until the left clamping plate 31 and the right clamping plate 32 clamp the punch 5 at the same time, and at this time, the reading of the transverse micrometer 21 is the diameter of the punch 5 at the position. When the detecting position is to be changed, the longitudinal knob 221 of the longitudinal micrometer 22 is rotated to push the longitudinal ejector rod 222 out against the longitudinal micrometer support screw 25, the sliding block 33 is lifted or lowered along the upright 11 to adjust the height of the detecting position, and then the transverse micrometer 21 can detect the diameter of the other position of the punch 5.

Of course, in this embodiment, the transverse micrometer 21 is mounted on the left clamping plate 31 side, the right clamping plate 32 is fixed, and when the punch 5 is clamped, the reading of the transverse micrometer 21 is the diameter of the punch 5 at the position. The transverse micrometer 21 can also be arranged on the side of the right clamping plate 32, the left clamping plate 31 is fixed, and when the punch 5 is clamped, the reading of the transverse micrometer 21 is the diameter of the punch 5 at the position. Still alternatively, the lateral micrometer 21 is mounted on both sides of the left clamping plate 31 and the right clamping plate 32, and when the punch 5 is clamped, readings of the two lateral micrometer 21 are respectively taken to determine the diameter of the punch 5 at the position, and obviously, the mode is not as simple as the former two modes.

Claims (10)

1. A glass mould punch detection device for detecting punch (5), characterized in that: including bottom plate (1), detection part (2), clamping part (3) and stand (4), stand (4) vertical be fixed in on bottom plate (1), clamping part (3) sliding fit on stand (4), detection part (2) set up on clamping part (3), specifically include transverse micrometer (21) and vertical micrometer (22), transverse micrometer (21) be used for measuring the diameter on a position of drift (5), vertical micrometer (22) drive clamping part (3) along stand (4) remove thereby adjust clamping part (3) and the relative position of last detection part (2) and drift (5) on, finally measure the diameter on each position of drift (5).

2. The glass die punch detection device according to claim 1, wherein: the base plate (1) on set up stand chamber (11), stand (4) adapt to realize the location in stand chamber (11) and extend the surface of base plate (1), be fixed in on base plate (1) with stand (4) through stand fixed clamp plate (41).

3. The glass die punch detection device according to claim 1, wherein: the clamping component (3) comprises a sliding block (33), and the sliding block (33) is horizontally sleeved on the upright post (4) and moves up and down along the upright post (4).

4. A glass die punch detection apparatus according to claim 3, wherein: the clamping part (3) comprises a left clamping plate (31) and a right clamping plate (32), and the left clamping plate (31) and the right clamping plate (32) are respectively and slidably arranged at two ends of one direction of the sliding block (33).

5. The glass die punch detection apparatus according to claim 4, wherein: the clamping component (3) further comprises a left clamping plate sliding block (34) and a right clamping plate sliding block (35), wherein a first sliding groove (333) for the sliding of the left clamping plate sliding block (34) and a second sliding groove (334) for the sliding of the right clamping plate sliding block (35) are formed in the sliding block (33) along one direction; the left clamping plate (31) is fixedly arranged on the left clamping plate sliding block (34) through a left clamping plate fixing screw (311), and the left clamping plate (31) and the left clamping plate sliding block (34) can slide along the first chute (333); the right clamping plate (32) is fixedly arranged on the right clamping plate sliding block (35) through a right clamping plate fixing screw (321), and the right clamping plate (32) and the right clamping plate sliding block (35) can slide along the second sliding groove (334).

6. The glass die punch detection apparatus according to claim 4, wherein: the transverse micrometer (21) is arranged on the left clamping plate (31) and/or the right clamping plate (32), the transverse micrometer (21) is fixedly arranged on the transverse micrometer fixing seat (23), and the transverse micrometer fixing seat (23) is fixedly arranged on one side, deviating from the punch (5), of the sliding block (33) through the transverse micrometer fixing seat screw (24).

7. The glass die punch detection apparatus according to claim 6, wherein: rotatable transverse knob (211) is installed to the one end that keeps away from drift (5) of transverse micrometer (21), transverse ejector pin (212) is installed to the one end that is close to drift (5) of transverse micrometer (21), and transverse ejector pin (212) can be released or pulled back in the rotation of transverse knob (211), transverse ejector pin (212) top join in marriage in one side that deviates from drift (5) of left splint (31) and/or right splint (32).

8. A glass die punch detection apparatus according to claim 3, wherein: the longitudinal micrometer (22) is vertically and fixedly arranged on the sliding block (33).

9. The glass die punch detection apparatus according to claim 8, wherein: the upper end of the longitudinal micrometer (22) is provided with a rotatable longitudinal knob (221), the lower end of the longitudinal micrometer (22) is provided with a longitudinal ejector rod (222), the longitudinal ejector rod (222) can be pushed out or pulled back by rotating the longitudinal knob (221), and the longitudinal ejector rod (222) is matched with a longitudinal micrometer supporting screw (25) fixedly arranged on the bottom plate (1).

10. The glass die punch detection device according to claim 1, wherein: the upper surface of the bottom plate (1) is flat and is in close contact with the bottom surface of the punch (5).

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