CN216846017U - Automatic detection device for outer diameter of quartz crucible - Google Patents

Abstract

The application provides quartz crucible external diameter automatic checkout device includes: the quartz crucible placing device comprises a placing plate and a supporting frame arranged at one end of the top of the placing plate, wherein a detection assembly capable of detecting the outer diameter and the inner diameter of a quartz crucible is arranged on the supporting frame. This technical scheme determine module includes the drive division, external diameter detection portion and internal diameter detection portion, make external diameter detection portion remove to the assigned position after through the drive division, can detect out the quartz crucible external diameter through two sets of contact piece one in the external diameter detection portion and the outer wall both sides of waiting to detect quartz crucible, the same reason, can detect out the quartz crucible internal diameter through two sets of contact piece two in the internal diameter detection portion and the contact of the inner wall both sides of waiting to detect quartz crucible, and after external diameter and internal diameter detection portion, can observe the contact piece one of homonymy or the distance between the contact piece two of homonymy and obtain waiting to detect the wall thickness of quartz crucible, need not to adopt specific check out test set, greatly reduced use cost, and the work efficiency is improved.

Description

Automatic detection device for outer diameter of quartz crucible

Technical Field

The utility model discloses quartz crucible detects technical field, concretely relates to quartz crucible external diameter automatic checkout device.

Background

The quartz crucible has the advantages of high purity, strong temperature resistance, large size, high precision, good heat preservation, energy conservation, stable quality and the like, and is more and more widely applied.

The quartz crucible needs to be detected after being cooled and demoulded in the manufacturing process, the traditional quartz crucible detection is outer diameter detection, inner diameter detection or thickness detection of the quartz crucible, but most of the detection is single equipment, for example, a quartz crucible outer diameter detection device can only detect the outer diameter of the quartz crucible, and cannot simultaneously realize inner diameter detection or thickness detection, so that the use cost is increased on one hand, and the working efficiency is reduced on the other hand.

Disclosure of Invention

In view of the above-mentioned drawbacks or shortcomings of the prior art, the present application is directed to an automatic inspection device for the outer diameter of a quartz crucible.

In a first aspect, an automatic detection device for the outer diameter of a quartz crucible comprises:

a placing plate and a supporting frame arranged at one end of the top of the placing plate,

the supporting frame is provided with a detection component capable of detecting the outer diameter and the inner diameter of the quartz crucible, wherein,

the detection assembly comprises a driving part arranged at the top of the support frame, an outer diameter detection part arranged below the driving part and used for detecting the outer diameter, and an inner diameter detection part arranged on the outer diameter detection part and used for detecting the inner diameter.

According to the technical scheme that this application embodiment provided, drive division is including setting up the telescoping device at the carriage top, the activity of telescoping device output runs through and connects external diameter detection portion top through connecting portion behind the support frame, is used for driving external diameter detection portion reciprocates.

According to the technical scheme that this application embodiment provided, external diameter detection portion includes the fixed arm one of being connected with the connecting portion bottom of telescoping device output, the one end activity of fixed arm one is inserted and is established the digging arm one, and top one side of fixed arm one is provided with electric telescopic handle one, electric telescopic handle one's the other end is connected with a digging arm top and is used for driving a digging arm lateral shifting, fixed arm one and the relative one side in bottom of digging arm one all set up contact piece one.

According to the technical scheme that this application embodiment provided, the internal diameter detection portion sets up including sliding the intraoral movable block of fixed arm top guide, the movable block drives lateral shifting through setting up two electric telescopic handle in the guide, and the bottom of movable block is provided with fixed arm two, and the one end activity of fixed arm two is inserted and is established movable arm two, and fixed arm two bottom one side is provided with three one ends of electric telescopic handle, three other ends of electric telescopic handle are connected with two bottoms of movable arm and are used for driving two lateral shifting of movable arm, the relative one side in bottom of fixed arm two and movable arm two all sets up contact block two.

According to the technical scheme that this application embodiment provided, the top of fixed arm one is provided with reference portion, reference portion is including setting up the scale at a fixed arm top, contact block one of a movable arm bottom and the two one sides of contact block two of two bottoms of fixed arm all set up with scale complex indicator.

According to the technical scheme provided by the embodiment of the application, the two groups of flexible pads are arranged on the opposite sides of the first contact block and the opposite sides of the second contact block.

In summary, the present application discloses a quartz crucible outer diameter automatic detection device.

This technical scheme is through being provided with the determine module, the determine module includes the drive division, external diameter detection portion and internal diameter detection portion, make external diameter detection portion remove to the assigned position after through the drive division, can detect out the quartz crucible external diameter through two sets of contact piece one in the external diameter detection portion and the outer wall both sides of waiting to detect quartz crucible, the same is true, can detect out the quartz crucible internal diameter through two sets of contact piece two in the internal diameter detection portion and the contact of waiting to detect quartz crucible's inner wall both sides, and after external diameter and internal diameter detection go out, can observe the distance between the contact piece one of homonymy or the contact piece two of homonymy and obtain the wall thickness of waiting to detect quartz crucible, need not to adopt specific check out test set, greatly reduced use cost, improve work efficiency.

Furthermore, on the basis of the structural design, the reference part is arranged, so that a user can conveniently and accurately obtain the detected numerical values of the inner diameter, the outer diameter and the wall thickness of the quartz crucible, and the detection accuracy is improved.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

FIG. 1 is a perspective view of an automatic inspection device for the outer diameter of a quartz crucible according to the present invention;

FIG. 2 is a perspective view of a detecting unit of the automatic detecting apparatus for outer diameter of a quartz crucible according to the present invention;

fig. 3 is a top perspective view of fig. 2 of the present application.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Example 1

Referring to fig. 1-2, the automatic detecting apparatus for the outer diameter of a quartz crucible comprises: the supporting frame is used for supporting a placing plate 1 for supporting a quartz crucible to be detected and an installing supporting frame 2 and a supporting frame 2 fixed to one end of the top of the placing plate 1, the placing plate 1 is of a rectangular plate-shaped structure, and the supporting frame 2 is L-shaped.

The detection assembly 3 comprises a driving part 31 for driving the outer diameter detection part 32 and the inner diameter detection part 33 to move up and down to be in contact with the quartz crucible on the placing plate 1, and an outer diameter detection part 32 connected with the output end of the driving part 31 and used for detecting the outer diameter of the quartz crucible.

The driving unit 31 is composed of a telescopic device 311 disposed on the top of the supporting frame 2 and a connecting unit disposed at the output end of the telescopic device 311, and the connecting unit is connected to the outer diameter detecting unit 32. The telescopic device 311 may be an electro-hydraulic cylinder, an air cylinder, or a hydraulic rod, and the like, and certainly not limited to the telescopic device proposed above, the connecting portion is preferably a connecting frame with a U-shaped vertical cross-section, and the output end of the telescopic device 311 movably penetrates through the supporting frame 2 and drives the outer diameter detection portion 32 to move up and down through the connecting portion, so that the outer diameter detection portion 32 corresponds to the quartz crucible to be detected.

As shown in fig. 2 to 3, the outer diameter detection portion 32 includes a first fixed arm 321 fixed to the bottom of the connection portion and a first movable arm 322 movably inserted into one end of the first fixed arm 321, the first fixed arm 321 has a notch or a guide channel for the first movable arm 322 to move transversely, so that the first movable arm 322 can move transversely relative to the first fixed arm 321, and the first movable arm 322 can move by being driven by a first electric telescopic rod 323, one end of the first electric telescopic rod 323 can be connected to one side of the outer wall of the first fixed arm 321 through a connection structure, and the other end of the first electric telescopic rod 323 can be connected to one side of the first movable arm 322 through the connection structure, and the first movable arm 322 can be driven to move by driving the first electric telescopic rod 323. The connecting structure may be a bump or a bracket, etc. The first contact blocks 325 are arranged at the ends, opposite to each other, of the bottoms of the first fixed arm 321 and the first movable arm 322, and the bottoms of the two first contact blocks 325 are flush.

When the outer diameter of the quartz crucible is measured, after the first contact block 325 at the lower part of the first fixing arm 321 is contacted with the outer wall of the quartz crucible, the first movable arm 322 is moved by driving the first electric telescopic rod 323 until the second contact block 334 at the lower part of the first movable arm 322 is contacted with the outer wall of the other side of the quartz crucible, and at the moment, the distance between the two first contact blocks 325 is the outer diameter of the quartz crucible.

Example 2

As shown in fig. 2-3, a guide opening 324 is formed in the top of the first fixing arm 321 in a vertical penetrating manner for installing an inner diameter detection part 33 to synchronously detect the inner diameter of the quartz crucible when measuring the outer diameter of the quartz crucible, and when the inner diameter of the quartz crucible is detected, the wall thickness of the quartz crucible can be obtained by observing the distance between the first contact block 325 on the same side and the second contact block 334 on the same side;

the inner diameter detection part 33 comprises a moving block (not shown in the figure) which is arranged in the guide opening 324 in a sliding manner, the moving block is driven by a second electric telescopic rod 331 fixed at one end in the guide opening 324 to realize transverse movement in the guide opening 324, a second fixed arm 332 is arranged at the bottom of the moving block, one end of the second fixed arm 332 is movably inserted into the second movable arm 333, so that the second movable arm 333 can move transversely relative to the second fixed arm 332, the principle is as described above for the first fixed arm 321 and the first movable arm 322, which is not further detailed herein, and meanwhile, the first movable arm 322 is driven by a third electric telescopic rod 335, and as described above, one end of the third electric telescopic rod 335 can be connected with one side of the outer wall of the second fixed arm 332 through a connecting structure, and the other end of the third electric telescopic rod can be connected with one side of the second movable arm 333 through the connecting structure.

2-3, the first electric telescopic rod 323 is positioned at the top of the first fixing arm 321, and the third electric telescopic rod 335 is positioned at the bottom of the second fixing arm 332, which are not interfered with each other.

Similar to the outer diameter detection part 32, two contact blocks 334 are arranged at the opposite ends of the bottoms of the second fixed arm 332 and the second movable arm 333, and the bottoms of the two contact blocks 334 are flush.

When the inner diameter of the quartz crucible is measured, the inner diameter detection part 33 is located in the quartz crucible, after two groups of first contact blocks 325 are respectively contacted with the outer walls of two sides of the quartz crucible, the second fixed arm 332 is moved through the second electric telescopic rod 331 until one side of the second contact block 334 at the bottom of the second fixed arm 332 is contacted with the inner wall of one side of the quartz crucible, the second movable arm 333 is moved through the third electric telescopic rod 335 until one side of the second contact block 334 at the lower part of the second movable arm 333 is contacted with the inner wall of the other side of the quartz crucible, and the distance between the two groups of second contact blocks 334 is the inner diameter of the quartz crucible to be detected.

And the wall thickness of the quartz crucible to be detected can be obtained by observing the distance between the second contact block 334 at the bottom of the second fixing arm 332 and the first contact block 325 at the bottom of the first fixing arm 321.

Example 3

As shown in fig. 3, in consideration of the fact that the distance between the two first contact blocks 325 or the two second contact blocks 334 cannot be accurately known by a human being, the reference portion 34 is disposed at one end of the top of the first fixed arm 321 in the outer diameter detection portion 32, the reference portion 34 includes a scale 341 disposed at one end of the top of the first fixed arm 321 in the outer diameter detection portion 32, one end of the scale 341 corresponds to the first contact block 325 at the bottom of the first fixed arm 321, and the other end of the scale 341 corresponds to a position when the end of the first movable arm 322, which is far away from the first fixed arm 321, moves to a maximum distance. Thus, when the first movable arm 322 moves to a designated position, the first contact block 325 at the bottom thereof can correspond to the scale value on the scale 341.

An indicating sheet 342 corresponding to the graduated scale 341 is arranged on one side of the first contact block 325 at the bottom of the first movable arm 322 and one side of the second contact block 334 at the bottom of the second movable arm 333, and the indicating sheet 342 is preferably L-shaped.

If the numerical value of the scale 341 corresponding to the first contact block 325 at the bottom of the first fixed arm 321 is a, and the numerical value of the scale 341 indicated by the indicating sheet 342 on the first contact block 325 at the bottom of the first movable arm 322 is B, the numerical value of the distance between the two first contact blocks 325, namely the outer diameter of the quartz crucible to be detected, can be obtained by the numerical value B-numerical value a.

Example 4

As shown in fig. 2-3, flexible pads 35 are disposed on the opposite sides of the two first contact blocks 325 and the opposite sides of the two second contact blocks 334 for contacting with the outer wall of the quartz crucible to be detected, so as to reduce contact damage, and the thickness of the flexible pads 35 is preferably 0.2cm to 0.5cm, and is preferably made of an elastic rubber material.

The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be appreciated by those skilled in the art that the scope of the invention herein disclosed is not limited to the particular combination of features described above, but also encompasses other arrangements formed by any combination of the above features or their equivalents without departing from the inventive concept. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (6)

1. Automatic detection device of quartz crucible external diameter includes:

place board (1) and set up and be in place support frame (2) of board (1) top one end, its characterized in that:

the supporting frame (2) is provided with a detection component (3) capable of detecting the outer diameter and the inner diameter of the quartz crucible, wherein,

the detection assembly (3) comprises a driving part (31) arranged at the top of the support frame (2), an outer diameter detection part (32) arranged below the driving part (31) for outer diameter detection, and an inner diameter detection part (33) arranged on the outer diameter detection part (32) for inner diameter detection.

2. The automatic detecting device for the outer diameter of a quartz crucible according to claim 1, characterized in that: drive division (31) is including setting up telescoping device (311) at support frame (2) top, telescoping device (311) output activity runs through support frame (2) back and connects outside diameter detection portion (32) top through connecting portion for drive outside diameter detection portion (32) reciprocate.

3. The automatic detecting device for the outer diameter of a quartz crucible according to claim 2, characterized in that: outer diameter detection portion (32) include fixed arm (321) of being connected with the connecting portion bottom of telescoping device (311) output, the one end activity of fixed arm (321) is inserted and is established digging arm (322), and top one side of fixed arm (321) is provided with electric telescopic handle (323), the other end and the digging arm (322) top of electric telescopic handle (323) are connected and are used for driving digging arm (322) lateral shifting, the relative one side in bottom of fixed arm (321) and digging arm (322) all sets up contact block (325).

4. The automatic detecting device for the outer diameter of a quartz crucible according to claim 3, characterized in that: the inner diameter detection portion (33) is including sliding the setting and being in the movable block in fixed arm (321) top guide way (324), the movable block drives lateral shifting through the electric telescopic handle two (331) that sets up in guide way (324), the bottom of movable block is provided with fixed arm two (332), and the one end activity of fixed arm two (332) is inserted and is established movable arm two (333), and fixed arm two (332) bottom one side is provided with electric telescopic handle three (335) one end, electric telescopic handle three (335) other end is connected with movable arm two (333) bottom and is used for driving movable arm two (333) lateral shifting, the relative one side in bottom of fixed arm two (332) and movable arm two (333) all sets up contact block two (334).

5. The automatic detection device for the outer diameter of a quartz crucible according to claim 4, characterized in that: the top of the first fixed arm (321) is provided with a reference part (34), the reference part (34) comprises a graduated scale (341) arranged at the top of the first fixed arm (321), and one sides of a first contact block (325) at the bottom of the first movable arm (322) and a second contact block (334) at the bottom of the second fixed arm (332) are provided with an indicating sheet (342) matched with the graduated scale (341).

6. The automatic detecting device for the outer diameter of a quartz crucible according to claim 5, wherein: and flexible pads (35) are arranged on the opposite sides of the two groups of first contact blocks (325) and the opposite sides of the two groups of second contact blocks (334).

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