CN113176157A - Quality detection equipment for ceramic delivery test - Google Patents

Abstract

The invention relates to detection equipment, in particular to quality detection equipment for ceramic delivery test. The invention provides quality detection equipment for ceramic delivery test, which has the functions of pushing, knocking and discharging. A quality inspection apparatus for a ceramic factory test, comprising: the support is symmetrically arranged on two sides of the bottom plate; the air cylinder is arranged between the tops of the two supports; the pushing mechanism is arranged on the upper middle side of the bottom plate and is connected with the cylinder telescopic rod; the knocking testing mechanism is arranged on the bottom plate. According to the invention, the ceramic is driven to move forwards to the position below the knocking test mechanism, then people manually take the ceramic down from the sucker, and the ceramic is supported by hands below the knocking test mechanism, so that the effect of pushing the ceramic by the moving plate is realized.

Description

Quality detection equipment for ceramic delivery test

Technical Field

The invention relates to detection equipment, in particular to quality detection equipment for ceramic delivery test.

Background

The ceramic tile is also called as a ceramic tile, and is made of refractory metal oxide and semimetal oxide through the processes of grinding, mixing, pressing, glazing and sintering, and is acid-base-resistant porcelain or stone, the raw materials of the ceramic tile are mostly formed by mixing clay, quartz sand and the like, the traditional ceramic tile can be subjected to quality detection after being processed, the traditional quality detection mode is mostly manual detection, the manual detection error is large, the result is inaccurate, and therefore, a quality detection device needs to be designed.

The patent application: CN208818593U, it is 20190503 to disclose a ceramic tile quality detection device, drives the movable block through the slider and removes, and the movable block that removes strikes the ceramic tile surface, judges the intensity of ceramic tile through the time or the number of times of striking, and the device testing process is convenient, simple structure, but need the manual work to go up the unloading, consumes the manpower.

In order to liberate both hands of people and improve the detection efficiency, the quality detection equipment for the ceramic delivery test, which is provided with pushing, knocking and discharging functions, needs to be designed.

Disclosure of Invention

In order to overcome the defect of manual feeding and discharging, the technical problem to be solved is that: the quality detection equipment for the ceramic delivery test is provided with pushing, knocking and discharging functions.

The technical scheme is as follows: a quality inspection apparatus for a ceramic factory test, comprising:

the support is symmetrically arranged on two sides of the bottom plate;

the air cylinder is arranged between the tops of the two supports;

the pushing mechanism is arranged on the upper middle side of the bottom plate and is connected with the cylinder telescopic rod;

the knocking testing mechanism is arranged on the bottom plate.

As a further preferable aspect, the urging mechanism includes:

the guide plates are symmetrically arranged on two sides of the bottom plate;

the moving plate is arranged between the two guide plates in a sliding manner;

the sucking disc, movable plate both sides all are equipped with three sucking disc.

As a further preferred aspect, the knock testing mechanism includes:

the two sides of the bottom plate are symmetrically provided with the first rotating sleeves;

the driving hammer is rotatably arranged between the two first rotating sleeves;

the torsion springs are connected between the two sides of the hammer and the first rotating sleeve and wound on the hammer;

the guide rod is arranged on the bottom plate;

the elastic sliding sleeve is arranged on the upper side of the guide rod in a sliding mode and is matched with the hammer;

the rotating block is rotatably arranged on the elastic sliding sleeve;

the bottom plate is provided with a second rotating sleeve;

the first elastic rotating plate is rotatably arranged on the second rotating sleeve and is connected with the rotating block in a sliding way;

the push rod is arranged on the movable plate and matched with the first elastic rotating plate.

As a further preferable scheme, the device further comprises a discharging mechanism, wherein the discharging mechanism comprises:

the box body is arranged on the bottom plate;

the lower part of the box body is provided with a first guide sleeve;

the push plate is arranged between the first guide sleeve and the box body in a sliding mode;

the lower part of the box body is provided with a second guide sleeve;

first elasticity cardboard, the gliding style of second guide pin bushing is equipped with first elasticity cardboard, first elasticity cardboard and push pedal cooperation.

As a further preferable aspect, the apparatus further comprises a pulling mechanism, and the pulling mechanism comprises:

the box body is provided with a third guide sleeve;

the third guide sleeve is provided with a cylindrical elastic straight rack in a sliding manner, and the top of the cylindrical elastic straight rack is matched with the moving plate;

the box body is provided with a third rotating sleeve;

the third rotating sleeve is rotatably provided with a second straight gear;

the first rotating wheel is arranged on the rotating shaft of the first straight gear;

the box body is provided with two second rotating wheels;

the pull rope is wound on the first rotating wheel, and one end of the pull rope is connected with the push plate by winding the two second rotating wheels.

As a further preferable aspect, the garbage collecting device further includes a garbage collecting mechanism, and the garbage collecting mechanism includes:

the bottom plate is provided with a material box;

the fourth guide sleeves are symmetrically arranged on two sides of the material box;

the elastic support plates are symmetrically arranged on the two fourth guide sleeves in a sliding manner;

the fourth rotating sleeve is arranged on the material box;

the fourth rotating sleeve is rotatably provided with a second straight gear;

the elastic supporting plate is provided with a first straight rack;

the first straight rack is arranged on the elastic supporting plate, and the first straight rack and the second straight rack are both meshed with the second straight gear.

As a further preferable mode, the device further comprises a clamping mechanism, and the clamping mechanism comprises:

the first rotating sleeve is provided with a first guide sleeve;

the fifth guide sleeve is provided with a second elastic clamping plate in a sliding mode, and the second elastic clamping plate is matched with the hammer;

the sixth guide sleeves are arranged on the two sides of the bottom plate;

the sixth guide sleeve is provided with an elastic pulling plate in a sliding manner, and the elastic pulling plate is connected with the second elastic clamping plate in a sliding manner;

and the second elastic rotating plate is arranged on the sixth guide sleeve in a sliding manner, is connected with the elastic pulling plate and is matched with the elastic straight rack with the column.

In a further preferred embodiment, the hammer is made of metal.

The beneficial effects are that: 1. according to the invention, the ceramic is driven to move forwards to the position below the knocking test mechanism, then people manually take the ceramic down from the sucker, and hold the ceramic below the knocking test mechanism by hands, so that the effect of pushing the ceramic by the moving plate is realized;

2. the rotating block is driven to reset through the elastic sliding sleeve, the first elastic rotating plate resets, then the torsion spring drives the hammer to reset, and the hammer hammers the ceramics, so that the hammering effect is realized;

3. the ceramic on the uppermost layer is sucked by the sucking disc, people manually move the first elastic clamping plate rightwards, the first elastic clamping plate clamps the push plate, and the continuous discharging effect is realized by repeating the operation;

4. the first straight gear drives the first rotating wheel to rotate, then the pull rope pulls the push plate to move upwards, the first elastic clamping plate moves adaptively and then clamps the push plate, and the effect that the pull rope pulls the push plate is achieved;

5. the second straight rack moves leftwards, the second straight gear rotates, the first straight rack moves rightwards, the elastic support plate on the right side moves rightwards, and broken ceramic pieces fall into the material box, so that the effect of waste material collection is achieved;

6. when swinging the second elasticity cardboard rear side through the hammer, second elasticity cardboard removes to the left and resets to make the hammer blocked, realized the effect that second elasticity cardboard blocked the hammer promptly.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the pushing mechanism of the present invention.

FIG. 3 is a schematic perspective view of a knocking test mechanism according to the present invention.

Fig. 4 is a schematic perspective view of the discharging mechanism of the present invention.

Fig. 5 is a schematic perspective view of the pulling mechanism of the present invention.

Fig. 6 is a schematic perspective view of the waste collection mechanism of the present invention.

Fig. 7 is a schematic perspective view of the jamming mechanism of the present invention.

Wherein: 1-bottom plate, 2-bracket, 3-cylinder, 4-pushing mechanism, 41-guide plate, 42-moving plate, 43-suction cup, 5-knocking test mechanism, 51-first rotating sleeve, 52-hammer, 53-torsion spring, 54-guide rod, 55-elastic sliding sleeve, 56-second rotating sleeve, 57-first elastic rotating plate, 58-rotating block, 59-push rod, 6-discharging mechanism, 61-box body, 62-first guide sleeve, 63-push plate, 64-second guide sleeve, 65-first elastic clamping plate, 7-pulling mechanism, 71-third guide sleeve, 72-column elastic straight rack, 73-third rotating sleeve, 74-first straight gear, 75-first rotating wheel, 76-second rotating wheel, 77-pull rope, 8-waste collecting mechanism, 81-bin, 82-fourth guide sleeve, 83-elastic supporting plate, 84-fourth rotating sleeve, 85-second straight gear, 86-first straight rack, 87-second straight rack, 9-clamping mechanism, 91-fifth guide sleeve, 92-second elastic clamping plate, 93-sixth guide sleeve, 94-elastic pulling plate and 95-second elastic rotating plate.

Detailed Description

The invention is further illustrated by the following specific examples in which, unless otherwise explicitly stated and limited, terms such as: the arrangement, installation, connection are to be understood broadly, for example, they may be fixed, detachable, 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 meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

The utility model provides a pottery factory test is with quality testing equipment, as shown in figure 1, including bottom plate 1, support 2, cylinder 3, pushing mechanism 4 and strike accredited testing organization 5, the rear portion left and right sides symmetry is equipped with support 2 on bottom plate 1, installs cylinder 3 between two 2 tops of support, and the inboard is equipped with pushing mechanism 4 in bottom plate 1, and pushing mechanism 4 is connected with 3 telescopic links of cylinder, and the front side is equipped with strikes accredited testing organization 5 on bottom plate 1.

When people need give the pottery and carry out the quality testing time, can use this kind of pottery to leave factory and use test quality testing equipment, people place the collection frame in 5 below knocking test mechanism, at first people hold in the palm the pottery in pushing mechanism 4 below, upwards move the pottery afterwards, make pushing mechanism 4 give the pottery and hold, start cylinder 3 afterwards, 3 telescopic links of cylinder drive pushing mechanism 4 reciprocating motion all around, when pushing mechanism 4 drives the pottery and strikes test mechanism 5 below, people take off the pottery from pushing mechanism 4, the hand holds in the palm the pottery afterwards and strikes test mechanism 5 below, people's manual rotation strikes test mechanism 5 parts, realized the effect that detects the ceramic quality when striking test mechanism 5 parts and breaking up the pottery promptly.

Example 2

Based on embodiment 1, as shown in fig. 2 and 3, the pushing mechanism 4 includes guide plates 41, moving plates 42 and suction cups 43, the guide plates 41 are symmetrically disposed on the left and right sides of the bottom plate 1, the moving plate 42 is slidably disposed between the rear sides of the two guide plates 41, and the three suction cups 43 are disposed on the left and right sides of the moving plate 42.

People hold in the palm the pottery in sucking disc 43 below, rebound pottery afterwards, make sucking disc 43 hold up the pottery, start cylinder 3 afterwards, 3 telescopic links of cylinder drive movable plate 42 reciprocating motion around, movable plate 42 moves forward and drives sucking disc 43 and moves forward, thereby drive the pottery and move forward to strikeing 5 below of accredited testing organization, people take the pottery from sucking disc 43 manually afterwards, the hand holds in the palm the pottery and strikes 5 below of accredited testing organization, movable plate 42 propelling movement ceramic's effect has been realized promptly, operation more than the repetition can the propelling movement of next batch pottery, it can to control cylinder 3 rearward movement and close cylinder 3 when not needing the propelling movement.

The knocking testing mechanism 5 comprises a first rotating sleeve 51, driving hammers 52, a torsion spring 53, a guide rod 54, elastic sliding sleeves 55, a second rotating sleeve 56, a first elastic rotating plate 57, a rotating block 58 and a push rod 59, wherein the first rotating sleeve 51 is symmetrically arranged on the left side and the right side of the upper front part of the bottom plate 1, the driving hammers 52 are rotatably arranged between the two first rotating sleeves 51, the torsion spring 53 is connected between the left side and the right side of each driving hammer 52 and the first rotating sleeve 51, the torsion spring 53 is wound on each driving hammer 52, the guide rod 54 is arranged on the upper front part of the bottom plate 1, the elastic sliding sleeve 55 is slidably arranged on the upper side of each guide rod 54, the elastic sliding sleeve 55 is matched with each driving hammer 52, the rotating block 58 is rotatably arranged on the left part of the elastic sliding sleeve 55, the second rotating sleeve 56 is arranged on the left side of the upper front part of the bottom plate 1, the first elastic rotating plate 57 is slidably connected with each rotating block 58, the push rod 59 is arranged on the left part of the movable plate 42, the push rod 59 is engaged with the first elastic rotary plate 57.

The moving plate 42 moves forward to drive the push rod 59 to move forward, so that the first elastic rotating plate 57 swings forward, and further the rotating block 58 swings, the elastic sliding sleeve 55 slides downward, when the elastic sliding sleeve 55 moves downward to contact with the hammer 52, the elastic sliding sleeve 55 drives the hammer 52 to swing, the torsion spring 53 deforms, the moving plate 42 moves backward to drive the push rod 59 to move backward, so that the elastic sliding sleeve 55 drives the rotating block 58 to reset, the first elastic rotating plate 57 resets, the torsion spring 53 drives the hammer 52 to reset, and the hammer 52 hammers the ceramic, namely, the hammering effect is realized.

Example 3

On the basis of the embodiment 2, as shown in fig. 4-7, the device further includes a discharging mechanism 6, the discharging mechanism 6 includes a box 61, a first guide sleeve 62, a push plate 63, a second guide sleeve 64, and a first elastic clamping plate 65, the box 61 is disposed on the rear side of the bottom plate 1, the first guide sleeve 62 is disposed on the lower portion of the box 61, the push plate 63 is slidably disposed between the first guide sleeve 62 and the box 61, the second guide sleeve 64 is disposed on the lower portion of the box 61, the first elastic clamping plate 65 is slidably disposed on the second guide sleeve 64, and the first elastic clamping plate 65 is matched with the push plate 63.

People put into box 61 with the pottery that needs to detect, manual first elasticity cardboard 65 of left movement afterwards, manual rebound push pedal 63, push pedal 63 upward movement drives pottery upward movement, when sucking disc 43 inhales the pottery of the superiors, loosen first elasticity cardboard 65 afterwards, first elasticity cardboard 65 resets and blocks push pedal 63, the effect of the ejection of compact has been realized promptly in the operation more than repetition, when the pottery in box 61 was all detected, people manually move first elasticity cardboard 65 left, manual downward promotion push pedal 63 moves down afterwards and resets, the first elasticity cardboard 65 of loose hand afterwards blocks push pedal 63, people put into box 61 with next batch pottery.

The automatic pulling device is characterized by further comprising a pulling mechanism 7, wherein the pulling mechanism 7 comprises a third guide sleeve 71, a cylindrical elastic straight rack 72, a third rotating sleeve 73, a first straight gear 74, a first rotating wheel 75, a second rotating wheel 76 and a pulling rope 77, the third guide sleeve 71 is arranged at the right part of the box body 61, the cylindrical elastic straight rack 72 is arranged on the third guide sleeve 71 in a sliding mode, the top of the cylindrical elastic straight rack 72 is matched with the moving plate 42, the third rotating sleeve 73 is arranged at the right part of the box body 61, the first straight gear 74 is arranged on the third rotating sleeve 73 in a rotating mode, the first rotating wheel 75 is arranged on the rotating shaft of the first straight gear 74, two second rotating wheels 76 are arranged on the lower side of the box body 61, the pulling rope 77 is wound on the first rotating wheel 75, and one end of the pulling rope 77 bypasses the two second rotating wheels 76 and is connected with the pushing plate 63.

When the moving plate 42 moves forwards, the elastic spur rack 72 with the column in a compressed state moves forwards and resets, the first straight gear 74 is a one-way gear and does not rotate, when the moving plate 42 moves backwards to contact the elastic spur rack 72 with the column, the moving plate 42 drives the elastic spur rack 72 with the column to move backwards, so that the first straight gear 74 drives the first rotating gear 75 to rotate, then the pulling rope 77 pulls the pushing plate 63 to move upwards, the first elastic clamping plate 65 moves adaptively and then clamps the pushing plate 63, namely, the effect that the pulling rope 77 pulls the pushing plate 63 is realized, and after the pushing plate 63 resets, the pulling rope 77 moves and resets along with the pushing plate 63.

Still including garbage collection mechanism 8, garbage collection mechanism 8 is including the workbin 81, fourth guide pin bushing 82, resilient support board 83, fourth commentaries on classics cover 84, second spur gear 85, first spur gear 86 and second spur gear 87, the front side is equipped with the workbin 81 on the bottom plate 1, the workbin 81 bilateral symmetry is equipped with fourth guide pin bushing 82, two sliding type symmetries are equipped with resilient support board 83 on the fourth guide pin bushing 82, the workbin 81 rear portion is equipped with fourth commentaries on classics cover 84, the last rotating type of fourth commentaries on classics cover 84 is equipped with second spur gear 85, left resilient support board 83 rear portion is equipped with second spur gear 87, the resilient support board 83 rear portion on right side is equipped with first spur gear 86, first spur gear 86 and second spur gear 87 all mesh with second spur gear 85.

When the ceramic moves to the two elastic supporting plates 83, the ceramic is manually taken down from the suction disc 43 and placed on the two elastic supporting plates 83, after the ceramic is broken by the hammer 52, the left elastic supporting plate 83 is manually pulled leftwards by people, so that the second straight rack 87 moves leftwards, the second straight gear 85 rotates, the first straight rack 86 moves rightwards, the right elastic supporting plate 83 moves rightwards, the broken ceramic pieces fall into the material box 81, the waste material collection effect is achieved, then the left elastic supporting plate 83 is reset by loosening, the second straight rack 87 is driven to move rightwards to reset, and the first straight rack 86 is driven by the second straight gear 85 to move leftwards to reset, and the right elastic supporting plate 83 moves leftwards to reset.

The clamping mechanism 9 comprises a fifth guide sleeve 91, a second elastic clamping plate 92, a sixth guide sleeve 93, an elastic pulling plate 94 and a second elastic rotating plate 95, the fifth guide sleeve 91 is arranged at the rear part of the first guide sleeve 51, the second elastic clamping plate 92 is arranged on the fifth guide sleeve 91 in a sliding mode, the second elastic clamping plate 92 is matched with the hammer 52, the sixth guide sleeve 93 is arranged on the front side and the rear side of the bottom plate 1, the elastic pulling plate 94 is arranged on the sixth guide sleeve 93 on the front side in a sliding mode, the elastic pulling plate 94 is connected with the second elastic clamping plate 92 in a sliding mode, the second elastic rotating plate 95 is arranged on the sixth guide sleeve 93 on the rear side in a sliding mode, the second elastic rotating plate 95 is connected with the elastic pulling plate 94, and the second elastic rotating plate 95 is matched with the straight-tooth-post elastic strip 72.

When the spur-equipped elastic spur rack 72 moves forward to contact the rear portion of the second elastic rotation plate 95, the rear portion of the second elastic rotation plate 95 rotates, so as to start to cooperate with the elastic straight rack 72 with columns, at this time, the elastic sliding sleeve 55 moves downwards to drive the hammer 52 to swing, when the hammer 52 swings and contacts the second elastic clamping plate 92, the second elastic clamping plate 92 moves rightwards, when the hammer 52 swings to the rear side of the second elastic clamping plate 92, the second elastic clamping plate 92 automatically moves leftwards to reset, so that the hammer 52 is clamped, namely, the effect of the second elastic clamping plate 92 on the blocking of the hammer 52 is achieved, the elastic straight rack 72 with column moves backwards to drive the second elastic rotating plate 95 to move backwards, thereby driving the elastic pulling plate 94 to move backwards, the second elastic clamping plate 92 moves rightwards under the action of the elastic pulling plate 94, thereby, the hammer 52 is swung, the torsion spring 53 returns the hammer 52, and then the chucking mechanism 9 is controlled to return.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.

Claims (8)

1. A quality detection device for ceramic delivery test is characterized by comprising:

the device comprises a bottom plate (1) and supports (2), wherein the supports (2) are symmetrically arranged on two sides of the bottom plate (1);

the air cylinder (3) is arranged between the tops of the two brackets (2);

the middle side of the upper part of the bottom plate (1) is provided with a pushing mechanism (4), and the pushing mechanism (4) is connected with a telescopic rod of the cylinder (3);

the knocking testing mechanism (5) is arranged on the bottom plate (1).

2. The quality inspection apparatus for ceramic factory test as claimed in claim 1, wherein the pushing mechanism (4) comprises:

the guide plates (41) are symmetrically arranged on two sides of the bottom plate (1);

a moving plate (42), wherein the moving plate (42) is arranged between the two guide plates (41) in a sliding manner;

the two sides of the sucker (43) and the moving plate (42) are respectively provided with three suckers (43).

3. The quality inspection apparatus for ceramic factory test as claimed in claim 2, wherein the knock test mechanism (5) comprises:

the two sides of the bottom plate (1) are symmetrically provided with the first rotating sleeves (51);

the hammer (52) is rotatably arranged between the two first rotating sleeves (51);

the torsion spring (53) is connected between both sides of the hammer (52) and the first rotating sleeve (51), and the torsion spring (53) is wound on the hammer (52);

the guide rod (54) is arranged on the bottom plate (1);

the elastic sliding sleeve (55) is arranged on the upper side of the guide rod (54) in a sliding manner, and the elastic sliding sleeve (55) is matched with the hammer (52);

the rotating block (58) is rotatably arranged on the elastic sliding sleeve (55);

a second rotating sleeve (56), wherein the bottom plate (1) is provided with the second rotating sleeve (56);

the first elastic rotating plate (57) is rotatably arranged on the second rotating sleeve (56), and the first elastic rotating plate (57) is connected with the rotating block (58) in a sliding manner;

the push rod (59) is arranged on the moving plate (42), and the push rod (59) is matched with the first elastic rotating plate (57).

4. The quality inspection apparatus for ceramic factory test as claimed in claim 3, further comprising a discharging mechanism (6), wherein the discharging mechanism (6) comprises:

the box body (61) is arranged on the bottom plate (1);

a first guide sleeve (62), wherein the lower part of the box body (61) is provided with the first guide sleeve (62);

the push plate (63) is arranged between the first guide sleeve (62) and the box body (61) in a sliding manner;

a second guide sleeve (64), wherein the lower part of the box body (61) is provided with the second guide sleeve (64);

the first elastic clamping plate (65) is arranged on the second guide sleeve (64) in a sliding mode, and the first elastic clamping plate (65) is matched with the push plate (63).

5. The quality inspection apparatus for ceramic factory test as claimed in claim 4, further comprising a pulling mechanism (7), wherein the pulling mechanism (7) comprises:

a third guide sleeve (71), wherein the box body (61) is provided with the third guide sleeve (71);

the elastic straight rack (72) with the column is arranged on the third guide sleeve (71) in a sliding mode, and the top of the elastic straight rack (72) with the column is matched with the moving plate (42);

a third rotating sleeve (73), wherein the box body (61) is provided with the third rotating sleeve (73);

the first straight gear (74) is rotationally arranged on the third rotating sleeve (73);

a first rotating wheel (75) is arranged on the rotating shaft of the first straight gear (74);

the box body (61) is provided with two second rotating wheels (76);

the pull rope (77) is wound on the first rotating wheel (75), and one end of the pull rope (77) is connected with the push plate (63) by winding the two second rotating wheels (76).

6. The quality inspection apparatus for ceramic factory test as claimed in claim 5, further comprising a scrap collecting mechanism (8), wherein the scrap collecting mechanism (8) comprises:

the bottom plate (1) is provided with a material box (81);

the fourth guide sleeves (82), the fourth guide sleeves (82) are symmetrically arranged on two sides of the feed box (81);

the elastic support plates (83) are symmetrically arranged on the two fourth guide sleeves (82) in a sliding manner;

a fourth rotating sleeve (84), and a fourth rotating sleeve (84) is arranged on the feed box (81);

the second straight gear (85) is rotationally arranged on the fourth rotating sleeve (84);

the elastic support plate (83) is provided with a second straight rack (87);

the first straight rack (86) is arranged on the elastic supporting plate (83), and the first straight rack (86) and the second straight rack (87) are both meshed with the second straight gear (85).

7. The quality inspection apparatus for ceramic factory test as claimed in claim 6, further comprising a chucking mechanism (9), wherein the chucking mechanism (9) comprises:

a fifth guide sleeve (91), wherein the fifth guide sleeve (91) is arranged on the first rotary sleeve (51);

the fifth guide sleeve (91) is provided with a second elastic clamping plate (92) in a sliding mode, and the second elastic clamping plate (92) is matched with the hammer (52);

the sixth guide sleeve (93), the sixth guide sleeve (93) is arranged on both sides of the bottom plate (1);

the elastic pulling plate (94), the sixth guide sleeve (93) is provided with the elastic pulling plate (94) in a sliding manner, and the elastic pulling plate (94) is connected with the second elastic clamping plate (92) in a sliding manner;

the second elastic rotating plate (95) is arranged on the sixth guide sleeve (93) in a sliding mode, the second elastic rotating plate (95) is connected with the elastic pulling plate (94), and the second elastic rotating plate (95) is matched with the elastic straight rack (72) with the column.

8. The quality inspection apparatus for ceramic factory tests as claimed in claim 3, wherein the hammer (52) is made of metal.

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