CN113176157B - Quality detection equipment for ceramic delivery test - Google Patents

Abstract

The invention relates to detection equipment, in particular to quality detection equipment for ceramic factory testing. The invention provides a quality detection device for ceramic factory testing, which is provided with pushing, knocking and discharging functions. A quality inspection device for ceramic factory testing, comprising: the device comprises a bottom plate and brackets, wherein the brackets are symmetrically arranged on two sides of the bottom plate; the air cylinder is arranged between the tops of the two brackets; the pushing mechanism is arranged on the middle side of the upper side of the bottom plate and is connected with the air cylinder telescopic rod; the bottom plate is provided with a knocking test mechanism. According to the invention, the ceramic is driven to move forward below the knocking test mechanism, then the ceramic is manually taken down from the sucker by people, and the ceramic is held by hands below the knocking test mechanism, so that the ceramic pushing effect of 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 factory testing.

Background

The ceramic tile, also called tile, is made of refractory metal oxide and semi-metal oxide through grinding, mixing, pressing, glazing and sintering, and its raw materials are mostly made of clay, quartz sand, etc. the quality of the ceramic tile is detected after the processing, the existing quality detecting mode is mostly manual, the manual detecting error is larger, and the result is inaccurate, so it is necessary to design a quality detecting device.

Patent application: CN208818593U, publication day 20190503 discloses a tile quality detection device, drives movable block through the slider and removes, and the movable block of removal strikes the ceramic tile surface, judges the intensity of ceramic tile through the time or the number of times of beating, and the device detects the process convenience, simple structure, but needs artifical unloading, consumes the manpower.

In order to liberate both hands of people and improve detection efficiency, a ceramic delivery test quality detection device with pushing, knocking and discharging functions is needed to be designed.

Disclosure of Invention

In order to overcome the defects of manual feeding and discharging, the technical problems to be solved are as follows: the quality detection equipment for ceramic factory testing is provided with pushing, knocking and discharging functions.

The technical proposal is as follows: a quality inspection device for ceramic factory testing, comprising:

the device comprises a bottom plate and brackets, wherein the brackets are symmetrically arranged on two sides of the bottom plate;

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

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

the bottom plate is provided with a knocking test mechanism.

As a still further preferable aspect, the pushing mechanism includes:

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

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

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

As a still further preferred aspect, the tapping test mechanism includes:

the first rotating sleeves are symmetrically arranged on the two sides of the bottom plate;

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

a torsion spring is connected between the two sides of the hammer and the first rotating sleeve, and the torsion spring is 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 way and is matched with the hammer;

the elastic sliding sleeve is provided with a rotary block in a rotary way;

the bottom plate is provided with a second rotating sleeve;

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

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

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

the bottom plate is provided with a box body;

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

the pushing plate is arranged between the first guide sleeve and the box body in a sliding manner;

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

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

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

the box body is provided with a third guide sleeve;

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

the box body is provided with a third rotating sleeve;

the first straight gear is rotationally arranged on the third rotating sleeve;

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

the box body is provided with two second rotating wheels;

and a pull rope is wound on the first rotating wheel, and one end of the pull rope bypasses the two second rotating wheels to be connected with the push plate.

As a further preferred embodiment, there is also provided a waste collection mechanism comprising:

the bottom plate is provided with a feed box;

the two sides of the feed box are symmetrically provided with the fourth guide sleeves;

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

the feed box is provided with a first rotating sleeve;

the second spur gear is rotationally arranged on the fourth rotating sleeve;

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

the elastic support plate is provided with a first straight rack, and the first straight rack and the second straight rack are 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 second elastic clamping plate is arranged on the fifth guide sleeve in a sliding mode, and the second elastic clamping plate is matched with the hammer;

the sixth guide sleeve is arranged on both sides of the bottom plate;

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

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

As a further preferable embodiment, the hammer is made of a metal material.

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

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

3. the ceramic at the uppermost layer is sucked through the sucker, 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 above operations;

4. the first rotating wheel is driven to rotate through the first straight gear, 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 therefore the effect that the pull rope pulls the push plate is achieved;

5. the second straight gear rotates through the leftward movement of the second straight rack, the first straight rack moves rightward, the right elastic support plate moves rightward, and the crushed ceramic chips fall into the feed box, so that the effect of waste collection is realized;

6. when the second elastic clamping plate swings to the rear side of the second elastic clamping plate, the second elastic clamping plate moves leftwards to reset, so that the second elastic clamping plate is clamped by the hammer, and the effect of clamping the second elastic clamping plate on the hammer is achieved.

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 striking 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 chucking mechanism of the present invention.

Wherein: 1-bottom plate, 2-bracket, 3-cylinder, 4-pushing mechanism, 41-guide plate, 42-moving plate, 43-sucking disc, 5-knocking test mechanism, 51-first rotating sleeve, 52-knocking 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, 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-pulling rope, 8-waste collection mechanism, 81-feed box, 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-fourth rotating plate, 93-elastic clamping plate.

Detailed Description

The invention will be further illustrated by the following description of specific examples, which are given by the terms such as: setting, mounting, connecting are to be construed broadly, and may be, for example, fixed, removable, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Example 1

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

When people need to carry out quality detection for ceramics, the quality detection equipment for ceramic factory testing can be used, people place a collecting frame below the knocking test mechanism 5, firstly, people hold the ceramics below the pushing mechanism 4 by hands, then upwards move the ceramics, the pushing mechanism 4 is used for sucking the ceramics, then the cylinder 3 is started, the telescopic rod of the cylinder 3 drives the pushing mechanism 4 to reciprocate back and forth, when the pushing mechanism 4 drives the ceramics below the knocking test mechanism 5, people take the ceramics off the pushing mechanism 4, then the ceramics are held by hands below the knocking test mechanism 5, and then the people manually rotate the components of the knocking test mechanism 5, so that the effect of detecting the quality of the ceramics is realized when the components of the knocking test mechanism 5 knock the ceramics.

Example 2

On the basis of embodiment 1, as shown in fig. 2 and 3, the pushing mechanism 4 comprises a guide plate 41, a moving plate 42 and sucking discs 43, the guide plates 41 are symmetrically arranged on the left side and the right side of the bottom plate 1, the moving plate 42 is slidably arranged between the rear sides of the two guide plates 41, and three sucking discs 43 are respectively arranged on the left side and the right side of the moving plate 42.

People hold the ceramic below sucking disc 43, upwards remove the ceramic afterwards for sucking disc 43 holds ceramic, then starts cylinder 3, and cylinder 3 telescopic link drives movable plate 42 back and forth reciprocating motion, and movable plate 42 forward motion drives sucking disc 43 forward motion to drive the ceramic and move forward to strike testing mechanism 5 below, then people manually take down ceramic from sucking disc 43, the effect that the ceramic was pushed by movable plate 42 has been realized promptly to the hand support pottery in striking testing mechanism 5 below, can push next batch of ceramic by repeating above operation, need not push control cylinder 3 backward motion and close cylinder 3 can.

The knocking test mechanism 5 comprises a first rotating sleeve 51, a driving hammer 52, a torsion spring 53, a guide rod 54, an elastic sliding sleeve 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 base plate 1, the driving hammer 52 is rotatably arranged between the two first rotating sleeves 51, the torsion spring 53 is connected between the left side and the right side of the driving hammer 52 and the first rotating sleeve 51, the torsion spring 53 winds on the driving hammer 52, the guide rod 54 is arranged on the upper front part of the base plate 1, the elastic sliding sleeve 55 is slidably arranged on the upper side of the guide rod 54, the elastic sliding sleeve 55 is matched with the 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 rotatably arranged on the first elastic rotating plate 57, the first elastic rotating plate 57 is slidably connected with the rotating block 58, the push rod 59 is arranged on the left part of the moving plate 42, and the push rod 59 is matched with the first elastic rotating 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, the rotating block 58 swings, the elastic sliding sleeve 55 slides downwards, when the elastic sliding sleeve 55 moves downwards 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, 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 beats ceramics to achieve the beating effect.

Example 3

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

People put the pottery that needs to detect into box 61, then manual left-hand movement first elastic clamping plate 65, manual upward movement push pedal 63, push pedal 63 upward movement drives pottery upward movement, when sucking disc 43 will the pottery of upper strata hold, unclamp first elastic clamping plate 65 later, first elastic clamping plate 65 resets and blocks push pedal 63, the effect of ejection of compact has been realized to the repeated above operation, when the pottery in the box 61 all is detected, people manually left-hand movement first elastic clamping plate 65, then manual downward pushing push pedal 63 moves down and resets, then loose hands first elastic clamping plate 65 blocks push pedal 63, people put next batch of pottery into box 61.

The pulling mechanism 7 comprises a third guide sleeve 71, a column 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 pull rope 77, wherein the third guide sleeve 71 is arranged on the right portion of the box body 61, the column elastic straight rack 72 is arranged on the third guide sleeve 71 in a sliding mode, the top of the column elastic straight rack 72 is matched with the moving plate 42, the third rotating sleeve 73 is arranged on the right portion of the box body 61, the first straight gear 74 is rotatably arranged on the third rotating sleeve 73, the first rotating wheel 75 is arranged on a 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 pull rope 77 is wound on the first rotating wheel 75, and one end of the pull rope 77 bypasses the two second rotating wheels 76 to be connected with the push plate 63.

When the moving plate 42 moves forward, the elastic straight rack 72 with column in the compressed state moves forward for resetting, the first straight gear 74 is a unidirectional gear and does not rotate, when the moving plate 42 moves backward and contacts the elastic straight rack 72 with column, the moving plate 42 drives the elastic straight rack 72 with column to move backward, so that the first straight gear 74 drives the first rotating wheel 75 to rotate, then the pull rope 77 pulls the push plate 63 to move upward, the first elastic clamping plate 65 moves adaptively and then clamps the push plate 63, namely the effect that the pull rope 77 pulls the push plate 63 is realized, and when the push plate 63 resets, the pull rope 77 moves for resetting.

The waste collection mechanism 8 comprises a material box 81, a fourth guide sleeve 82, an elastic support plate 83, a fourth rotating sleeve 84, a second straight gear 85, a first straight gear 86 and a second straight gear 87, wherein the material box 81 is arranged on the front side of the bottom plate 1, the fourth guide sleeve 82 is symmetrically arranged on the left side and the right side of the material box 81, the elastic support plate 83 is symmetrically arranged on the two fourth guide sleeves 82 in a sliding mode, the fourth rotating sleeve 84 is arranged on the rear portion of the material box 81, the second straight gear 85 is rotatably arranged on the fourth rotating sleeve 84, the second straight gear 87 is arranged on the rear portion of the left elastic support plate 83, the first straight gear 86 is arranged on the rear portion of the right side of the elastic support plate 83, and the first straight gear 86 and the second straight gear 87 are meshed with the second straight gear 85.

When the ceramic moves to the two elastic support plates 83, people manually take the ceramic off the suction disc 43 and put the ceramic on the two elastic support plates 83, after the ceramic is broken by the hammer 52, people manually pull the left elastic support plate 83 leftwards, so that the second straight gear 87 moves leftwards, the second straight gear 85 rotates, the first straight gear 86 moves rightwards, the right elastic support plate 83 moves rightwards, the effect of collecting waste is achieved by falling the crushed ceramic pieces into the feed box 81, then the left elastic support plate 83 is reset by loosening hands, the second straight gear 87 is driven to move rightwards, and the second straight gear 85 drives the first straight gear 86 to move leftwards to reset, and then the right elastic support 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, wherein the fifth guide sleeve 91 is arranged at the rear part of the first rotating 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 sleeves 93 are arranged on the front side and the rear side of the bottom plate 1, 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 column elastic straight racks 72.

When the elastic straight rack 72 with the column moves forwards to contact the rear part of the second elastic rotating plate 95, the rear part of the second elastic rotating plate 95 rotates to start to be matched with the elastic straight rack 72 with the column, at the moment, the elastic sliding sleeve 55 moves downwards to drive the hammer 52 to swing, when the hammer 52 swings to contact 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 clamping the second elastic clamping plate 92 on the hammer 52 is realized, the elastic straight rack 72 with the column moves backwards to drive the second elastic rotating plate 95 to move backwards to drive 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, so that the hammer 52 swings, the torsion spring 53 drives the hammer 52 to reset, and then the clamping mechanism 9 is controlled to reset.

While the 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 (6)

1. The quality detection equipment for ceramic delivery test is characterized by comprising:

the device comprises a bottom plate (1) and a bracket (2), wherein the brackets (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 pushing mechanism (4) is arranged on the middle side of the upper side of the bottom plate (1), and the pushing mechanism (4) is connected with the telescopic rod of the air cylinder (3);

the knocking test mechanism (5) is arranged on the bottom plate (1);

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 suction cups (43), the two sides of the movable plate (42) are provided with three suction cups (43);

the striking test mechanism (5) comprises:

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

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

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

a guide rod (54), wherein 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 way, 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);

the second rotating sleeve (56) is arranged on the bottom plate (1), and the second rotating sleeve (56) is arranged on the bottom plate;

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

the push rod (59), the movable plate (42) is provided with the push rod (59), and the push rod (59) is matched with the first elastic rotating plate (57).

2. The quality inspection device for ceramic factory testing according to claim 1, further comprising a discharging mechanism (6), wherein the discharging mechanism (6) comprises:

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

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

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

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

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

3. A quality inspection apparatus for ceramic factory testing according to claim 2, further comprising a pulling mechanism (7), the pulling mechanism (7) comprising:

the third guide sleeve (71), is equipped with the third guide sleeve (71) on the box (61);

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

the third rotating sleeve (73), the third rotating sleeve (73) is arranged on the box body (61);

a first straight gear (74), wherein the first straight gear (74) is rotatably arranged on the third rotating sleeve (73);

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

the second rotating wheels (76) are arranged on the box body (61);

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

4. A quality inspection apparatus for ceramic factory testing according to claim 3, further comprising a waste collection mechanism (8), the waste collection mechanism (8) comprising:

the material box (81) is arranged on the bottom plate (1);

the fourth guide sleeve (82) is 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 mode;

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

a second spur gear (85), and a second spur gear (85) is rotatably arranged on the fourth rotating sleeve (84);

the elastic supporting 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 meshed with the second straight gear (85).

5. A quality inspection apparatus for ceramic factory testing according to claim 4, further comprising a chucking mechanism (9), the chucking mechanism (9) comprising:

a fifth guide sleeve (91), wherein the fifth guide sleeve (91) is arranged on the first rotating 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 both sides of the bottom plate (1);

the elastic pulling plate (94) is arranged on the sixth guide sleeve (93) 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) 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.

6. A ceramic factory test quality inspection apparatus as claimed in claim 1, wherein the hammer (52) is made of a metal material.

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