CN110487648A - A kind of high-precision detection device and its application method for Ceramic Tiles quality - Google Patents

Abstract

The present invention provides a kind of high-precision detection device and its application method for Ceramic Tiles quality, is related to ceramic tile quality testing field.A kind of high-precision detection device and its application method for Ceramic Tiles quality, including support frame, the two sides of the support frame inner bottom wall are welded with support column, fixed device is connected at the top of the support column, the fixed device includes supporting table, aspiration pump is welded in the middle part of the supporting table bottom, the two sides of the aspiration pump are communicated with exhaust tube.This device is when in use, ceramic tile ontology is fixed by fixed device, to open beating unit, ceramic tile ontology is struck by beating unit, to detect to the intensity of ceramic tile ontology, watertight detection can be carried out to ceramic tile ontology by watertight detection device, and then detect the seepage of water of ceramic tile ontology, so that this device is had the characteristics of can be accurate and easily detecting to ceramic tile, solves the problems, such as that traditional artificial detection error is big.

Description

A kind of high-precision detection device and its application method for Ceramic Tiles quality

Technical field

The present invention relates to ceramic tile technical field of quality detection, specially a kind of high-precision detection for Ceramic Tiles quality is set Standby and its application method.

Background technique

Ceramic tile, also known as ceramic tile, are metal oxide and half-metal oxide with fire resisting, via grinding, mixing, compacting, The process of glazing, sintering, and a kind of porcelain of the acid and alkali-resistance formed or stone matter etc., building or ornament materials, referred to as ceramic tile, Raw material are mostly mixed by clay, quartz sand etc..

Traditional ceramic tile often can only manually carry out quality testing to it after processing is completed, however artificial quality inspection there is Error is big, and the problem of can not precisely detect, and the present invention provides a kind of high-precision detection device for Ceramic Tiles quality thus And its application method, have the characteristics of can be accurate and easily detecting to ceramic tile, solves traditional artificial detection error Big problem makes the detection of ceramic tile more accurately and conveniently.

Summary of the invention

Technical solution

In order to achieve the above object, the present invention is achieved by the following technical programs: a kind of height for Ceramic Tiles quality The two sides of precision testing device and its application method, including support frame, the support frame inner bottom wall are welded with support column, described Fixed device is connected at the top of support column, the fixed device includes supporting table, is welded in the middle part of the supporting table bottom Aspiration pump, the two sides of the aspiration pump are communicated with exhaust tube, and the bottom of the aspiration pump is communicated with exhaust pipe, the exhaust tube Top it is equidistant be communicated with diversion pipe, the top of the diversion pipe through supporting table bottom and extend to the top of supporting table Portion is communicated with rubber suction cups at the top of the diversion pipe, and the apex suction of the rubber suction cups has ceramic tile ontology, the support frame Inner bottom wall be connected with lifting device, be connected with suspending rod in the middle part of the support frame inner roof wall, the bottom set of the suspending rod It is connected to bearing, the bottom of the bearing is connected with water tank, and the top on the right side of the water tank is connected with pull rod, the bottom of the pull rod It is connected with No.1 electric pushrod, the bottom of the No.1 electric pushrod is connected with beating unit, the middle part of the water tank inner bottom wall It is connected with watertight detection device, the watertight detection device includes water pump, and the two sides of the water pump are communicated with water-supply-pipe, described The bottom of water-supply-pipe is equidistant to be communicated with sparge pipe, and the bottom of the sparge pipe runs through the inner bottom wall of water tank and extends to water tank Bottom is socketed with No.1 spring on the outside of the sparge pipe, and the bottom of the No.1 spring is connected with No.1 sealing block, the spray The bottom of water pipe is socketed with rubber water retaining cover, and the top of the rubber water retaining cover and the bottom of No.1 sealing block overlap, the spray One end that water pipe is located on the inside of rubber water retaining cover is socketed with No. two sealing blocks.

Further, the lifting device includes No. two electric pushrods, the bottom of No. two electric pushrods and support frame Inner bottom wall welding, be connected with elevating lever at the top of No. two electric pushrods, the top of the elevating lever is equidistant to be connected with Mandril, is socketed with casing on the outside of the mandril, and the top of described sleeve pipe is through supporting table and extends to the top of supporting table, institute It states and is welded with rubber jacking block at the top of mandril, the rubber jacking block is located at the lower section of ceramic tile body bottom portion.

Further, the beating unit includes support bar, the top of the support bar and the bottom of No.1 electric pushrod Welding, the two sides of the support bar are respectively connected with sliding sleeve, and slide bar, the bottom connection of the slide bar are plugged on the inside of the sliding sleeve There is buffer table, No. two springs are socketed on the outside of the slide bar, the bottom of No. two springs and the top of buffer table are welded, institute The bottom at the top and sliding sleeve of stating No. two springs is welded, and is welded with non-slipping block, the bottom of the buffer table at the top of the slide bar It is connected with impact motor, rocking bar is welded on the left of the impact motor output shaft, percussion block is connected on the left of the rocking bar, The bottom of the impact motor is connected with l-shaped rod, and the l-shaped rod is connected with siphunculus, the siphunculus far from one end of impact motor Inside be plugged with striker, pushing block is connected at the top of the striker, No. three springs are socketed on the outside of the striker, it is described The top of No. three springs and the bottom of pushing block are welded, and the bottom of No. three springs and the top of siphunculus are welded, the striker Bottom be welded with impact block.

Further, the inner wall of the water tank is welded with pulling plate, and condenser pipe, the water tank are connected at the top of the pulling plate Filler pipe is communicated at the top of left side.

Further, internal gear is connected at the top of the water tank, the two sides of the support frame inner roof wall, which are respectively connected with, to be subtracted Speed motor, the bottom of the geared motor output shaft are connected with gear, are meshed on the inside of the outside of the gear and internal gear.

Further, the water tank is cylindrical body, and water tank is stainless steel material, and the water tank is located at ceramic tile bodies top Surface.

It is further:

The first step, the top by the way that ceramic tile ontology to be put to rubber suction cups, and then unlatching aspiration pump makes rubber suction cups Inner cavity generates negative pressure, to make ceramic tile ontology that can easily be fixed.

Second step opens impact motor, to make to strike motor drive percussion block rotation, makes to tap block for pushing block and hit Needle pushes down on, and then strike the impact block positioned at striker bottom can easily to ceramic tile ontology, to detect ceramic tile The intensity of ontology.

It is further:

The first step opens No. two electric pushrods, makes No. two electric pushrods that mandril and rubber jacking block be pushed to move upwards, thus The top of rubber jacking block and the bottom of ceramic tile ontology are contacted, so that ceramic tile ontology be driven to move up, makes the top of ceramic tile ontology Portion is contacted with the bottom of rubber water retaining cover.

Second step opens water pump, enters water flow in the inner cavity of rubber water retaining cover, to make in the inner cavity of rubber water retaining cover Hydraulic pressure, and then the infiltration situation for the position not covered by rubber water blocking cover by ceramic tile bodies top are generated, to judge ceramic tile Whether ontology is qualified, and then completes the detection of ceramic tile waterproof.

Beneficial effect

Compare the prior art, and the present invention provides a kind of for the high-precision detection device of Ceramic Tiles quality and its use Method, have it is following the utility model has the advantages that

1, the high-precision detection device and its application method that are used for Ceramic Tiles quality, by beating unit, fixed device, Being used cooperatively for lifting device and watertight detection device, makes this device when in use, by fixed device by ceramic tile ontology into Row is fixed, to open beating unit, is struck by beating unit to ceramic tile ontology, thus to the intensity of ceramic tile ontology into Row detection, and then by the starting of lifting device, make lifting device that ceramic tile ontology be driven to move up, makes watertight detection device can Watertight detection is carried out to ceramic tile ontology, and then detects the seepage of water of ceramic tile ontology, to detect the waterproof of ceramic tile ontology Property, and then the whole quality inspection of ceramic tile ontology is completed, so that this device is had the characteristics of can be accurate and easily detecting to ceramic tile, It solves the problems, such as that traditional artificial detection error is big, makes the detection of ceramic tile more accurately and conveniently.

2, the high-precision detection device and its application method that are used for Ceramic Tiles quality by impact motor, percussion block, push away Motion block, striker and impact block are used cooperatively, and are made this device when in use, are struck motor by opening, and then make to strike motor It drives and taps block rotation, make to tap block slamming down pushing block, thus make pushing block that striker and impact block be pushed to move downward, into And impact block is made to strike the top of ceramic tile ontology, to complete the intensity detection to ceramic tile ontology, and then make ceramic tile ontology Enhanced convenience is detected, making this device, it is more convenient to use.

3, the high-precision detection device and its application method that are used for Ceramic Tiles quality pass through water pump, No.1 spring, lifting Device, rubber water retaining cover, No.1 sealing block and sparge pipe are used cooperatively, and make this device when in use, passing through lifting device will Ceramic tile ontology pushes up, and then contacts the top of ceramic tile ontology and the bottom of rubber water retaining cover, to make rubber water retaining cover It moves up, No.1 spring is enable to compress, and then improve No.1 spring to the pressure of No.1 sealing block, so that No.1 be made to seal Block and being bonded for rubber water retaining cover are more close, thus by the starting of water pump, so that water is injected rubber by sparge pipe Water retaining cover to complete to detect the waterproofness of ceramic tile ontology, and then makes the detection enhanced convenience of ceramic tile, solves traditional people The big problem of work detection error makes the detection of ceramic tile more accurately and conveniently.

Detailed description of the invention

Fig. 1 is schematic structural view of the invention；

Fig. 2 is enlarged drawing at A in Fig. 1；

Fig. 3 is enlarged drawing at B in Fig. 1；

Fig. 4 is water tank top view；

Fig. 5 is this rubber waterproof cover bottom view.

Wherein: 1 support frame, 2 support columns, 3 fixed devices, 301 supporting tables, 302 aspiration pumps, 303 exhaust tubes, 304 exhausts Pipe, 305 diversion pipes, 306 rubber suction cups, 4 ceramic tile ontologies, 5 lifting devices, 501 No. two electric pushrods, 502 elevating levers, 503 tops Bar, 504 casings, 505 rubber jacking blocks, 6 suspending rods, 7 bearings, 8 water tanks, 9 pull rods, 10 No.1 electric pushrods, 11 beating units, 1101 support bars, 1102 sliding sleeves, 1103 slide bars, 1104 buffer tables, 1105 No. two springs, 1106 non-slipping blocks, 1107 impact motors, 1108 rocking bars, 1109 percussion blocks, 1110L type bar, 1111 logical, 1112 strikers, 1113 pushing blocks, 1114 No. three springs, 1115 are hit Hit block, 12 watertight detection devices, 1201 water pumps, 1202 water-supply-pipes, 1203 sparge pipes, 1204 No.1 sealing blocks, 1205 rubber stops Water cover, 1206 No. two sealing blocks, 1207 No.1 springs, 13 pulling plates, 14 condenser pipes, 15 filler pipes, 16 internal gears, 17 deceleration electricity Machine, 18 gears.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

As shown in Figs. 1-5, a kind of high-precision detection device and its application method for Ceramic Tiles quality, including support frame 1, the two sides of 1 inner bottom wall of support frame are welded with support column 2, and the top of support column 2 is connected with fixed device 3, and fixed device 3 wraps Supporting table 301 is included, aspiration pump 302 is welded in the middle part of 301 bottom of supporting table, the two sides of aspiration pump 302 are communicated with exhaust tube 303, the bottom of aspiration pump 302 is communicated with exhaust pipe 304, and the top of exhaust tube 303 is equidistant to be communicated with diversion pipe 305, water conservancy diversion The top of pipe 305 runs through the bottom of supporting table 301 and extends to the top of supporting table 301, and the top of diversion pipe 305 is communicated with rubber Glue sucker 306, the apex suction of rubber suction cups 306 have ceramic tile ontology 4, and the inner bottom wall of support frame 1 is connected with lifting device 5, rise Falling unit 5 includes No. two electric pushrods 501, and the bottom of No. two electric pushrods 501 and the inner bottom wall of support frame 1 are welded, No. two electricity The top of dynamic push rod 501 is connected with elevating lever 502, and the top of elevating lever 502 is equidistant to be connected with mandril 503, mandril 503 it is outer Side is socketed with casing 504, and the top of casing 504 runs through supporting table 301 and extends to the top of supporting table 301, the top of mandril 503 Portion is welded with rubber jacking block 505, and rubber jacking block 505 is located at the lower section of 4 bottom of ceramic tile ontology, connects in the middle part of 1 inner roof wall of support frame It is connected to suspending rod 6, the bottom of suspending rod 6 is socketed with bearing 7, and the bottom of bearing 7 is connected with water tank 8, and water tank 8 is cylindrical body, and Water tank 8 is stainless steel material, and water tank 8 is located at the surface at 4 top of ceramic tile ontology, and the top on 8 right side of water tank is connected with pull rod 9, The bottom of pull rod 9 is connected with No.1 electric pushrod 10, and the bottom of No.1 electric pushrod 10 is connected with beating unit 11, beating unit 11 include support bar 1101, and the top of support bar 1101 and the bottom of No.1 electric pushrod 10 are welded, the two sides of support bar 1101 It is respectively connected with sliding sleeve 1102, the inside of sliding sleeve 1102 is plugged with slide bar 1103, and the bottom of slide bar 1103 is connected with buffer table 1104, The outside of slide bar 1103 is socketed with No. two springs 1105, and the bottom of No. two springs 1105 and the top of buffer table 1104 are welded, and two The top of number spring 1105 and the bottom of sliding sleeve 1102 are welded, and the top of slide bar 1103 is welded with non-slipping block 1106, buffer table 1104 bottom is connected with impact motor 1107, strikes and is welded with rocking bar 1108, rocking bar 1108 on the left of 1107 output shaft of motor Left side be connected with and tap block 1109, the bottom of impact motor 1107 is connected with l-shaped rod 1110, and l-shaped rod 1110 is far from impact electricity One end of machine 1107 is connected with siphunculus 1111, and the inside of siphunculus 1111 is plugged with striker 1112, and the top of striker 1112 is connected with Pushing block 1113, the outside of striker 1112 are socketed with No. three springs 1114, top and the pushing block 1113 of No. three springs 1114 Bottom welding, the bottom of No. three springs 1114 and the top of siphunculus 1111 are welded, and the bottom of striker 1112 is welded with impact block 1115, the first step, the top by the way that ceramic tile ontology 4 to be put to rubber suction cups 306, and then opening aspiration pump 302 inhales rubber The inner cavity of disk 306 generates negative pressure, to make ceramic tile ontology 4 that can easily be fixed, second step opens impact motor 1107, To make to strike the drive percussion rotation of block 1109 of motor 1107, push down on percussion block 1109 by pushing block 1113 and striker 1112 It is dynamic, and then strike the impact block 1115 positioned at 1112 bottom of striker can easily to ceramic tile ontology 4, to detect ceramic tile The intensity of ontology 4, this device strike motor 1107 when in use, by opening, and then make to strike the drive percussion block of motor 1107 1109 rotations make to tap 1109 slamming down pushing block 1113 of block, so that pushing block 1113 be made to push striker 1112 and impact block 1115 move downward, and then impact block 1115 is made to strike the top of ceramic tile ontology 4, to complete the intensity to ceramic tile ontology 4 Detection, and then make the detection enhanced convenience of ceramic tile ontology 4, making this device, it is more convenient to use, in 8 inner bottom wall of water tank Portion is connected with watertight detection device 12, and watertight detection device 12 includes water pump 1201, and the two sides of water pump 1201 are communicated with water delivery Pipe 1202, the bottom of water-supply-pipe 1202 is equidistant to be communicated with sparge pipe 1203, and the interior bottom of water tank 8 is run through in the bottom of sparge pipe 1203 Wall and the bottom for extending to water tank 8, the outside of sparge pipe 1203 are socketed with No.1 spring 1207, and the bottom of No.1 spring 1207 connects It is connected to No.1 sealing block 1204, the bottom of sparge pipe 1203 is socketed with rubber water retaining cover 1205, the top of rubber water retaining cover 1205 Overlapped with the bottom of No.1 sealing block 1204, one end that sparge pipe 1203 is located on the inside of rubber water retaining cover 1205 be socketed with No. two it is close Block 1206 is sealed, this device when in use, by lifting device 5 pushes up ceramic tile ontology 4, and then makes the top of ceramic tile ontology 4 Portion is contacted with the bottom of rubber water retaining cover 1205, so that rubber water retaining cover 1205 be made to move up, enables No.1 spring 1207 Compression, and then No.1 spring 1207 is improved to the pressure of No.1 sealing block 1204, to make No.1 sealing block 1204 and rubber stop The fitting of water cover 1205 is more close, to pass through the starting of water pump 1201, so that water is injected rubber by sparge pipe 1203 Glue water retaining cover 1205 to complete to detect the waterproofness of ceramic tile ontology 4, and then makes the detection enhanced convenience of ceramic tile, solves Traditional artificial detection error big problem makes the detection of ceramic tile more accurately and conveniently, and the first step is opened No. two and electronic pushed away Bar 501 makes No. two electric pushrods 501 that mandril 503 and rubber jacking block 505 be pushed to move upwards, to make the top of rubber jacking block 505 Portion is contacted with the bottom of ceramic tile ontology 4, so that ceramic tile ontology 4 be driven to move up, makes top and the rubber water blocking of ceramic tile ontology 4 The bottom contact of cover 1205, second step open water pump 1201, enter water flow in the inner cavity of rubber water retaining cover 1205, to make Hydraulic pressure is generated in the inner cavity of rubber water retaining cover 1205, and then is not covered by rubber water retaining cover 1205 by 4 top of ceramic tile ontology Position infiltration situation, to judge whether ceramic tile ontology 4 qualified, and then complete the detection of ceramic tile waterproof, this device using When, ceramic tile ontology 4 is fixed by fixed device 3, so that beating unit 11 is opened, by beating unit 11 to ceramic tile Ontology 4 is struck, to detect to the intensity of ceramic tile ontology 4, and then is passed through the starting of lifting device 5, is filled lifting It sets 5 drive ceramic tile ontologies 4 to move up, makes watertight detection device 12 that can carry out watertight detection to ceramic tile ontology 4, and then make ceramic tile The seepage of water of ontology 4 is detected, to detect the waterproofness of ceramic tile ontology 4, and then completes the whole quality inspection of ceramic tile ontology 4, Having this device can solve that traditional artificial detection error is big to ask precisely and the characteristics of easily detect to ceramic tile Topic, making the detection of ceramic tile, more accurately and conveniently the inner wall of water tank 8 is welded with pulling plate 13, and the top of pulling plate 13 is connected with cold Solidifying pipe 14, the inner wall that the top in 8 left side of water tank is communicated with 15 water tank 8 of filler pipe are welded with pulling plate 13, the top connection of pulling plate 13 There is a condenser pipe 14, the top in 8 left side of water tank is communicated with filler pipe 15, and the top of water tank 8 is connected with internal gear 16, in support frame 1 The two sides of roof are respectively connected with decelerating motor 17, and the bottom of 17 output shaft of decelerating motor is connected with gear 18, the outside of gear 18 It is meshed with the inside of internal gear 16, the setting of internal gear 16 and decelerating motor 17 makes this device when in use, passes through the electricity that slows down The starting of machine 17, and then drive internal gear 16 and water tank 8 to rotate, and then rotate beating unit 11 can therewith, to make Beating unit 11 can easily strike each position of ceramic tile ontology 4, to keep the detection of ceramic tile more accurate.

The electric elements occurred in this article are electrically connected with extraneous main controller and 220V alternating current, and main controller can be meter Calculation machine etc. plays the conventionally known equipment of control.

Working principle: when in use, ceramic tile ontology 4 is fixed by fixed device 3, to open beating unit 11, ceramic tile ontology 4 is struck by beating unit 11, to detect to the intensity of ceramic tile ontology 4, and then passes through liter The starting of falling unit 5 makes lifting device 5 that ceramic tile ontology 4 be driven to move up, makes watertight detection device 12 can be to ceramic tile ontology 4 Watertight detection is carried out, and then detects the seepage of water of ceramic tile ontology 4, to detect the waterproofness of ceramic tile ontology 4, and then complete At the whole quality inspection of ceramic tile ontology 4, so that this device is had the characteristics of can be accurate and easily detecting to ceramic tile, solve biography The big problem of artificial detection error of uniting makes the detection of ceramic tile more accurately and conveniently.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims (8)

1. a kind of high-precision detection device for Ceramic Tiles quality, including support frame (1), it is characterised in that: the support frame (1) two sides of inner bottom wall are welded with support column (2), are connected with fixed device (3) at the top of the support column (2), described solid Determining device (3) includes supporting table (301), is welded with aspiration pump (302), the pumping in the middle part of supporting table (301) bottom The two sides of pump (302) are communicated with exhaust tube (303), and the bottom of the aspiration pump (302) is communicated with exhaust pipe (304), described The top of exhaust tube (303) is equidistant to be communicated with diversion pipe (305), and supporting table (301) are run through at the top of the diversion pipe (305) Bottom and extend to the tops of supporting table (301), be communicated with rubber suction cups (306) at the top of the diversion pipe (305), it is described The apex suction of rubber suction cups (306) has ceramic tile ontology (4), and the inner bottom wall of the support frame (1) is connected with lifting device (5), It is connected with suspending rod (6) in the middle part of support frame (1) inner roof wall, the bottom of the suspending rod (6) is socketed with bearing (7), institute The bottom for stating bearing (7) is connected with water tank (8), and the top on the right side of the water tank (8) is connected with pull rod (9), the pull rod (9) Bottom is connected with No.1 electric pushrod (10), and the bottom of the No.1 electric pushrod (10) is connected with beating unit (11), described It being connected with watertight detection device (12) in the middle part of water tank (8) inner bottom wall, the watertight detection device (12) includes water pump (1201), The two sides of the water pump (1201) are communicated with water-supply-pipe (1202), and the bottom of the water-supply-pipe (1202) is equidistant to be communicated with spray The bottom of water pipe (1203), the sparge pipe (1203) runs through the inner bottom wall of water tank (8) and extends to the bottom of water tank (8), institute It states and is socketed on the outside of sparge pipe (1203) No.1 spring (1207), it is close that the bottom of the No.1 spring (1207) is connected with No.1 It seals block (1204), the bottom of the sparge pipe (1203) is socketed with rubber water retaining cover (1205), the rubber water retaining cover (1205) Top and the bottom of No.1 sealing block (1204) overlap, the sparge pipe (1203) is located on the inside of rubber water retaining cover (1205) One end is socketed with No. two sealing blocks (1206).

2. a kind of high-precision detection device for Ceramic Tiles quality according to claim 1, it is characterised in that: the liter Falling unit (5) includes No. two electric pushrods (501), the bottom of No. two electric pushrods (501) and the inner bottom wall of support frame (1) It welds, is connected with elevating lever (502) at the top of No. two electric pushrods (501), the top of the elevating lever (502) is equidistant It is connected with mandril (503), is socketed with casing (504) on the outside of the mandril (503), the top of described sleeve pipe (504) is through branch It supports platform (301) and extends to the top of supporting table (301), be welded with rubber jacking block (505), institute at the top of the mandril (503) State the lower section that rubber jacking block (505) is located at ceramic tile ontology (4) bottom.

3. a kind of high-precision detection device for Ceramic Tiles quality according to claim 1, it is characterised in that: described to hit Beating device (11) includes support bar (1101), and the top of the support bar (1101) and the bottom of No.1 electric pushrod (10) are welded It connects, the two sides of the support bar (1101) are respectively connected with sliding sleeve (1102), are plugged with slide bar on the inside of the sliding sleeve (1102) (1103), the bottom of the slide bar (1103) is connected with buffer table (1104), is socketed with No. two on the outside of the slide bar (1103) Spring (1105), the bottom of No. two springs (1105) and the top of buffer table (1104) are welded, No. two springs (1105) bottom at top and sliding sleeve (1102) is welded, and is welded with non-slipping block (1106), institute at the top of the slide bar (1103) The bottom for stating buffer table (1104) is connected with impact motor (1107), is welded on the left of impact motor (1107) output shaft Rocking bar (1108) is connected on the left of the rocking bar (1108) and taps block (1109), and the bottom of impact motor (1107) connects It is connected to l-shaped rod (1110), the l-shaped rod (1110) is connected with siphunculus (1111) far from one end of impact motor (1107), described It is plugged on the inside of siphunculus (1111) striker (1112), is connected with pushing block (1113) at the top of the striker (1112), it is described No. three springs (1114), top and pushing block (1113) of No. three springs (1114) are socketed on the outside of striker (1112) Bottom welding, the bottom of No. three springs (1114) and the top of siphunculus (1111) are welded, the bottom of the striker (1112) It is welded with impact block (1115).

4. a kind of high-precision detection device for Ceramic Tiles quality according to claim 1, it is characterised in that: the water The inner wall of case (8) is welded with pulling plate (13), is connected with condenser pipe (14) at the top of the pulling plate (13), on the left of the water tank (8) Top be communicated with filler pipe (15).

5. a kind of high-precision detection device for Ceramic Tiles quality according to claim 1, it is characterised in that: the water It is connected at the top of case (8) internal gear (16), the two sides of support frame (1) inner roof wall are respectively connected with decelerating motor (17), institute The bottom for stating decelerating motor (17) output shaft is connected with gear (18), the outside of the gear (18) and the inside of internal gear (16) It is meshed.

6. a kind of high-precision detection device for Ceramic Tiles quality according to claim 1, it is characterised in that: the water Case (8) is cylindrical body, and water tank (8) is stainless steel material, and the water tank (8) is located at the surface at the top of ceramic tile ontology (4).

7. a kind of high-precision detection device application method for Ceramic Tiles quality, feature described in -6 according to claim 1 It is:

The first step, the top by the way that ceramic tile ontology (4) to be put to rubber suction cups (306), and then unlatching aspiration pump (302) makes rubber The inner cavity of glue sucker (306) generates negative pressure, to make ceramic tile ontology (4) that can easily be fixed.

Second step opens impact motor (1107), to make to strike motor (1107) drive percussion block (1109) rotation, makes to tap Block (1109) pushes down on pushing block (1113) and striker (1112), and then makes the impact block positioned at striker (1112) bottom (1115) easily ceramic tile ontology (4) can be struck, to detect the intensity of ceramic tile ontology (4).

8. a kind of high-precision detection device application method for Ceramic Tiles quality, feature described in -6 according to claim 1 It is:

The first step opens No. two electric pushrods (501), and No. two electric pushrods (501) is made to push mandril (503) and rubber jacking block (505) it moves upwards, to make the top of rubber jacking block (505) and the bottom of ceramic tile ontology (4) contact, to drive ceramic tile sheet Body (4) moves up, and contacts the top of ceramic tile ontology (4) and the bottom of rubber water retaining cover (1205).

Second step is opened water pump (1201), enters water flow in the inner cavity of rubber water retaining cover (1205), to make rubber water retaining cover (1205) hydraulic pressure, and then the position by not covered by rubber water retaining cover (1205) at the top of ceramic tile ontology (4) are generated in inner cavity The infiltration situation set, it is whether qualified to judge ceramic tile ontology (4), and then complete the detection of ceramic tile waterproof.