CN110763551A

CN110763551A - Glass quality detection strikes device

Info

Publication number: CN110763551A
Application number: CN201911193220.XA
Authority: CN
Inventors: 武罗海
Original assignee: Guangzhou Lianjin Glass Technology Co Ltd
Current assignee: Jiangsu Xinyuehua Energy-saving Glass Technology Co.,Ltd.
Priority date: 2019-11-28
Filing date: 2019-11-28
Publication date: 2020-02-07
Anticipated expiration: 2039-11-28
Also published as: CN110763551B; GB202002529D0

Abstract

A glass quality detection impact device comprises a machine body, wherein a conveying cavity with a leftward opening is arranged in the machine body, a first conveying belt cavity is arranged at the left end in the upper wall and the lower wall of the conveying cavity in a vertically symmetrical mode, a first rotating shaft is rotatably arranged between the front wall and the rear wall of the first conveying belt cavity, a first conveying roller is fixedly arranged on the outer circumferential surface of the first rotating shaft, a first conveying belt is wound between the first conveying rollers at the upper side and the lower side, a second conveying belt cavity is communicated with the upper end and the lower end in the upper wall and the lower wall of the conveying cavity in a vertically symmetrical mode, a second rotating shaft is rotatably arranged between the front wall and the rear wall of the second conveying belt cavity, a second conveying roller is fixedly arranged on the outer circumferential surface of the second rotating shaft, and a second conveying belt is wound between the second conveying rollers at the upper side and the lower side, the impact detection on the glass quality is realized through 3 different modes of a track motor, the, and resources are saved.

Description

Glass quality detection strikes device

Technical Field

The invention relates to the technical field of impact, in particular to a glass quality detection impact device.

Background

The process of the glassy substance from a molten state to a solid state is gradual, and the change of the physical and chemical properties of the glassy substance is continuous and gradual. This is in marked contrast to the crystallization of melts, which necessarily involves the appearance of new phases, and near the crystallization temperature point, many properties are subject to abrupt changes. The glassy substance is finished in a wider temperature range from a molten state to a solid state, the viscosity of the glass melt is gradually increased along with the gradual reduction of the temperature, and finally solid glass is formed, but no new phase is formed in the process. On the contrary, the process of heating the glass into a melt is also gradually changed, the glass has good perspective and light transmission performance, the tensile strength is far less than the compressive strength, the glass is a typical brittle material, the glass is used as a necessity in daily life and other fields, and the quality requirement of the glass is very strict, so the quality detection of the glass is particularly important.

Disclosure of Invention

The technical problem is as follows:

the glass is used as a necessity in daily life and other fields, and the quality requirement of the glass is very strict, so the quality detection of the glass is particularly important.

In order to solve the above problems, the present embodiment provides a glass quality detection impact device, comprising a machine body, wherein a conveying cavity with a leftward opening is arranged in the machine body, a first conveying belt cavity is arranged at the left end in the upper wall and the lower wall of the conveying cavity in a vertically symmetrical manner, a first rotating shaft is rotatably arranged between the front wall and the rear wall of the first conveying belt cavity, a first conveying roller is fixedly arranged on the outer circumferential surface of the first rotating shaft, a first conveying belt is wound between the first conveying roller at the upper side and the lower side, a second conveying belt cavity is communicated at the right end in the upper wall and the lower wall of the conveying cavity in a vertically symmetrical manner, a second rotating shaft is rotatably arranged between the front wall and the rear wall of the second conveying belt cavity, a second conveying roller is fixedly arranged on the outer circumferential surface of the second rotating shaft, a second conveying belt is wound between the second conveying roller at the upper side and the lower side, and the first conveying belt and the second conveying roller are driven to, thereby transport glass, it has the observation chamber to carry chamber right wall intercommunication, it is equipped with the transport transfer chamber to observe chamber lower wall intercommunication, the rotatable third pivot that is equipped with of upper left end and right lower extreme between the preceding back wall in transfer chamber in the transport, the outer disc of third pivot is fixed and is equipped with the third delivery roller, upper left end and right lower extreme around being equipped with the third conveyer belt between the third delivery roller, transport transfer chamber lower wall intercommunication has crushing chamber, rotatable being equipped with the fourth pivot that is bilateral symmetry between the preceding back wall in crushing chamber, the outer disc of fourth pivot is fixed and is equipped with crushing roller, and cullet after the impact falls into crushing intracavity and along with the rotation of fourth pivot drives crushing roller rotates and smashes.

Preferably, the upper wall and the lower wall of the conveying cavity are communicated with a clamping cavity in a vertically symmetrical manner, a small sliding block is arranged at the upper end of the inner wall of the clamping cavity and can slide vertically, a sliding plate cavity is arranged in the small sliding block, a sliding plate is arranged at the lower end of the inner wall of the sliding plate cavity and can slide vertically, a small guide pillar which extends to the lower end of the small sliding block and can slide vertically relative to the small sliding block is fixedly arranged at the lower end of the sliding plate, a clamping block a is fixedly arranged at the lower end of the small guide pillar, a spring is fixedly connected with the upper end face of the clamping block a and the lower end face of the small sliding block, and the small sliding block slides vertically to drive the clamping.

Preferably, the conveying cavity upper wall center intercommunication has the landing chamber that upwards extends, landing intracavity wall can be gliding from top to bottom and be equipped with the striking piece, striking piece upper end fixedly connected with haulage rope, landing chamber right side wall upper end intercommunication has the contraction chamber that pulls that extends right, pull the fixed supporting shoe that is equipped with in contraction chamber lower wall left end, supporting shoe upper end hinged joint has the ferryboat, pull the rotatable fifth pivot that is equipped with of right-hand member between the preceding back wall in contraction chamber, the outer disc of fifth pivot is fixed to be equipped with and pulls the contraction wheel, the haulage rope end is around establishing the warp the outer disc of ferryboat extremely pull on the contraction wheel and fixed connection in pull the outer disc of contraction wheel.

Preferably, a composite cavity is arranged in the rear wall of the conveying cavity, the observation cavity and the conveying transfer cavity, the rear end of the first rotating shaft extends into the composite cavity and is rotatably connected to the rear wall of the composite cavity, the rear end of the first outer circular surface of the first rotating shaft is fixedly provided with a first driving pulley, the rear end of the first rotating shaft extends into the composite cavity and is rotatably connected to the rear wall of the composite cavity, the rear end of the first outer circular surface of the first rotating shaft is fixedly provided with a first driven pulley on the left upper side, a first belt is wound between the first driven pulley and the first driving pulley, the outer circular surface of the first rotating shaft on the left upper side is fixedly provided with a second driving pulley positioned on the front side of the first driven pulley, the rear end of the second rotating shaft on the left upper side extends into the composite cavity and is rotatably connected to the rear wall of the composite cavity, and the rear end of the outer circular surface of the second rotating shaft on the left upper side is fixedly provided, a second belt is wound between the second driven belt pulley and the second driving belt pulley, a third driving belt pulley positioned at the front side of the second driven belt pulley is fixedly arranged on the outer surface of the second rotating shaft on the upper left side, the rear end of the second rotating shaft extends into the composite cavity and is rotatably connected with the rear wall of the composite cavity, a third driven belt pulley is fixedly arranged on the outer surface of the second rotating shaft on the lower left side, a third belt is wound between the third driven belt pulley and the third driving belt pulley, a fourth driving belt pulley is fixedly arranged on the rear end of the outer surface of the second rotating shaft on the lower left side, the rear end of the third rotating shaft on the upper left side extends into the composite cavity and is rotatably connected with the rear wall of the composite cavity, a fourth driven belt pulley is fixedly arranged on the rear end of the outer surface of the third rotating shaft on the upper left side, and a fourth belt is wound between the fourth driven belt pulley and the fourth driving belt pulley, the upper left side the outer disc of third pivot is fixed to be equipped with and is located the fifth driving pulley of fourth driven pulley front side, compound chamber lower wall right-hand member intercommunication is equipped with the compound chamber of second, and the left side fourth pivot rear end extends to compound intracavity of second and the fixed fifth driven pulley that is equipped with, fifth driven pulley with around being equipped with fifth belt, left side between the fifth driving pulley the fixed spur gear an, the right side of smashing of initiative that is equipped with of fourth pivot outer disc front end fourth pivot rear end extends to compound intracavity of second and the fixed driven spur gear a of smashing that is equipped with, driven the crushing spur gear an with the bevel gear meshing between the spur gear a is smashed in the initiative.

Preferably, a threaded rotating shaft is rotatably arranged between the upper wall and the lower wall of the composite cavity, the upper end and the lower end of the outer circular surface of the threaded rotating shaft are in threaded connection with vertically symmetrical large sliding blocks, the threads at the upper end and the lower end of the threaded rotating shaft are opposite, a fixed shaft positioned on the right side of the threaded rotating shaft is fixedly arranged at the lower wall of the composite cavity, the fixed shaft vertically penetrates through the large sliding blocks, the large sliding blocks can vertically slide relative to the fixed shaft, a sixth driven pulley is fixedly arranged at the upper end of the outer circular surface of the threaded rotating shaft, a sixth rotating shaft is rotatably arranged at the left end of the upper wall of the composite cavity, a sixth driving pulley is fixedly arranged at the lower end of the sixth rotating shaft, a sixth belt is wound between the sixth driving pulley and the sixth driven pulley, a bevel gear cavity is arranged at the left end in the upper wall of the composite cavity, the rear wall of the bevel gear cavity is rotatably provided with a seventh rotating shaft, a first driving bevel gear is fixedly arranged at the front end of the seventh rotating shaft, and the first driving bevel gear is meshed with the first driven bevel gear through a bevel gear.

Preferably, the rear wall of the clamping cavity is communicated with the front wall of the composite cavity, the front end faces of the large sliding blocks on the upper side and the lower side are fixedly arranged, and the front ends extend into the clamping cavity and are fixedly connected with the rear ends of the small sliding blocks.

Preferably, a third composite cavity is arranged in the rear wall of the composite cavity and the bevel gear cavity, the rear end of the first rotating shaft extends to the rear end of the third composite cavity and is fixedly provided with a first driven spur gear a, the front wall of the third composite cavity is rotatably provided with an eighth rotating shaft a positioned on the right side of the first rotating shaft, the front end of the outer circular surface of the eighth rotating shaft a is fixedly provided with a first driving spur gear, the first driving spur gear is meshed with a spur gear between the first driven spur gear a, the rear end of the eighth rotating shaft a is fixedly provided with a second driven bevel gear, the front end of the lower wall of the third composite cavity can be grabbed and provided with a ninth rotating shaft, the upper end of the ninth rotating shaft is fixedly provided with a second driving bevel gear, the second driving bevel gear is meshed with a bevel gear between the second driven bevel gear, and the lower end of the ninth outer circular surface is fixedly provided with a first driven bevel gear, the rear end of the seventh rotating shaft extends into the third compound cavity and is fixedly provided with a third driven bevel gear, the front end of the upper wall of the third compound cavity is rotatably provided with a tenth rotating shaft, the lower end of the tenth rotating shaft is fixedly provided with a third driving bevel gear, the third driving bevel gear is meshed with the third driven bevel gear through a bevel gear, the lower end of the outer circular surface of the tenth rotating shaft is fixedly provided with a second driven bevel gear, the rear end of the lower wall of the third compound cavity is provided with a main rotating shaft which can slide up and down, the upper end of the main rotating shaft is fixedly provided with a first driving bevel gear, the first driving bevel gear can be meshed with the first driven bevel gear and the second driven bevel gear through a bevel gear, the upper end of the right wall of the third compound cavity is communicated with a fourth compound cavity extending rightwards, and the rear end of the fifth rotating shaft extends into the fourth compound cavity and is fixedly provided, an eleventh rotating shaft is rotatably arranged at the right end of the upper wall of the fourth composite cavity, a fourth driving bevel gear is fixedly arranged at the lower end of the eleventh rotating shaft, the fourth driving bevel gear is meshed with a bevel gear between the fourth driven bevel gears, a seventh driven belt pulley is fixedly arranged at the lower end of the outer circular surface of the eleventh rotating shaft, a twelfth rotating shaft is rotatably arranged at the left end between the upper wall and the lower wall of the fourth composite cavity, a seventh driving belt pulley is fixedly arranged at the upper end of the outer circular surface of the twelfth rotating shaft, a seventh belt is wound between the seventh driving belt pulley and the seventh driven belt pulley, a third driven bevel gear positioned on the lower side of the seventh driving belt pulley is fixedly arranged on the outer circular surface of the twelfth rotating shaft, and the third driven bevel gear can be meshed with a bevel gear between the.

Preferably, an electric rail cavity is formed in the rear end of the lower wall of the third composite cavity, a rail motor is arranged on the inner wall of the electric rail cavity and can slide up and down, and the lower end of the main rotating shaft extends into the electric rail cavity and is in power connection with the upper end of the rail motor.

Preferably, carry transfer chamber back wall intercommunication to have and be located the transfer slide of compound chamber front side, transfer slide left wall internal fixation is equipped with the cylinder, the fixed telescopic link that is equipped with of cylinder right-hand member, right downside third pivot rear end extends to in the transfer slide, transfer slide upper and lower wall center intercommunication has the axle sleeve slide, but axle sleeve slide inner wall horizontal slip be equipped with the axle sleeve that the outer disc of third pivot surrounded, the axle sleeve left end with telescopic link right-hand member fixed connection.

Preferably, the lower end of the right wall of the crushing cavity is communicated with a cavity of the box body, a waste box is fixedly arranged on the inner wall of the cavity of the box body, a waste cavity is arranged in the waste box, and the upper end of the left wall of the waste cavity is communicated with the lower end of the right wall of the crushing cavity.

Preferably, an inductor a positioned on the right side of the clamping cavity and on the left side of the sliding cavity is fixedly arranged in the upper wall of the conveying cavity, a first channel extending downwards is communicated with the center of the upper wall of the conveying cavity, the tail end of the first channel is communicated with the upper end of the left wall of the crushing cavity, and a piece of baffle glass is fixedly arranged at the right end between the upper wall and the lower wall of the observation cavity.

The invention has the beneficial effects that: the invention realizes the impact detection of the glass quality through 3 different modes of the track motor, has high efficiency, and simultaneously crushes and recovers the impacted cullet, thereby saving resources.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view showing the overall structure of a glass quality inspection impact device according to the present invention;

FIG. 2 is a schematic view of the structure in the direction "A-A" of FIG. 1;

FIG. 3 is a schematic view of the structure in the direction "B-B" of FIG. 2;

FIG. 4 is a schematic view of the structure in the direction "C-C" of FIG. 3;

FIG. 5 is a schematic view of the structure in the direction "D-D" of FIG. 3;

FIG. 6 is a schematic view of the structure in the direction "E-E" of FIG. 1;

FIG. 7 is a schematic view of the structure in the direction "F-F" of FIG. 6;

FIG. 8 is a schematic view of the structure in the direction "G-G" of FIG. 7;

FIG. 9 is a schematic view of the structure in the direction "H-H" of FIG. 1;

FIG. 10 is a schematic view of the structure in the direction "I-I" of FIG. 2;

FIG. 11 is an enlarged schematic view of J of FIG. 1;

FIG. 12 is a schematic view of the structure in the direction "K-K" of FIG. 10;

fig. 13 is a schematic view of the structure in the direction "L-L" of fig. 4.

Detailed Description

The invention will now be described in detail with reference to fig. 1-13, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a glass quality detection impact device, which is mainly applied to the detection of glass quality, and the invention is further explained by combining the attached drawings of the invention:

the glass quality detection impact device comprises a machine body 11, wherein a conveying cavity 17 with a leftward opening is formed in the machine body 11, a first conveying belt cavity 16 is vertically symmetrically formed in the left end of the inner side of the upper wall and the lower wall of the conveying cavity 17, a first rotating shaft 15 is rotatably arranged between the front wall and the rear wall of the first conveying belt cavity 16, a first conveying roller 14 is fixedly arranged on the outer circular surface of the first rotating shaft 15, a first conveying belt 13 is wound between the first conveying roller 14 on the upper side and the lower side, a second conveying belt cavity 36 is communicated with the inner right end of the upper wall and the lower wall of the conveying cavity 17 in a vertically symmetrical mode, a second rotating shaft 38 is rotatably arranged between the front wall and the rear wall of the second conveying belt cavity 36, a second conveying roller 37 is fixedly arranged on the outer circular surface of the second rotating shaft 38, a second conveying belt 39 is wound between the second conveying roller 37 on the upper side and the lower side, and the first conveying belt 13 and the second conveying roller 37 are driven by the rotation of the first conveying roller 14 Area 39 rotates to transport glass, it has observation chamber 27 to carry chamber 17 right wall intercommunication, it is equipped with to carry and transfers chamber 29 to observe chamber 27 lower wall intercommunication, carry and transfer chamber 29 between the preceding back wall of chamber 29 upper left end and the rotatable third pivot 50 that is equipped with of right lower extreme, the fixed third delivery roller 41 that is equipped with of outer disc of third pivot 50, upper left end and right lower extreme around being equipped with third conveyer belt 40 between the third delivery roller 41, carry transfer chamber 29 lower wall intercommunication and have crushing chamber 30, rotatable being equipped with between the preceding back wall of crushing chamber 30 is the fourth pivot 32 of bilateral symmetry, the outer disc of fourth pivot 32 is fixed and is equipped with crushing roller 31, and the cullet after the impact falls into crushing chamber 30 interior and along with the rotation of fourth pivot 32 drives crushing roller 31 rotates and smashes.

Beneficially, the upper wall and the lower wall of the conveying cavity 17 are communicated with a clamping cavity 104 in a vertically symmetrical manner, the upper end of the inner wall of the clamping cavity 104 is provided with a small slide block 105 capable of sliding vertically, a slide plate cavity 106 is arranged in the small slide block 105, the lower end of the inner wall of the slide plate cavity 106 is provided with a slide plate 107 capable of sliding vertically, the lower end of the slide plate 107 is fixedly provided with a small guide pillar 108 which extends to the lower end of the small slide block 105 and can slide vertically relative to the small slide block 105, the lower end of the small guide pillar 108 is fixedly provided with a clamping block 8a, the upper end surface of the clamping block 8a and the lower end surface of the small slide block 105 are fixedly connected with a spring 109, and the small slide block 105 slides vertically to drive the clamping.

Beneficially, conveying chamber 17 upper wall center intercommunication has the landing chamber 20 that upwards extends, landing chamber 20 inner wall can be gliding from top to bottom be equipped with striking block 18, striking block 18 upper end fixedly connected with haulage rope 19, landing chamber 20 right wall upper end intercommunication has the traction contraction chamber 24 that extends right, traction contraction chamber 24 lower wall left end is fixed and is equipped with supporting shoe 23, supporting shoe 23 upper end hinged joint has ferryboat 21, the rotatable fifth pivot 25 that is equipped with of right-hand member between the preceding rear wall of traction contraction chamber 24, the outer disc of fifth pivot 25 is fixed and is equipped with and pulls contraction wheel 26, haulage rope 19 end around establish through cross ferryboat 21 outer disc extremely pull on the contraction wheel 26 and fixed connection in pull contraction wheel 26 outer disc.

Advantageously, a composite cavity 44 is provided in the rear wall of the conveying cavity 17, the observation cavity 27 and the conveying relay cavity 29, the rear end of the first rotating shaft 15 on the lower left side extends into the composite cavity 44 and is rotatably connected to the rear wall of the composite cavity 44, the rear end of the outer circular surface of the first rotating shaft 15 on the lower left side is fixedly provided with a first driving pulley 47, the rear end of the first rotating shaft 15 on the upper left side extends into the composite cavity 44 and is rotatably connected to the rear wall of the composite cavity 44, the rear end of the outer circular surface of the first rotating shaft 15 on the upper left side is fixedly provided with a first driven pulley 69, a first belt 46 is wound between the first driven pulley 69 and the first driving pulley 47, the outer circular surface of the first rotating shaft 15 on the upper left side is fixedly provided with a second driving pulley 67 located in front of the first driven pulley 69, the rear end of the second rotating shaft 38 on the upper left side extends into the composite cavity 44 and is rotatably connected to the rear wall of the, a second driven pulley 86 is fixedly arranged at the rear end of the outer circular surface of the second rotating shaft 38 at the upper left side, a second belt 68 is wound between the second driven pulley 86 and the second driving pulley 67, a third driving pulley 85 positioned at the front side of the second driven pulley 86 is fixedly arranged at the outer circular surface of the second rotating shaft 38 at the upper left side, the rear end of the second rotating shaft 38 at the lower left side extends into the composite cavity 44 and is rotatably connected to the rear wall of the composite cavity 44, a third driven pulley 56 is fixedly arranged at the outer circular surface of the second rotating shaft 38 at the lower left side, a third belt 57 is wound between the third driven pulley 56 and the third driving pulley 85, a fourth driving pulley 48 is fixedly arranged at the rear end of the outer circular surface of the second rotating shaft 38 at the lower left side, and a third driving pulley 50 at the upper left side extends into the composite cavity 44 and is rotatably connected to the rear wall of the composite cavity 44, the rear end of the outer circular surface of the third rotating shaft 50 on the upper left side is provided with a fourth driven pulley 51 in a specified manner, the fourth driven pulley 51 and the fourth driving pulley 48 are provided with a fourth belt 49 in a winding manner, the outer circular surface of the third rotating shaft 50 on the upper left side is fixedly provided with a fifth driving pulley 91 positioned on the front side of the fourth driven pulley 51, the lower wall right end of the composite cavity 44 is communicated with a second composite cavity 102, the rear end of the fourth rotating shaft 32 on the left side extends into the second composite cavity 102 and is fixedly provided with a fifth driven pulley 103, a fifth belt 92 is arranged between the fifth driven pulley 103 and the fifth driving pulley 91 in a winding manner, the front end of the outer circular surface of the fourth rotating shaft 32 on the left side is fixedly provided with a driving crushing straight gear 2a, the rear end of the fourth rotating shaft 32 on the right side extends into the second composite cavity 102 and is fixedly provided with a driven crushing straight gear 3, the driven crushing straight gear 3a is meshed with the driving crushing straight gear 2a through a bevel gear.

Beneficially, a threaded rotating shaft 43 is rotatably disposed between the upper wall and the lower wall of the compound cavity 44, the upper end and the lower end of the outer circular surface of the threaded rotating shaft 43 are connected with a large sliding block 54 in a vertically symmetrical manner, the upper end and the lower end of the threaded rotating shaft 43 are opposite in thread, a fixed shaft 52 located at the right side of the threaded rotating shaft 43 is fixedly disposed at the lower wall of the compound cavity 44, the fixed shaft 52 vertically penetrates through the large sliding block 54, the large sliding block 54 can vertically slide relative to the fixed shaft 52, a sixth driven pulley 65 is fixedly disposed at the upper end of the outer circular surface of the threaded rotating shaft 43, a sixth rotating shaft 60 is rotatably disposed at the left end of the upper wall of the compound cavity 44, a sixth driving pulley 66 is fixedly disposed at the lower end of the sixth rotating shaft 60, a sixth belt 63 is wound between the sixth driving pulley 66 and the sixth driven pulley, the upper end of the sixth belt 63 extends into the bevel gear cavity 58 and is fixedly provided with a first driven bevel gear 59, the rear wall of the bevel gear cavity 58 is rotatably provided with a seventh rotating shaft 74, the front end of the seventh rotating shaft 74 is fixedly provided with a first driving bevel gear 61, and the first driving bevel gear 61 is in bevel gear engagement with the first driven bevel gear 59.

Advantageously, the rear wall of the clamping cavity 104 is communicated with the front wall of the compound cavity 44, the front end surfaces of the large sliders 54 at the upper side and the lower side are fixedly provided with 53, and the front ends of the 53 extend into the clamping cavity 104 and are fixedly connected with the rear ends of the small sliders 105.

Beneficially, be equipped with third compound chamber 71 in compound chamber 44 with bevel gear chamber 58 back wall, the upper left side the first pivot 15 rear end extends to in the third compound chamber 71 and fixed be equipped with first driven spur gear 4a, the rotatable eighth pivot 5a that is located the positive right side of first pivot 15 that is equipped with of third compound chamber 71 front wall, the fixed first driving spur gear 76 that is equipped with of eighth pivot 5a excircle front end, spur gear meshing between first driving spur gear 76 and the first driven spur gear 4a, the fixed second driven bevel gear 77 that is equipped with of eighth pivot 5a rear end, the grippable ninth pivot 79 that is equipped with of third compound chamber 71 lower wall front end, the fixed second driving bevel gear 78 that is equipped with in ninth pivot 79 upper end, second driving bevel gear 78 with bevel gear meshing between the second driven bevel gear 77, a first driven bevel gear 80 is fixedly arranged at the lower end of the outer circular surface of the ninth rotating shaft 79, the rear end of the seventh rotating shaft 74 extends into the third compound cavity 71 and is fixedly provided with a third driven bevel gear 75, the front end of the upper wall of the third compound cavity 71 is rotatably provided with a tenth rotating shaft 70, the lower end of the tenth rotating shaft 70 is fixedly provided with a third driving bevel gear 73, the third driving bevel gear 73 is in bevel gear engagement with the third driven bevel gear 75, the lower end of the outer circular surface of the tenth rotating shaft 70 is fixedly provided with a second driven bevel gear 72, the rear end of the lower wall of the third compound cavity 71 can be vertically slidably provided with a main rotating shaft 82, the upper end of the main rotating shaft 82 is fixedly provided with a first driving bevel gear 81, the first driving bevel gear 81 can be engaged with the first driven bevel gear 80 and the second driven bevel gear 72, the upper end of the right wall of the third compound cavity 71 is communicated with a fourth compound cavity 87 extending rightwards, the rear end of the fifth rotating shaft 25 extends into the fourth compound cavity 87 and is fixedly provided with a fourth driven bevel gear 90, the right end of the upper wall of the fourth compound cavity 87 is rotatably provided with an eleventh rotating shaft 96, the lower end of the eleventh rotating shaft 96 is fixedly provided with a fourth driving bevel gear 93, the fourth driving bevel gear 93 is in bevel gear engagement with the fourth driven bevel gear 90, the lower end of the outer circular surface of the eleventh rotating shaft 96 is fixedly provided with a seventh driven pulley 95, the left end of the upper and lower walls of the fourth compound cavity 87 is rotatably provided with a twelfth rotating shaft 89, the upper end of the outer circular surface of the twelfth rotating shaft 89 is fixedly provided with a seventh driving pulley 97, a seventh belt 94 is wound between the seventh driving pulley 97 and the seventh driven pulley 95, and the outer circular surface of the twelfth rotating shaft 89 is fixedly provided with a third driven bevel gear 88 positioned at the lower side of the seventh driving pulley 97, the third driven bevel gear 88 may be in bevel gear engagement with the first driving bevel gear 81.

Advantageously, an electric rail cavity 83 is formed in the rear end of the lower wall of the third composite cavity 71, a rail motor 84 is slidably arranged in the inner wall of the electric rail cavity 83, and the lower end of the main rotating shaft 82 extends into the electric rail cavity 83 and is in power connection with the upper end of the rail motor 84.

Beneficially, the rear wall of the conveying transfer cavity 29 is communicated with a transfer slide way 42 located in front of the composite cavity 44, a cylinder 98 is fixedly arranged in the left wall of the transfer slide way 42, an expansion rod 99 is fixedly arranged at the right end of the cylinder 98, the rear end of the third rotating shaft 50 at the lower right side extends into the transfer slide way 42, a shaft sleeve slide way 100 is communicated with the center of the upper wall and the lower wall of the transfer slide way 42, a shaft sleeve 101 surrounding the outer circular surface of the third rotating shaft 50 is arranged on the inner wall of the shaft sleeve slide way 100 in a left-right sliding manner, and the left end of the shaft sleeve 101 is fixedly connected with the right end of the.

Beneficially, the lower end of the right wall of the crushing cavity 30 is communicated with a box cavity 35, a waste box 34 is fixedly arranged on the inner wall of the box cavity 35, a waste cavity 33 is arranged in the waste box 34, and the upper end of the left wall of the waste cavity 33 is communicated with the lower end of the right wall of the crushing cavity 30.

Beneficially, the sensor 9a located on the right side of the clamping cavity 104 and the left side of the sliding-down cavity 20 is fixedly arranged in the upper wall of the conveying cavity 17, the center of the upper wall of the conveying cavity 17 is communicated with a first channel 12 extending downwards, the tail end of the first channel 12 is communicated with the upper end of the left wall of the crushing cavity 30, and the right end between the upper wall and the lower wall of the observation cavity 27 is fixedly provided with a separation glass 28.

The following describes in detail the use steps of a glass quality inspection impact device herein with reference to fig. 1 to 13:

in the initial state, the track motor 84 is at the lowest end, namely the first driving bevel gear 81 is meshed with the first driven bevel gear 80, the small sliding block 105 is at the upper limit position, the shaft sleeve 101 is at the right end limit position, the impact block 18 is at the lowest end, the inductor 9a is connected with a circuit, and the motor is not started.

In operation, the track motor 84 is started to drive the main shaft 82 to rotate, drive the first driving bevel gear 81 to rotate, drive the first driven bevel gear 80 to rotate through bevel gear engagement, drive the ninth shaft 79 to rotate, drive the second driving bevel gear 78 to rotate, drive the second driven bevel gear 77 to rotate through bevel gear engagement, drive the eighth shaft 5a to rotate, drive the first driving spur gear 76 to rotate, drive the first driven spur gear 4a to rotate through spur gear engagement, drive the upper left first shaft 15 to rotate, drive the upper left first conveying roller 14 to rotate, drive the upper first conveying roller 14 to convey, drive the first driven pulley 69 to rotate through belt transmission, drive the first driving pulley 47 to rotate through belt transmission, drive the lower left first shaft 15 to rotate, drive the lower left first conveying roller 14 to rotate, thereby drive the lower first conveying roller 14 to convey, the rotation of the first rotating shaft 15 drives the second driving pulley 67 to rotate, drives the second driven pulley 86 to rotate through belt transmission, drives the upper left second rotating shaft 38 to rotate, drives the upper left second conveying roller 37 to rotate, thereby driving the upper second conveying roller 39 to convey, drives the upper left second rotating shaft 38 to rotate, drives the third driving pulley 85 to rotate, drives the third driven pulley 56 to rotate through belt transmission, drives the lower left second rotating shaft 38 to rotate, drives the lower left second conveying roller 37 to rotate, thereby driving the lower second conveying roller 39 to convey, drives the fourth driving pulley 48 to rotate through the rotation of the lower left second rotating shaft 38, drives the fourth driven pulley 51 to rotate through belt transmission, drives the upper left third rotating shaft 50 to rotate, drives the upper left third conveying roller 41 to rotate, thereby driving the third conveying belt 40 to convey, the third rotating shaft 50 at the upper left side rotates to drive the fifth driving pulley 91 to rotate, the fifth driven pulley 103 is driven to rotate through belt transmission, the fourth rotating shaft 32 at the left side is driven to rotate, the driving crushing spur gear 2a is driven to rotate, the driven crushing spur gear 3a is driven to rotate through spur gear engagement, the fourth rotating shaft 32 at the right side is driven to rotate, so as to drive the crushing roller 31 to rotate and perform crushing work, at the moment, glass is conveyed from the left end of the conveying cavity 17, when the sensor 9a detects the glass, the track motor 84 stops starting and moves upwards until the first driving helical gear 81 and the second driven helical gear 72 are engaged, at the moment, the track motor 84 is restarted to drive the main rotating shaft 82 to rotate, the first driving helical gear 81 is driven to rotate, the second driven helical gear 72 is driven to rotate through helical gear engagement, the tenth rotating shaft 70 is driven to rotate, and the third, the third driven bevel gear 75 is driven to rotate by bevel gear engagement, the seventh rotating shaft 74 is driven to rotate, the first driving bevel gear 61 is driven to rotate, the first driven bevel gear 59 is driven to rotate by bevel gear engagement, the sixth rotating shaft 60 is driven to rotate, the sixth driving belt pulley 66 is driven to rotate, the sixth driven belt pulley 65 is driven to rotate by belt transmission, the threaded rotating shaft 43 is driven to rotate, the large sliding block 54 connected by threads is driven to move close to the center, the driving block 53 is driven to move close to the center, the small sliding block 105 is driven to move close to the center, the clamping block 8a is driven to move close to the center by the elastic force of the spring 109 so as to clamp the glass, at the moment, the track motor 84 stops starting and moves upwards to the first driving bevel gear 81 to be engaged with the third driven bevel gear 88, at the moment, the track motor 84 is restarted to drive the main rotating shaft 82 to rotate, the first driving bevel gear, driving the twelfth rotating shaft 89 to rotate, driving the seventh driving pulley 97 to rotate, driving the seventh driven pulley 95 to rotate through belt transmission, driving the eleventh rotating shaft 96 to rotate, driving the fourth driving bevel gear 93 to rotate, driving the fourth driven bevel gear 90 to rotate through bevel gear engagement, driving the fifth rotating shaft 25 to rotate, driving the traction contraction wheel 26 to rotate clockwise, driving the traction rope 19 to contract rightwards, driving the impact block 18 to move upwards to an extreme position, at this time, the track motor 84 stops starting and moves downwards until the first driving bevel gear 81 is engaged with the second driven bevel gear 72, in the process, the impact block 18 falls down and hits on the glass due to the gravity action of the impact block 18, at this time, the track motor 84 starts reversely, driving the main rotating shaft 82 to rotate reversely, driving the first driving bevel gear 81 to rotate reversely, driving the second driven bevel gear 72 to rotate reversely through bevel gear engagement, driving the tenth rotating shaft 70 to rotate reversely, the third driving bevel gear 73 is driven to rotate reversely, the third driven bevel gear 75 is driven to rotate reversely by bevel gear meshing, the seventh rotating shaft 74 is driven to rotate reversely, the first driving bevel gear 61 is driven to rotate reversely, the first driven bevel gear 59 is driven to rotate reversely by bevel gear transmission, the sixth rotating shaft 60 is driven to rotate reversely, the second belt 68 is driven to rotate reversely, the sixth driven belt pulley 65 is driven to rotate reversely by belt transmission, the threaded rotating shaft 43 is driven to rotate reversely, the large sliding blocks 54 on the upper side and the lower side are driven to move towards one side far away from the center, the small sliding block 105 is driven to move towards one side far away from the center by the driving of the spring 109, glass is not clamped at the moment, the track motor 84 stops starting and moves downwards to the first driving bevel gear 81 to mesh with the first driven bevel gear 80 at the moment, the track motor 84 starts to rotate forwards again at the moment, the glass is normally conveyed to, at this moment, a recorder observes and records the glass impact effect, the recording is completed, the rear cylinder 98 is started, the telescopic rod 99 is driven to contract, the shaft sleeve 101 is driven to move towards the lower side left, the third rotating shaft 50 is driven to move towards the lower side left to the limit position, the impacted glass falls into the crushing cavity 30 and is crushed by the crushing roller 31, the crushed glass residues fall into the waste cavity 33 to be recycled, the cylinder 98 is started to drive the telescopic rod 99 to extend and reset at the moment, and the whole process of the once impact experiment is realized.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims

1. A glass quality detection impact device comprises a machine body, wherein a conveying cavity with a leftward opening is arranged in the machine body, a first conveying belt cavity is arranged at the left end in the upper wall and the lower wall of the conveying cavity in a vertically symmetrical manner, a first rotating shaft is rotatably arranged between the front wall and the rear wall of the first conveying belt cavity, a first conveying roller is fixedly arranged on the outer circumferential surface of the first rotating shaft, a first conveying belt is wound between the first conveying rollers at the upper side and the lower side, a second conveying belt cavity is communicated with the inner right end of the upper wall and the lower wall of the conveying cavity in a vertically symmetrical manner, a second rotating shaft is rotatably arranged between the front wall and the rear wall of the second conveying belt cavity, a second conveying roller is fixedly arranged on the outer circumferential surface of the second rotating shaft, a second conveying belt is wound between the second conveying rollers at the upper side and the lower side, and the first conveying belt and the second conveying roller are driven to rotate by the rotation, thereby transport glass, it has the observation chamber to carry chamber right wall intercommunication, it is equipped with the transport transfer chamber to observe chamber lower wall intercommunication, the rotatable third pivot that is equipped with of upper left end and right lower extreme between the preceding back wall in transfer chamber in the transport, the outer disc of third pivot is fixed and is equipped with the third delivery roller, upper left end and right lower extreme around being equipped with the third conveyer belt between the third delivery roller, transport transfer chamber lower wall intercommunication has crushing chamber, rotatable being equipped with the fourth pivot that is bilateral symmetry between the preceding back wall in crushing chamber, the outer disc of fourth pivot is fixed and is equipped with crushing roller, and cullet after the impact falls into crushing intracavity and along with the rotation of fourth pivot drives crushing roller rotates and smashes.

2. A glass quality inspection impact device according to claim 1, wherein: the glass clamping device is characterized in that the upper wall and the lower wall of the conveying cavity are communicated with clamping cavities which are symmetrical up and down, a small sliding block is arranged at the upper end of the inner wall of each clamping cavity and can slide up and down, a sliding plate cavity is arranged in each small sliding block, a sliding plate is arranged at the lower end of the inner wall of each sliding plate and can slide up and down, a small guide pillar which extends to the lower end of each small sliding block and can slide up and down relative to each small sliding block is fixedly arranged at the lower end of each sliding plate, a clamping block a is fixedly arranged at the lower end of each small guide pillar, a spring is fixedly connected with the upper end face of each clamping block a and the lower end face of each.

3. A glass quality inspection impact device according to claim 1, wherein: carry chamber upper wall center intercommunication to have the landing chamber that upwards extends, landing intracavity wall gliding is equipped with the striking piece from top to bottom, striking piece upper end fixedly connected with haulage rope, landing chamber right side wall upper end intercommunication has the contraction chamber that pulls that extends right, it is fixed to be equipped with the supporting shoe to pull contraction chamber lower wall left end, supporting shoe upper end hinged joint has the ferryboat, pull the rotatable fifth pivot that is equipped with of right-hand member between the preceding back wall of contraction chamber, the outer disc of fifth pivot is fixed to be equipped with and pulls the contraction wheel, the haulage rope is terminal around establishing the warp cross the outer disc of ferryboat extremely pull on the contraction wheel and fixed connection in pull the outer disc of contraction wheel.

4. A glass quality inspection impact device according to claim 1, wherein: a composite cavity is arranged in the rear wall of the conveying cavity, the observation cavity and the conveying transfer cavity, the rear end of the first rotating shaft at the lower left side extends into the composite cavity and is rotatably connected with the rear wall of the composite cavity, a first driving belt pulley is fixedly arranged at the rear end of the outer circular surface of the first rotating shaft at the lower left side, the rear end of the first rotating shaft at the upper left side extends into the composite cavity and is rotatably connected with the rear wall of the composite cavity, a first driven belt pulley is fixedly arranged at the rear end of the outer circular surface of the first rotating shaft at the upper left side, a first belt is wound between the first driven belt pulley and the first driving belt pulley, a second driving belt pulley positioned at the front side of the first driven belt pulley is fixedly arranged at the outer circular surface of the first rotating shaft at the upper left side, the rear end of the second rotating shaft at the upper left side extends into the composite cavity and is rotatably connected with the rear wall of the composite cavity, and, a second belt is wound between the second driven belt pulley and the second driving belt pulley, a third driving belt pulley positioned at the front side of the second driven belt pulley is fixedly arranged on the outer surface of the second rotating shaft on the upper left side, the rear end of the second rotating shaft extends into the composite cavity and is rotatably connected with the rear wall of the composite cavity, a third driven belt pulley is fixedly arranged on the outer surface of the second rotating shaft on the lower left side, a third belt is wound between the third driven belt pulley and the third driving belt pulley, a fourth driving belt pulley is fixedly arranged on the rear end of the outer surface of the second rotating shaft on the lower left side, the rear end of the third rotating shaft on the upper left side extends into the composite cavity and is rotatably connected with the rear wall of the composite cavity, a fourth driven belt pulley is fixedly arranged on the rear end of the outer surface of the third rotating shaft on the upper left side, and a fourth belt is wound between the fourth driven belt pulley and the fourth driving belt pulley, the upper left side the outer disc of third pivot is fixed to be equipped with and is located the fifth driving pulley of fourth driven pulley front side, compound chamber lower wall right-hand member intercommunication is equipped with the compound chamber of second, and the left side fourth pivot rear end extends to compound intracavity of second and the fixed fifth driven pulley that is equipped with, fifth driven pulley with around being equipped with fifth belt, left side between the fifth driving pulley the fixed spur gear an, the right side of smashing of initiative that is equipped with of fourth pivot outer disc front end fourth pivot rear end extends to compound intracavity of second and the fixed driven spur gear a of smashing that is equipped with, driven the crushing spur gear an with the bevel gear meshing between the spur gear a is smashed in the initiative.

5. The glass quality inspection impact device of claim 4, wherein: a threaded rotating shaft is rotatably arranged between the upper wall and the lower wall of the composite cavity, the upper end and the lower end of the outer circular surface of the threaded rotating shaft are in threaded connection with vertically symmetrical large sliding blocks, the threads of the upper end and the lower end of the threaded rotating shaft are opposite, a fixed shaft positioned on the right side of the threaded rotating shaft is fixedly arranged on the lower wall of the composite cavity, the fixed shaft vertically penetrates through the large sliding blocks, the large sliding blocks can vertically slide relative to the fixed shaft, a sixth driven belt pulley is fixedly arranged at the upper end of the outer circular surface of the threaded rotating shaft, a sixth rotating shaft is rotatably arranged at the left end of the upper wall of the composite cavity, a sixth driving belt pulley is fixedly arranged at the lower end of the sixth rotating shaft, a sixth belt is wound between the sixth driving belt pulley and the sixth driven belt pulley, a bevel gear cavity is arranged at the left end in the upper, the rear wall of the bevel gear cavity is rotatably provided with a seventh rotating shaft, a first driving bevel gear is fixedly arranged at the front end of the seventh rotating shaft, and the first driving bevel gear is meshed with the first driven bevel gear through a bevel gear.

6. A glass quality inspection impact device according to claim 1, wherein: the rear wall of the clamping cavity is communicated with the front wall of the composite cavity, the front end faces of the large sliding blocks are fixedly arranged at the upper side and the lower side, and the front ends extend into the clamping cavity and are fixedly connected with the rear ends of the small sliding blocks.

7. The glass quality inspection impact device of claim 4, wherein: a third composite cavity is arranged in the rear wall of the composite cavity and the bevel gear cavity, the rear end of the first rotating shaft at the upper left side extends into the third composite cavity and is fixedly provided with a first driven straight gear a, the front wall of the third composite cavity is rotatably provided with an eighth rotating shaft a positioned right side of the first rotating shaft, the front end of the excircle surface of the eighth rotating shaft a is fixedly provided with a first driving straight gear, the first driving straight gear is meshed with the first driven straight gear a through a straight gear, the rear end of the eighth rotating shaft a is fixedly provided with a second driven bevel gear, the front end of the lower wall of the third composite cavity can be grabbed and provided with a ninth rotating shaft, the upper end of the ninth rotating shaft is fixedly provided with a second driving bevel gear, the second driving bevel gear is meshed with the second driven bevel gear through a bevel gear, and the lower end of the excircle surface of the ninth rotating shaft is fixedly provided with a first driven bevel, the rear end of the seventh rotating shaft extends into the third compound cavity and is fixedly provided with a third driven bevel gear, the front end of the upper wall of the third compound cavity is rotatably provided with a tenth rotating shaft, the lower end of the tenth rotating shaft is fixedly provided with a third driving bevel gear, the third driving bevel gear is meshed with the third driven bevel gear through a bevel gear, the lower end of the outer circular surface of the tenth rotating shaft is fixedly provided with a second driven bevel gear, the rear end of the lower wall of the third compound cavity is provided with a main rotating shaft which can slide up and down, the upper end of the main rotating shaft is fixedly provided with a first driving bevel gear, the first driving bevel gear can be meshed with the first driven bevel gear and the second driven bevel gear through a bevel gear, the upper end of the right wall of the third compound cavity is communicated with a fourth compound cavity extending rightwards, and the rear end of the fifth rotating shaft extends into the fourth compound cavity and is fixedly provided, an eleventh rotating shaft is rotatably arranged at the right end of the upper wall of the fourth composite cavity, a fourth driving bevel gear is fixedly arranged at the lower end of the eleventh rotating shaft, the fourth driving bevel gear is meshed with a bevel gear between the fourth driven bevel gears, a seventh driven belt pulley is fixedly arranged at the lower end of the outer circular surface of the eleventh rotating shaft, a twelfth rotating shaft is rotatably arranged at the left end between the upper wall and the lower wall of the fourth composite cavity, a seventh driving belt pulley is fixedly arranged at the upper end of the outer circular surface of the twelfth rotating shaft, a seventh belt is wound between the seventh driving belt pulley and the seventh driven belt pulley, a third driven bevel gear positioned on the lower side of the seventh driving belt pulley is fixedly arranged on the outer circular surface of the twelfth rotating shaft, and the third driven bevel gear can be meshed with a bevel gear between the.

8. The glass quality inspection impact device of claim 4, wherein: the rear end is equipped with the electric rail chamber in the third composite chamber lower wall, gliding track motor about the electric rail intracavity wall, main pivot lower extreme extends to in the electric rail chamber and with track motor upper end power is connected.

9. A glass quality inspection impact device according to claim 1, wherein: carry transfer chamber back wall intercommunication to have and be located the transfer slide of compound chamber front side, transfer slide left wall internal fixation is equipped with the cylinder, the fixed telescopic link that is equipped with of cylinder right-hand member, right downside third pivot rear end extends to in the transfer slide, transfer slide upper and lower wall center intercommunication has the axle sleeve slide, but axle sleeve slide inner wall horizontal slip be equipped with the axle sleeve that the outer disc of third pivot surrounded, the axle sleeve left end with telescopic link right-hand member fixed connection.

10. A glass quality inspection impact device according to claim 1, wherein: the lower end of the right wall of the crushing cavity is communicated with a box body cavity, a waste box is fixedly arranged on the inner wall of the box body cavity, a waste cavity is arranged in the waste box, and the upper end of the left wall of the waste cavity is communicated with the lower end of the right wall of the crushing cavity; the inner wall of the conveying cavity is fixedly provided with a sensor a which is positioned on the right side of the clamping cavity and on the left side of the sliding cavity, the center of the upper wall of the conveying cavity is communicated with a first channel extending downwards, the tail end of the first channel is communicated with the upper end of the left wall of the crushing cavity, and a separation glass is fixedly arranged at the right end between the upper wall and the lower wall of the observation cavity.