CN205309969U - Automatic beveler of two bistrique glass - Google Patents

Automatic beveler of two bistrique glass Download PDF

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Publication number
CN205309969U
CN205309969U CN201521036167.XU CN201521036167U CN205309969U CN 205309969 U CN205309969 U CN 205309969U CN 201521036167 U CN201521036167 U CN 201521036167U CN 205309969 U CN205309969 U CN 205309969U
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China
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glass
bistrique
grinding head
movable stand
drives
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CN201521036167.XU
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Chinese (zh)
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黄先华
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Guangdong Shanxia Intelligent Equipment Co.,Ltd.
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Flextech (foshan) Automatic Machinery Co Ltd
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Abstract

The utility model relates to an automatic beveler of two bistrique glass, it includes base, mount, removal frame, conveying mechanism, two glass brace tables, two three -dimensional drive mechanism, two bistrique subassemblies and rotary mechanism, the mount is located regularly on the base, locate with removing the portable regulation of frame on the base and with set up relatively on the mount, two three -dimensional drive mechanism locate respectively the mount remove on the frame to separately -driven connects two bistrique subassemblies, two glass brace tables are located respectively the mount on removing the frame, and respectively with two bistrique subassemblies correspond, locate the conveying mechanism liftable removing the frame and going up and be equipped with the conveyer belt, the conveyer belt is located between two bistrique subassemblies, rotary mechanism is located the below of conveyer belt for rotate glass. The utility model discloses the use is nimble, can improve production efficiency and reduction operating personnel's intensity of labour.

Description

Double; two bistrique glass automatic chamfering machines
Technical field
This utility model relates to glass post-processing field, particularly relates to double; two bistrique glass automatic chamfering machine.
Background technology
Current existing glass chamfering, mainly by single head irregular edge grinder, independent chamfering is carried out by the artificial angle to glass, the radius size of chamfering is grasped by the proficiency level of workman completely, bothersome effort, and the quality of product can not be guaranteed, in addition it is also necessary to manually move glass and carry out chamfering successively, labor intensity is big, and production efficiency is relatively low.
Utility model content
Technical problem to be solved in the utility model is to provide a kind of double; two bistrique glass automatic chamfering machine, uses flexibly, can improve production efficiency and reduce the labor intensity of operator.
Above-mentioned technical problem is solved by below scheme:
A kind of double; two bistrique glass automatic chamfering machine, including base, fixed mount, movable stand, conveying mechanism, two glass support platform, two three-dimensional drive mechanisms, two grinding head assemblies and rotating mechanism; Described fixed mount is located on described base regularly, described movable stand is removable be adjustably located on described base and with described fixed mount on be oppositely arranged; Said two three-dimensional drive mechanism is respectively arranged on described fixed mount, described movable stand, and drives connection said two grinding head assembly respectively; Said two glass support platform is respectively arranged on described fixed mount, described movable stand, and corresponding with said two grinding head assembly respectively; Conveyer belt is liftably located on described movable stand and is provided with to described conveying mechanism, and described conveyer belt is between said two grinding head assembly; Described rotating mechanism is positioned at the lower section of described conveyer belt, for being rotated by glass.
Wherein in an embodiment, described pair of bistrique glass automatic chamfering machine also includes positioning component, and described positioning component includes two end location-plates, a side positioning members and regulates cylinder; Said two end location-plate is respectively arranged on described fixed mount, described movable stand, and said two end location-plate for carrying out location, end to glass on the direction moved toward grinding head assembly; Described side positioning members is located at described fixed mount, and described adjustment cylinder is located at described movable stand and relative with described side positioning members; Described adjustment cylinder contacts with described side positioning members for being pushed to toward described fixed mount by the glass on conveyer belt, so that glass is carried out sidepiece location.
Wherein in an embodiment, described rotating mechanism includes rotary driving source, gripper shoe and several glass adsorbent equipments, described rotary driving source drives described gripper shoe lift and rotate, and several glass adsorbent equipments described are located at the upper surface of described gripper shoe.
Wherein in an embodiment, described three-dimensional drive mechanism includes the first transverse transmission structure, the second transverse transmission structure and longitudinal drive mechanism; First transverse transmission structure of two three-dimensional drive mechanisms is respectively arranged on described fixed mount, described movable stand, described first transverse transmission structure drives described second transverse transmission structure to make the first transverse shifting, described second transverse transmission structure drives described longitudinal drive mechanism to make the second transverse shifting, and described longitudinal drive mechanism drives described grinding head assembly to vertically move.
Wherein in an embodiment, described first transverse transmission structure includes the first cross slide way body and the first drive source, described first cross slide way body is provided with the first cross slide way coordinated with the second cross slide way body, and described first drive source is fixed between described first cross slide way and drives connection the second cross slide way body; Described second transverse transmission structure includes the second cross slide way body and the second drive source, described second cross slide way body is provided with the second cross slide way coordinated with longitudinal rail body, described second drive source is fixed between described second cross slide way, and drives connection longitudinal rail body; Described longitudinal drive mechanism includes longitudinal rail body and the 3rd drive source, and described longitudinal rail body is provided with the longitudinal rail coordinated with described grinding head assembly; Described 3rd drive source is fixed between described longitudinal rail, and drives the described grinding head assembly of connection.
Wherein in an embodiment, described grinding head assembly includes electric rotating machine, diamond wheel and buff wheel, and described electric rotating machine is provided with rotating shaft, described diamond wheel and described buff wheel and is fixed in the rotating shaft of described electric rotating machine.
Wherein in an embodiment, described conveying mechanism also includes conveyer belt described in bracing frame, feed drive source and two, support frame as described above is liftably located on described movable stand, two conveyer belts are separated by and are arranged side by side and are rotatably arranged on support frame as described above, and described feed drive source drives two conveyer belts to rotate.
Wherein in an embodiment, described pair of bistrique glass automatic chamfering machine also includes lifting drive source, and lifting drive source is located on described movable stand and drives described conveying mechanism to make lifting moving.
Wherein in an embodiment, described pair of bistrique glass automatic chamfering machine also includes frame drive source, described base is provided with the adjustable track coordinated with described movable stand, and described frame drive source drives described movable stand to move adjustment along the adjustable track of described base.
Wherein in an embodiment, with conveyer belt by glass toward the direction that grinding head assembly is carried for front, described three-dimensional drive mechanism, described grinding head assembly, described glass support platform, described rotating mechanism are arranged from front to back.
Described in the utility model pair of bistrique glass automatic chamfering machine has following technical effect that
1, it is transportable for being designed to movable stand be relatively fixed frame, and conveying mechanism is located on movable stand, conveying mechanism can be followed movable stand and be moved, therefore, the distance between movable stand and fixed mount can be regulated according to the size of glass, make two angles of two grinding head assemblies corresponding glass neatly, it is achieved the glass of different in width is processed, use flexibly; Simultaneously so that three-dimensional drive mechanism can drive grinding head assembly in as far as possible little scope, is beneficial to the small size design of three-dimensional drive mechanism;
2, two grinding head assemblies are utilized, two angles of glass can be processed simultaneously, utilize three-dimensional drive mechanism to regulate two grinding head assemblies in all directions simultaneously, such that it is able to realize using two grinding head assemblies glass to be carried out automatically, effectively processes various special-shaped angle, the quality of product is guaranteed, and also improves production efficiency;
3, pass through rotating mechanism, it is possible to after processing two angles of glass, glass is rotated, to continue two other angle of processed glass, it is achieved four angles of full-automatic processed glass, decrease artificial use, reduce the labor intensity of operator.
Accompanying drawing explanation
Fig. 1 is the axonometric drawing of double; two bistrique glass automatic chamfering machine;
Fig. 2 is the top view of double; two bistrique glass automatic chamfering machine;
Fig. 3 is the attachment structure figure of three-dimensional drive mechanism and grinding head assembly.
Detailed description of the invention
As shown in Figure 1 to Figure 3, a kind of double; two bistrique glass automatic chamfering machine, including base 1, fixed mount 2, movable stand 3, conveying mechanism, two glass support platform (5,6), two three-dimensional drive mechanisms (7,8), two grinding head assemblies (11,12) and rotating mechanism 13; Fixed mount 2 is located on base 1 regularly, movable stand 3 is removable be adjustably located on base 1 and with fixed mount 2 on be oppositely arranged; Two three-dimensional drive mechanisms (7,8) are respectively arranged on fixed mount 2, movable stand 3, and drive two grinding head assemblies (11,12) of connection respectively; Two glass support platform (5,6) are respectively arranged on fixed mount 2, movable stand 3, and corresponding with two grinding head assemblies (11,12) respectively; Conveyer belt 41 is liftably located on movable stand 3 and is provided with to conveying mechanism, and conveyer belt 41 is positioned between two grinding head assemblies (11,12); Rotating mechanism 13 is positioned at the lower section of conveyer belt 41, for being rotated by glass.
Above-mentioned pair of bistrique glass automatic chamfering machine also includes frame drive source 14, and base 1 is provided with the adjustable track 101 coordinated with movable stand 3, and frame drive source 14 drives movable stand 3 to move adjustment along the adjustable track 101 of base 1. In this scenario, adjust the distance between movable stand 3 and fixed mount 2 by frame drive source 14, to adapt to the glass of different in width.
Above-mentioned pair of bistrique glass automatic chamfering machine also includes positioning component, and positioning component includes two end location-plates (151,152), a side positioning members 153 and regulates cylinder (not shown); Two end location-plates (151,152) are respectively arranged on fixed mount 2, movable stand 3, and two end location-plates (151,152) for carrying out location, end to glass on the direction moved toward grinding head assembly; Side positioning members 153 is located at fixed mount 2, regulates cylinder and is located at movable stand 3 and relative with side positioning members 153, regulates cylinder and contacts with side positioning members 153 for being pushed to toward fixed mount 2 by the glass on conveyer belt, so that glass is carried out sidepiece location.
Above-mentioned positioning component utilizes two end location-plates (151,152) to realize the location, end of glass, side positioning members 153 and adjustment cylinder is utilized to realize a sidepiece location of glass, thus realizing being positioned at glass default position, therefore, it is appreciated that the particular location at the angle being made up of a sidepiece of the end of glass Yu glass, is appreciated that the particular location at the another one angle of glass then in conjunction with the width of glass. It is thus possible to glass is carried out chamfering effectively by the particular location according to two angles of glass.
The setting of above-mentioned positioning component is specifically, with along conveyer belt 41 by glass toward grinding head assembly (11, 12) direction carried is front, two end location-plates (151, 152) fixed mount 2 it is respectively arranged on, movable stand 3 also lays respectively at glass support platform (5, 6) front, two end location-plates (151, 152) it is on same vertical plane and protrudes from two glass support platform (5, 6) upper surface, when glass is toward grinding head assembly (11, 12) conveying, the leading section of glass can be subject to two end location-plates (151, 152) stop and be positioned two end location-plates (151, 152) place, side positioning members 153 is located at fixed mount 2 and protrudes from the upper surface of glass support platform 5, regulate cylinder and be located at movable stand 3 and relative with side positioning members 153, glass support platform 5 on fixed mount 2 is at side positioning members 153 and regulates between cylinder, glass on conveyer belt is pushed to toward fixed mount 2 and contacts with side positioning members 153 by adjustment cylinder, and the sidepiece of glass is positioned side positioning members 153 place.
The operation principle of this positioning component specifically includes: the conveyer belt 41 of conveying mechanism by glass toward two grinding head assemblies (11, 12) conveying, when end location-plate (151 encountered by glass, 152) time, under the promotion of conveyer belt 41, glass can be made to be ultimately at the state ajusted, the end of glass can contact two end location-plates (151 simultaneously, 152), achieve the end to glass to position, additionally, regulate cylinder and glass can be touched side positioning members 153 toward the lateral surface to glass mobile on fixed mount 2, the sidepiece achieving glass positions. therefore, glass is positioned assembly when finally positioning to predeterminated position, the front end face of glass and two end location-plates (151,152) contacts, and the lateral surface of glass contacts with side positioning members 153.
Above-mentioned rotating mechanism 13 includes rotary driving source 131, gripper shoe 132 and several glass adsorbent equipments 133, and rotary driving source 131 drives gripper shoe 132 lift and rotate, and several glass adsorbent equipments 133 are located at the upper surface of gripper shoe 132. The program has described the concrete structure of rotating mechanism 13; rotating mechanism 13 utilizes the rotary driving source 131 can by glass lifting and leave conveyer belt 41 and glass support platform (5,6); then carry out interference-free rotary glass, glass is protected on the basis at four angles of automatic processed glass effectively can realize.
Above-mentioned glass adsorbent equipment 133 can be rubber glass sucker.
Above-mentioned three-dimensional drive mechanism (7,8) all includes first transverse transmission structure the 91, second transverse transmission structure 92 and longitudinal drive mechanism 93; First transverse transmission structure 91 of two three-dimensional drive mechanisms (7,8) is respectively arranged on fixed mount 2, movable stand 3, first transverse transmission structure 91 drives the second transverse transmission structure 92 to make the first transverse shifting, second transverse transmission structure 92 drives longitudinal drive mechanism 93 to make the second transverse shifting, and longitudinal drive mechanism 93 drives grinding head assembly (11 or 12) to vertically move.
Above-mentioned first transverse transmission structure 91 includes the first cross slide way body 911 and the first drive source 912, first cross slide way body 911 is provided with the first cross slide way 913 coordinated with the second cross slide way body 921, first drive source 912 is fixed between the first cross slide way 913 of the first cross slide way body 911, and drives the second cross slide way body 921 to move along the first cross slide way 913; Above-mentioned second transverse transmission structure 92 includes the second cross slide way body 921 and the second drive source 922, and the second cross slide way body 921 is provided with the second cross slide way 923 coordinated with longitudinal rail body 931; Second drive source 922 is fixed between the second cross slide way 923 of the second cross slide way body 921, and drives longitudinal rail body 931 to move along the second cross slide way 923; Above-mentioned longitudinal drive mechanism 93 includes longitudinal rail body 931 and the 3rd drive source 932, and longitudinal rail body 931 is provided with the longitudinal rail 933 coordinated with grinding head assembly; 3rd drive source 932 is fixed between the longitudinal rail 933 of longitudinal rail body 931, and drives grinding head assembly longitudinally guide rail 933 to move.
Wherein, the first cross slide way body 911 of two the first transverse transmission structures 91 is respectively fixedly located on fixed mount 2, movable stand 3.
Above-mentioned grinding head assembly (11,12) includes electric rotating machine 111, diamond wheel 112 and buff wheel 113, and electric rotating machine 111 is provided with rotating shaft 114, diamond wheel 112 and buff wheel 113 and is fixed in the rotating shaft 114 of electric rotating machine 111. Wherein, the electric rotating machine 111 of grinding head assembly (11,12) is specifically located on longitudinal rail body 931 regularly.Grinding head assembly (11,12) arranges diamond wheel 112 and buff wheel 113, under the drive of electric rotating machine 111, it is possible to roughly grind first with carrying out diamond wheel 112, then utilizes buff wheel 113 to carry out fine grinding polishing.
Above-mentioned conveying mechanism also includes bracing frame 42, feed drive source (not shown) and two said conveyer belt 41, bracing frame 42 is liftably located on movable stand 3, two conveyer belts 41 are separated by and are arranged side by side and are rotatably arranged on bracing frame 42, and feed drive source drives two conveyer belts 41 to rotate.
Above-mentioned pair of bistrique glass automatic chamfering machine also includes lifting drive source (not shown), and lifting drive source is located on movable stand 3 and drives above-mentioned conveying mechanism to make lifting moving. Coordinating with the conveying mechanism of above-mentioned concrete structure, lifting drive source specifically drives bracing frame 42 to make lifting moving.
Wherein, with conveyer belt 41 by glass toward the direction that grinding head assembly (11,12) is carried for front, three-dimensional drive mechanism (7,8), grinding head assembly (11,12), glass support platform (5,6), rotating mechanism 13 are arranged from front to back. In the program, three-dimensional drive mechanism (7,8) is not on the transmission path of glass, it is simple to the flexible design of structure.
Can be separated from each other to be not connected between above-mentioned rotating mechanism 13 and base 1, it is also possible to be connected with each other.
The operation principle of above-mentioned pair of bistrique glass automatic chamfering machine is:
Time initial, frame drive source 14 operates and adjusts the distance between movable stand 3 and fixed mount 2 to suitable distance to adapt to the glass that will process, lifting drive source running driving conveying belt 41 rise, and making the upper surface of conveyer belt 41 be higher than the end face of two glass support platform (5,6), rotary driving source 131 operates and drives glass adsorbent equipment 133 to be positioned at the lower section of conveyer belt 41.
The course of processing at two angles of glass starts, glass is placed on the conveyer belt 41 of conveying mechanism, feed drive source drives two conveyer belts 41 to rotate, glass is carried toward the lower section of two grinding head assemblies (11,12), under the effect of positioning component, glass is ajusted and is positioned predeterminated position, therefore, position on fixed mount 2, one angle of glass is known, width according to glass it is known that the position on movable stand 3, another angle of glass, thus realizing the concrete location at two angles of glass; Lifting drive source driving conveying belt 41 declines, so that the lower surface of conveyer belt 41 is lower than the upper surface of two glass support platform (5,6), therefore, glass can be placed down in two glass support platform (5,6); Two angles that two three-dimensional drive mechanisms (7,8) first drive two grinding head assemblies (11,12) to be respectively aligned to glass respectively, the electric rotating machine 111 of grinding head assembly (11,12) operates and drives diamond wheel 112 and buff wheel 113 to rotate, then three-dimensional drive mechanism (7,8) is according to the shape processing request to glass angled, grinding head assembly (11,12) is constantly driven to do the adjustment of position, so that the chamfer machining of grinding head assembly (11,12) complete pair glass; Grinding head assembly (11,12) is roughly ground first with diamond wheel 112 in chamfer process, then utilizes buff wheel 113 to carry out fine grinding polishing.
After the chamfering at two angles of complete pair glass, lifting drive source driving conveying belt 41 rises and is higher than the end face of two glass support platform (5,6), and now, glass is positioned on conveyer belt 41; Feed drive source drives two conveyer belts 41 to rotate, and glass deviates grinding head assembly and is delivered to the surface of glass adsorbent equipment 133 of rotating mechanism 13;Rotary driving source 131 drives gripper shoe 132 to rise, and hold glass by several glass adsorbent equipments 133, after glass departs from conveyer belt 41, rotary driving source 131 drives gripper shoe 132 to revolve turnback so that two unprocessed angles of glass are towards two grinding head assemblies (11,12); Rotary driving source 131 drives gripper shoe 132 to decline, and glass is transferred to conveyer belt 41, according to above-mentioned " courses of processing at two angles of glass ", two unprocessed angles of glass is processed.
Seen from the above description, double; two bistrique glass automatic chamfering machines have following technical effect that
1, it is transportable for being designed to movable stand 3 be relatively fixed frame 2, and conveying mechanism is located on movable stand 3, conveying mechanism can be followed movable stand 3 and be moved, therefore, the distance between movable stand 3 and fixed mount 2 can be regulated according to the size of glass, make two angles of two grinding head assemblies (11,12) corresponding glass neatly, it is achieved the glass of different in width is processed, use flexibly; Simultaneously so that three-dimensional drive mechanism (7,8) can drive grinding head assembly (11,12) in as far as possible little scope, is beneficial to the small size design of three-dimensional drive mechanism (7,8);
2, two grinding head assemblies (11,12) are utilized, two angles of glass can be processed simultaneously, utilize three-dimensional drive mechanism (7,8) to regulate two grinding head assemblies (11,12) in all directions simultaneously, such that it is able to realize using two grinding head assemblies (11,12) glass to be carried out automatically, effectively processes various special-shaped angle, the quality of product is guaranteed, and also improves production efficiency;
3, by rotating mechanism 13, it is possible to after processing two angles of glass, glass is rotated, to continue two other angle of processed glass, it is achieved four angles of full-automatic processed glass, decrease artificial use, reduce labor intensity;
4, above-mentioned positioning component only uses two end location-plates (151,152), a side positioning members 153 and to regulate cylinder, under the cooperation of conveyer belt 41 can being accurately positioned of complete pair glass, simple in construction, position fixing process is simply effective;
5, above-mentioned first transverse transmission structure the 91, second transverse transmission structure 92 and longitudinal drive mechanism 93, all utilize the space between track to arrange respective drive source, advantageously reduce the volume of three-dimensional drive mechanism.
Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics is absent from contradiction, all it is considered to be the scope that this specification is recorded.
Embodiment described above only have expressed several embodiments of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to utility model patent scope. It should be pointed out that, for the person of ordinary skill of the art, without departing from the concept of the premise utility, it is also possible to make some deformation and improvement, these broadly fall into protection domain of the present utility model. Therefore, the protection domain of this utility model patent should be as the criterion with claims.

Claims (10)

1. a double; two bistrique glass automatic chamfering machine, it is characterised in that include base, fixed mount, movable stand, conveying mechanism, two glass support platform, two three-dimensional drive mechanisms, two grinding head assemblies and rotating mechanism; Described fixed mount is located on described base regularly, described movable stand is removable be adjustably located on described base and with described fixed mount on be oppositely arranged; Said two three-dimensional drive mechanism is respectively arranged on described fixed mount, described movable stand, and drives connection said two grinding head assembly respectively; Said two glass support platform is respectively arranged on described fixed mount, described movable stand, and corresponding with said two grinding head assembly respectively; Conveyer belt is liftably located on described movable stand and is provided with to described conveying mechanism, and described conveyer belt is between said two grinding head assembly; Described rotating mechanism is positioned at the lower section of described conveyer belt, for being rotated by glass.
2. according to claim 1 pair of bistrique glass automatic chamfering machine, it is characterised in that described pair of bistrique glass automatic chamfering machine also includes positioning component, described positioning component includes two end location-plates, a side positioning members and regulates cylinder;Said two end location-plate is respectively arranged on described fixed mount, described movable stand, and said two end location-plate for carrying out location, end to glass on the direction moved toward grinding head assembly; Described side positioning members is located at described fixed mount, and described adjustment cylinder is located at described movable stand and relative with described side positioning members; Described adjustment cylinder contacts with described side positioning members for being pushed to toward described fixed mount by the glass on conveyer belt, so that glass is carried out sidepiece location.
3. according to claim 1 pair of bistrique glass automatic chamfering machine, it is characterized in that, described rotating mechanism includes rotary driving source, gripper shoe and several glass adsorbent equipments, described rotary driving source drives described gripper shoe lift and rotate, and several glass adsorbent equipments described are located at the upper surface of described gripper shoe.
4. according to claim 1 pair of bistrique glass automatic chamfering machine, it is characterised in that described three-dimensional drive mechanism includes the first transverse transmission structure, the second transverse transmission structure and longitudinal drive mechanism; First transverse transmission structure of two three-dimensional drive mechanisms is respectively arranged on described fixed mount, described movable stand, described first transverse transmission structure drives described second transverse transmission structure to make the first transverse shifting, described second transverse transmission structure drives described longitudinal drive mechanism to make the second transverse shifting, and described longitudinal drive mechanism drives described grinding head assembly to vertically move.
5. according to claim 4 pair of bistrique glass automatic chamfering machine, it is characterized in that, described first transverse transmission structure includes the first cross slide way body and the first drive source, described first cross slide way body is provided with the first cross slide way coordinated with the second cross slide way body, and described first drive source is fixed between described first cross slide way and drives connection the second cross slide way body; Described second transverse transmission structure includes the second cross slide way body and the second drive source, described second cross slide way body is provided with the second cross slide way coordinated with longitudinal rail body, described second drive source is fixed between described second cross slide way, and drives connection longitudinal rail body; Described longitudinal drive mechanism includes longitudinal rail body and the 3rd drive source, and described longitudinal rail body is provided with the longitudinal rail coordinated with described grinding head assembly; Described 3rd drive source is fixed between described longitudinal rail, and drives the described grinding head assembly of connection.
6. according to claim 1 pair of bistrique glass automatic chamfering machine, it is characterized in that, described grinding head assembly includes electric rotating machine, diamond wheel and buff wheel, and described electric rotating machine is provided with rotating shaft, described diamond wheel and described buff wheel and is fixed in the rotating shaft of described electric rotating machine.
7. according to claim 1 pair of bistrique glass automatic chamfering machine, it is characterized in that, described conveying mechanism also includes conveyer belt described in bracing frame, feed drive source and two, support frame as described above is liftably located on described movable stand, two conveyer belts are separated by and are arranged side by side and are rotatably arranged on support frame as described above, and described feed drive source drives two conveyer belts to rotate.
8. the double; two bistrique glass automatic chamfering machines according to claim 1 to 7 any one, it is characterized in that, described pair of bistrique glass automatic chamfering machine also includes lifting drive source, and lifting drive source is located on described movable stand and drives described conveying mechanism to make lifting moving.
9. the double; two bistrique glass automatic chamfering machines according to claim 1 to 7 any one, it is characterized in that, described pair of bistrique glass automatic chamfering machine also includes frame drive source, described base is provided with the adjustable track coordinated with described movable stand, and described frame drive source drives described movable stand to move adjustment along the adjustable track of described base.
10. the double; two bistrique glass automatic chamfering machines according to claim 1 to 7 any one, it is characterized in that, with conveyer belt by glass toward the direction that grinding head assembly is carried for front, described three-dimensional drive mechanism, described grinding head assembly, described glass support platform, described rotating mechanism are arranged from front to back.
CN201521036167.XU 2015-12-11 2015-12-11 Automatic beveler of two bistrique glass Active CN205309969U (en)

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Application Number Priority Date Filing Date Title
CN201521036167.XU CN205309969U (en) 2015-12-11 2015-12-11 Automatic beveler of two bistrique glass

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Application Number Priority Date Filing Date Title
CN201521036167.XU CN205309969U (en) 2015-12-11 2015-12-11 Automatic beveler of two bistrique glass

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109015189A (en) * 2018-08-21 2018-12-18 临泉县蓝天钢化玻璃有限公司 A kind of glass corner grinding device
CN112454165A (en) * 2020-11-11 2021-03-09 池州市华盛玻璃有限公司 Simple glass chamfering machine

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109015189A (en) * 2018-08-21 2018-12-18 临泉县蓝天钢化玻璃有限公司 A kind of glass corner grinding device
CN112454165A (en) * 2020-11-11 2021-03-09 池州市华盛玻璃有限公司 Simple glass chamfering machine

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Address after: 528000 one of the third floor, No. 9, Huatian Road, Shunde high tech Zone (Ronggui), Ronggui huakou neighborhood committee, Shunde District, Foshan City, Guangdong Province

Patentee after: Guangdong Shanxia Intelligent Equipment Co.,Ltd.

Address before: 528300 No. 9, Huatian Road, Ronggui huakou, Shunde District, Foshan City, Guangdong Province

Patentee before: FLEXTECH (FOSHAN) AUTOMATIC MACHINERY Co.,Ltd.