CN219546101U - Conveying device is transplanted to combined interchange of sheet glass - Google Patents

Conveying device is transplanted to combined interchange of sheet glass Download PDF

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Publication number
CN219546101U
CN219546101U CN202223378108.3U CN202223378108U CN219546101U CN 219546101 U CN219546101 U CN 219546101U CN 202223378108 U CN202223378108 U CN 202223378108U CN 219546101 U CN219546101 U CN 219546101U
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China
Prior art keywords
assembly
conveying
interchange
fixed roller
roller way
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Active
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CN202223378108.3U
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Chinese (zh)
Inventor
马立云
潘海
刘锐
孙博
章寅
张国金
姚亮亮
洪志
许海艇
刘资宇
杨坤
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China Triumph International Engineering Co Ltd
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China Triumph International Engineering Co Ltd
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Priority to CN202223378108.3U priority Critical patent/CN219546101U/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P40/00Technologies relating to the processing of minerals
    • Y02P40/50Glass production, e.g. reusing waste heat during processing or shaping
    • Y02P40/57Improving the yield, e-g- reduction of reject rates

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Abstract

The utility model discloses a combined type grade separation transplanting conveying device for plate glass, which comprises the following components: the device comprises a fixed roller way assembly, two belt conveying components and two interchange moving components, wherein the two belt conveying components are sequentially arranged on the fixed roller way assembly along a first direction, the two interchange moving components are respectively connected with the two belt conveying components, and the interchange moving components are used for driving the belt conveying components to be close to or far away from the fixed roller way assembly. By applying the utility model, the glass steering conveying mechanism suitable for the node position of the glass production line is provided, so that the single-sheet conveying of large-size glass plates can be realized, and the grouped paired conveying of small-size glass plates can be realized; the utility model has reasonable overall structure arrangement, improves the stability of the lifting process of the belt conveying component and the smoothness of conveying glass in all directions, meets the fast beat requirement of a production line, and greatly improves the conveying efficiency of the glass along the main line and the branch line.

Description

Conveying device is transplanted to combined interchange of sheet glass
Technical Field
The utility model relates to the technical field of float glass raw sheet production, in particular to a combined type grade separation transplanting conveying device for flat glass.
Background
In the production process of the float glass raw sheet, the cut glass is usually selected to be cut from a main line or a branch line according to control requirements, and glass steering mobile equipment at the junction of the branch line and the main line belongs to key node equipment which can be stably transmitted and also needs to consider the requirement of beats. At present, according to the technological requirements, the requirement that the oversized plate needs to be conveyed in a single piece exists, and meanwhile, the requirement that small and medium-sized multi-division glass plates are conveyed in a group matching mode also appears.
However, all glass turning mobile equipment on the existing production line only has a single driving belt to lift the components, so that the ultra-large plate conveying can not be flexibly met, and the paired and grouped conveying of patches can not be realized for the middle-small multiple glass plates. Meanwhile, the existing glass steering mobile equipment is low in working efficiency, and the quick beat requirement of a production line is difficult to meet.
Disclosure of Invention
In view of the above, the present utility model provides a combined type sheet glass interchange transplanting and conveying device, comprising: the device comprises a fixed roller way assembly, two belt conveying components and two interchange moving components, wherein the conveying direction of the fixed roller way assembly is set along a first direction, the two belt conveying components are sequentially arranged on the fixed roller way assembly along the first direction, the conveying directions of the two belt conveying components are all set along a second direction, the first direction and the second direction are perpendicular, the two interchange moving components are respectively connected with the two belt conveying components, and the interchange moving components are used for driving the belt conveying components to be close to or far away from the fixed roller way assembly.
In another preferred embodiment, the fixed roller table assembly comprises: the two fixed roller way components are sequentially arranged along the first direction, each belt conveying component is opposite to one fixed roller way component, and the conveying directions of the two fixed roller way components are all along the first direction.
In another preferred embodiment, the fixed roller way component comprises: the conveying device comprises a fixed frame, a first driving mechanism, a ground shaft, a bearing seat assembly and a conveying roller assembly, wherein the conveying roller assembly is installed on the bearing seat assembly, the bearing seat assembly is installed on the fixed frame, the ground shaft is installed on the fixed frame, the first driving mechanism is in transmission connection with the ground shaft, and the ground shaft is in transmission connection with the conveying roller assembly.
In another preferred embodiment, the belt conveying member includes: the belt assembly is installed on the support frame, and the power shaft is in transmission connection with the belt assembly.
In another preferred embodiment, the interchange motion component comprises: four link assembly, elevator motor, crank and short pull rod, elevator motor fixed mounting in on the fixed roller way subassembly, elevator motor's output with the crank is connected, the crank with the one end of short pull rod is articulated, the other end of short pull rod with four link assembly is connected, four link assembly with belt conveyor part is connected.
In another preferred embodiment, the four-bar linkage assembly comprises: the belt conveyor comprises a supporting part, a supporting frame, a first connecting rod, a first supporting component, a long pull rod, a second connecting rod and a second supporting component, wherein the supporting frame is connected with the belt conveying component, one end of the supporting frame is provided with the first supporting component, one end of the first connecting rod is connected with the first supporting component, the first connecting rod is hinged to the supporting part, the other end of the first connecting rod is hinged to one end of the long pull rod, the other end of the long pull rod is hinged to the second connecting rod, one end of the second connecting rod is hinged to the other end of the short pull rod, the second connecting rod is hinged to the supporting part, and the second supporting component is arranged at the other end of the supporting frame, and the other end of the second connecting rod is connected with the second supporting component.
In another preferred embodiment, the first support assembly includes: the limiting frame is fixedly arranged on the supporting frame, a sliding space is formed in the limiting frame along the length direction of the supporting frame, the roller is movably arranged in the sliding space, and the roller is connected with the first connecting rod.
In another preferred embodiment, further comprising: and the fixed roller way assembly, the belt conveying component and the interchange moving component are all in communication connection with the control system.
In another preferred embodiment, the control system comprises: the device comprises a controller, a first sensing assembly, a second sensing assembly, a third sensing assembly and a fourth sensing assembly, wherein the first sensing assembly, the second sensing assembly, the third sensing assembly, the fourth sensing assembly, the fixed roller way assembly, the belt conveying component and the interchange moving component are all in communication connection with the controller, the first sensing assembly is arranged at one end of the fixed roller way assembly along the first direction, the second sensing assembly is arranged at the middle of the fixed roller way assembly, the third sensing assembly is arranged at the other end of the fixed roller way assembly along the first direction, and the fourth sensing assembly is arranged at one end of the fixed roller way assembly along the second direction.
In another preferred embodiment, the first sensing assembly, the second sensing assembly, the third sensing assembly, and the fourth sensing assembly each comprise: two photoelectric sensors.
By adopting the technical scheme, the utility model has the positive effects compared with the prior art that: by applying the utility model, the glass steering conveying mechanism suitable for the node position of the glass production line is provided, so that the single-sheet conveying of large-size glass plates can be realized, and the grouped paired conveying of small-size glass plates can be realized; the utility model has reasonable overall structure arrangement, improves the stability of the lifting process of the belt conveying component and the smoothness of conveying glass in all directions, meets the fast beat requirement of a production line, and greatly improves the conveying efficiency of the glass along the main line and the branch line.
Drawings
FIG. 1 is a top view of a sheet glass modular interchange transplanting conveyor of the present utility model;
FIG. 2 is a side view of a sheet glass modular interchange transplanting conveyor of the present utility model;
FIG. 3 is a schematic view of a portion of a sheet glass modular interchange transplanting conveyor of the present utility model;
fig. 4 is a schematic view of a supporting part of a combined type sheet glass interchange transplanting conveying device.
In the accompanying drawings:
1. fixing a roller way component; 101. a conveyor roller assembly; 102. a bearing block assembly; 103. a fixed frame; 104. a ground shaft; 105. a power belt wheel; 106. a bevel gear assembly; 107. a first drive motor; 2. a belt conveying member; 201. a second drive motor; 202. a belt assembly; 203. a power shaft; 204. a cartridge coupler; 205. a support structure; 206. a stop lever; 3. an interchange motion component; 301. a support frame; 302. a first link; 303. a roller; 304. a long pull rod; 305. a small bracket; 306. a second link; 307. tightly fixing a bearing seat; 308. a short pull rod; 309. a crank; 310. a torque arm; 311. a lifting motor; 312. a universal coupling; 313. a connecting flange; 4. a control system; 401. a first sensing assembly; 402. a second sensing assembly; 403. a third sensing assembly; 404. a fourth sensing assembly; 405. and a controller.
Detailed Description
The utility model is further described below with reference to the drawings and specific examples, which are not intended to be limiting.
As shown in fig. 1 to 4, there is shown a sheet glass combined type interchange transplanting conveying device of a preferred embodiment, comprising: the conveying direction of the fixed roller way assembly is along a first direction, the two belt conveying components 2 are sequentially arranged on the fixed roller way assembly along the first direction, the conveying directions of the two belt conveying components 2 are all along a second direction, the first direction and the second direction are perpendicular, the two belt conveying components 3 are respectively connected with the two belt conveying components 2, and the interchange moving components 3 are used for driving the belt conveying components 2 to be close to or far away from the fixed roller way assembly. Further, by arranging the plate glass combined type interchange transplanting conveying device, conveying of large-size glass in a single sheet mode along a first direction or a second direction can be achieved, and grouped paired conveying of a plurality of small-size glasses along the first direction or the second direction can be achieved, and for the small-size glass, glass plates conveyed out along the second direction can be paired two by two through separate driving of two interchange moving parts 3 and separate conveying of two belt conveying parts 2 so as to be conveyed out simultaneously after patch operation; and in the conveying process, the belt conveying part 2 and the upper surface of the fixed roller way assembly are matched to form a neutral gear position along a first direction through the movement of the belt conveying part 2, namely when the belt conveying part 2 rises to a certain height, glass can continuously move along the first direction through the neutral gear, the neutral gear can be formed between the lower surface of the belt conveying part 2 and the upper surface of the fixed roller way assembly, a gap can also be formed on the inner side of a belt part of the belt conveying part 2, and when the lower side of the gap abuts against the upper surface of the fixed roller way assembly, the corresponding neutral gear is formed.
Further, as a preferred embodiment, the fixed roller table assembly comprises: the two fixed roller way components 1, the two fixed roller way components 1 are sequentially arranged along the first direction, each belt conveying component 2 is opposite to one fixed roller way component 1, and the conveying directions of the two fixed roller way components 1 are all arranged along the first direction.
Further, as a preferred embodiment, the two fixed roller way components 1, the two belt conveying components 2 and the two vertical moving components 3 are symmetrically arranged.
Further, as a preferred embodiment, the fixed roller way component 1 comprises: the conveying roller assembly 101 is installed on the bearing seat assembly 102, the bearing seat assembly 102 is installed on the fixed frame 103, the ground shaft 104 is installed on the fixed frame 103, the first driving mechanism is in transmission connection with the ground shaft 104, and the ground shaft 104 is in transmission connection with the conveying roller assembly 101.
Further, as a preferred embodiment, the first driving mechanism includes: the first transmission motor 107 and the power pulley 105, the first transmission motor 107 is in transmission connection with the power pulley 105, and the power pulley 105 is in transmission connection with the ground shaft 104.
Further, as a preferred embodiment, the ground shaft 104 is provided with a bevel gear assembly 106, and the ground shaft 104 is in driving connection with the conveying roller assembly 101 through the bevel gear assembly 106.
Further, as a preferred embodiment, the conveying roller assembly 101 includes a plurality of conveying rollers sequentially arranged in parallel along the first direction, the bearing seat assembly 102 includes a plurality of bearing seats sequentially arranged along the first direction, each bearing seat is rotatably provided with a conveying roller, and each conveying roller is in transmission connection with the ground shaft 104 through the bevel gear assembly 106. Further, the transmission of the bevel gear assembly 106 enables the first driving mechanism to drive the ground shaft 104 to drive the rotation of the conveying rollers.
Further, as a preferred embodiment, the power shaft 203 includes: the shaft parts are sequentially connected through the shaft couplers, namely the shaft parts and the shaft couplers are sequentially and alternately arranged along the first direction. Further, the coupling is preferably a pod coupling 204.
Further, as a preferred embodiment, the belt conveying member 2 includes: the belt assembly 202 is arranged on the support frame, and the power shaft 203 is in transmission connection with the belt assembly 202.
Further, as a preferred embodiment, the second driving mechanism includes: the second transmission motor 201, the second transmission motor 201 is connected with the power shaft 203 in a transmission way. Further, the second transmission motor 201 realizes the forward and reverse rotation of the plurality of belt parts through the transmission connection of the power shaft 203.
Further, as a preferred embodiment, the support frame includes a plurality of support structures 205, the belt assembly 202 includes a plurality of belt portions, the plurality of belt portions are sequentially arranged in parallel along the first direction, a support structure 205 is disposed between each two adjacent belt portions, and the support structure 205 is used for fixedly connecting the two adjacent belt portions. Further, the belt parts are connected with each other to form a whole through the supporting structures 205, so that shaking caused by lifting of the whole belt conveying part 2 is effectively avoided.
Further, as a preferred embodiment, the method further comprises: the stop lever 206, the stop lever 206 sets up in the one end of fixed roll table subassembly along the second direction, and stop lever 206 sets up just to belt subassembly 202. Further, the glass is prevented from being moved in the second direction by the stop lever 206.
Further, as a preferred embodiment, the interchange member 3 includes: the four-bar linkage mechanism comprises a four-bar linkage assembly, a lifting motor 311, a crank 309 and a short pull rod 308, wherein the lifting motor 311 is fixedly arranged on a fixed roller way assembly, the output end of the lifting motor 311 is connected with the crank 309, the crank 309 is hinged with one end of the short pull rod 308, the other end of the short pull rod 308 is connected with the four-bar linkage assembly, and the four-bar linkage assembly is connected with the belt conveying part 2. Further, one end of the crank 309 is inserted into a hole of a hollow shaft of the lifting motor 311 in a shaft form and is locked by a corresponding locking disc, so that the crank 309 can be rotated in a 360 degree range under the driving of the lifting motor 311.
Further, as a preferred embodiment, the interchange moving component 3 corresponding to each belt conveying component 2 may enable a lifting motor 311 to be connected with two cranks 309 respectively, the two cranks 309 are connected with two short pull rods 308 correspondingly, the two short pull rods 308 are connected with two four-bar linkage assemblies respectively, a hollow shaft of the lifting motor 311 extends along the second direction, the two cranks 309 are connected with two ends of the hollow shaft respectively, the hollow shaft comprises a first shaft portion and a second shaft portion, the first shaft portion and the second shaft portion are connected through a universal coupling 312 and a connecting flange 313, and the two four-bar linkage assemblies are arranged at two ends along the second direction respectively so as to be connected with two ends of the bottom of the same belt conveying component 2.
Further, as a preferred embodiment, the lifting motor 311 is fixedly connected to the fixed roller assembly by a torque arm 310.
Further, as a preferred embodiment, the four-bar linkage assembly includes: the belt conveyor comprises a supporting part, a supporting frame 301, a first connecting rod 302, a first supporting component, a long pull rod 304, a second connecting rod 306 and a second supporting component, wherein the supporting frame 301 is connected with the belt conveying component 2, the first supporting component is installed at one end of the supporting frame 301, one end of the first connecting rod 302 is connected with the first supporting component, the first connecting rod 302 is hinged with the supporting part, the other end of the first connecting rod 302 is hinged with one end of the long pull rod 304, the other end of the long pull rod 304 is hinged with the second connecting rod 306, one end of the second connecting rod 306 is hinged with the other end of the short pull rod 308, the second connecting rod 306 is hinged with the supporting part, the second supporting component is installed at the other end of the supporting frame 301, and the other end of the second connecting rod 306 is connected with the second supporting component.
Further, as a preferred embodiment, the first link 302 is provided in an approximately inverted L-shaped structure, the long side end of the L-shaped structure is rotatably connected to the long tie rod 304, the short side end of the L-shaped structure is connected to the first support structure 205, and the corner position of the L-shaped structure is rotatably connected to the support portion.
Further, as a preferred embodiment, the second link 306 is arranged in a C-shaped structure, and the long pull rod 304, the short pull rod 308, the supporting portion, and the second supporting component are sequentially connected along the contour direction of the C-shaped structure.
Further, as a preferred embodiment, the supporting portion is disposed on the fixed roller assembly, and the first connecting rod 302 and the second connecting rod 306 are respectively connected to two ends of the supporting portion. Further, the support is preferably a rod-like structure with a fixed spatial position.
Further, as a preferred embodiment, a plurality of small brackets 305 are sequentially provided on the supporting frame 301 along the length direction, each small bracket 305 is provided along the vertical direction, and each small bracket 305 is connected to the belt conveying part 2.
Further, as a preferred embodiment, the first support assembly includes: the limiting frame is fixedly mounted on the supporting frame 301, a sliding space is formed in the limiting frame along the length direction of the supporting frame 301, the roller 303 is movably mounted in the sliding space, and the roller 303 is connected with the first connecting rod 302. Further, through the arrangement of the first supporting component, one end of the first connecting rod 302 can be moved and adjusted to a certain extent along the length direction of the sliding space in the working process of the whole four-connecting rod component, so that the blocking phenomenon of the belt conveying component 2 in the lifting process is effectively avoided.
Further, as a preferred embodiment, the second support assembly includes a fixed bearing housing 307. Further, the other end of the second link 306 is rotatably mounted on a fastening bearing housing 307, and the fastening bearing housing 307 is fixedly mounted on the support portion.
The foregoing is merely a preferred embodiment of the present utility model, and is not intended to limit the embodiments and the protection scope of the present utility model.
The present utility model has the following embodiments based on the above description:
in a further embodiment of the present utility model, further comprising: the control system 4, the fixed roller way assembly, the belt conveying component 2 and the interchange moving component 3 are all in communication connection with the control system 4.
In a further embodiment of the utility model, the control system 4 comprises: the controller 405, first sensing component 401, second sensing component 402, third sensing component 403 and fourth sensing component 404, first sensing component 401, second sensing component 402, third sensing component 403, fourth sensing component 404, fixed roller way subassembly, belt conveyor unit 2 and interchange motion unit 3 all with controller 405 communication connection, first sensing component 401 sets up in the one end of fixed roller way subassembly along the first direction, second sensing component 402 sets up in the middle part of fixed roller way subassembly, third sensing component 403 sets up in the other end of fixed roller way subassembly along the first direction, fourth sensing component 404 sets up in the one end of fixed roller way subassembly along the second direction.
In a further embodiment of the present utility model, the first sensing assembly 401, the second sensing assembly 402, the third sensing assembly 403, and the fourth sensing assembly 404 each comprise: two photoelectric sensors. Further, a photoelectric sensor is used to sense the entrance and exit of glass, so that the respective operations of the respective fixed roller table part 1, belt conveying part 2 and interchange moving part 3 are controlled by the controller 405.
In a further embodiment of the present utility model, the first sensing assembly 401, the second sensing assembly 402 and the third sensing assembly 403 each comprise two photosensors arranged in sequence along the second direction.
In a further embodiment of the utility model, a gap is provided between the two fixed roller way parts 1, where the second sensor assembly 402 is arranged.
In a further embodiment of the utility model, the first sensing assembly 401, the third sensing assembly 403 and the fourth sensing assembly 404 are horizontally spaced from the fixed roller way assembly.
In a further embodiment of the utility model, the first sensing assembly 401 is spaced apart from one end of the fixed roller assembly by 500mm in the horizontal direction. Further, the first sensor assembly 401 senses the glass in advance, so that the fixed roller way assembly is driven in advance at a certain speed to run at a schematic time.
In a further embodiment of the utility model, the fourth sensing assembly 404 comprises two photosensors arranged in sequence along the first direction, the two photosensors being arranged opposite to the central positions of the two belt conveying members 2.
The foregoing description is only illustrative of the preferred embodiments of the present utility model and is not to be construed as limiting the scope of the utility model, and it will be appreciated by those skilled in the art that equivalent substitutions and obvious variations may be made using the description and illustrations of the present utility model, and are intended to be included within the scope of the present utility model.

Claims (10)

1. The utility model provides a sheet glass combination formula interchange transplanting conveyor which characterized in that includes: the device comprises a fixed roller way assembly, two belt conveying components and two interchange moving components, wherein the conveying direction of the fixed roller way assembly is set along a first direction, the two belt conveying components are sequentially arranged on the fixed roller way assembly along the first direction, the conveying directions of the two belt conveying components are all set along a second direction, the first direction and the second direction are perpendicular, the two interchange moving components are respectively connected with the two belt conveying components, and the interchange moving components are used for driving the belt conveying components to be close to or far away from the fixed roller way assembly.
2. The sheet glass modular interchange transplanting conveyor device of claim 1, wherein said fixed roller assembly comprises: the two fixed roller way components are sequentially arranged along the first direction, each belt conveying component is opposite to one fixed roller way component, and the conveying directions of the two fixed roller way components are all along the first direction.
3. The sheet glass modular interchange transplanting conveyor device of claim 2, wherein said fixed roller way component comprises: the conveying device comprises a fixed frame, a first driving mechanism, a ground shaft, a bearing seat assembly and a conveying roller assembly, wherein the conveying roller assembly is installed on the bearing seat assembly, the bearing seat assembly is installed on the fixed frame, the ground shaft is installed on the fixed frame, the first driving mechanism is in transmission connection with the ground shaft, and the ground shaft is in transmission connection with the conveying roller assembly.
4. The sheet glass modular interchange transplanting conveyor device of claim 1, wherein said belt conveyor means comprises: the belt assembly is installed on the support frame, and the power shaft is in transmission connection with the belt assembly.
5. The sheet glass modular interchange transplanting conveyor of claim 1, wherein said interchange motion component comprises: four link assembly, elevator motor, crank and short pull rod, elevator motor fixed mounting in on the fixed roller way subassembly, elevator motor's output with the crank is connected, the crank with the one end of short pull rod is articulated, the other end of short pull rod with four link assembly is connected, four link assembly with belt conveyor part is connected.
6. The sheet glass modular interchange transplanting conveyor device of claim 5, wherein said four bar linkage assembly comprises: the belt conveyor comprises a supporting part, a supporting frame, a first connecting rod, a first supporting component, a long pull rod, a second connecting rod and a second supporting component, wherein the supporting frame is connected with the belt conveying component, one end of the supporting frame is provided with the first supporting component, one end of the first connecting rod is connected with the first supporting component, the first connecting rod is hinged to the supporting part, the other end of the first connecting rod is hinged to one end of the long pull rod, the other end of the long pull rod is hinged to the second connecting rod, one end of the second connecting rod is hinged to the other end of the short pull rod, the second connecting rod is hinged to the supporting part, and the second supporting component is arranged at the other end of the supporting frame, and the other end of the second connecting rod is connected with the second supporting component.
7. The sheet glass modular interchange transplanting conveyor device of claim 6, wherein said first support assembly comprises: the limiting frame is fixedly arranged on the supporting frame, a sliding space is formed in the limiting frame along the length direction of the supporting frame, the roller is movably arranged in the sliding space, and the roller is connected with the first connecting rod.
8. The sheet glass modular interchange transplanting conveyor of claim 1, further comprising: and the fixed roller way assembly, the belt conveying component and the interchange moving component are all in communication connection with the control system.
9. The sheet glass modular interchange transplanting conveyor device of claim 8, wherein said control system comprises: the device comprises a controller, a first sensing assembly, a second sensing assembly, a third sensing assembly and a fourth sensing assembly, wherein the first sensing assembly, the second sensing assembly, the third sensing assembly, the fourth sensing assembly, the fixed roller way assembly, the belt conveying component and the interchange moving component are all in communication connection with the controller, the first sensing assembly is arranged at one end of the fixed roller way assembly along the first direction, the second sensing assembly is arranged at the middle of the fixed roller way assembly, the third sensing assembly is arranged at the other end of the fixed roller way assembly along the first direction, and the fourth sensing assembly is arranged at one end of the fixed roller way assembly along the second direction.
10. The sheet glass modular interchange transplanting conveyor device of claim 9, wherein the first, second, third and fourth sensing assemblies each comprise: two photoelectric sensors.
CN202223378108.3U 2022-12-15 2022-12-15 Conveying device is transplanted to combined interchange of sheet glass Active CN219546101U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202223378108.3U CN219546101U (en) 2022-12-15 2022-12-15 Conveying device is transplanted to combined interchange of sheet glass

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202223378108.3U CN219546101U (en) 2022-12-15 2022-12-15 Conveying device is transplanted to combined interchange of sheet glass

Publications (1)

Publication Number Publication Date
CN219546101U true CN219546101U (en) 2023-08-18

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Application Number Title Priority Date Filing Date
CN202223378108.3U Active CN219546101U (en) 2022-12-15 2022-12-15 Conveying device is transplanted to combined interchange of sheet glass

Country Status (1)

Country Link
CN (1) CN219546101U (en)

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