CN217296181U - Core plate gauge edge centering mechanism - Google Patents

Core plate gauge edge centering mechanism Download PDF

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Publication number
CN217296181U
CN217296181U CN202221271029.XU CN202221271029U CN217296181U CN 217296181 U CN217296181 U CN 217296181U CN 202221271029 U CN202221271029 U CN 202221271029U CN 217296181 U CN217296181 U CN 217296181U
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China
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edge
transmission rack
centering unit
regulating
core plate
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CN202221271029.XU
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Chinese (zh)
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赵雄飞
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Guangdong Huashunpeng Machinery Co ltd
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Guangdong Huashunpeng Machinery Co ltd
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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
    • Y02P70/00Climate change mitigation technologies in the production process for final industrial or consumer products
    • Y02P70/50Manufacturing or production processes characterised by the final manufactured product

Abstract

The utility model provides a core plate edge-rule centering mechanism, which comprises an edge-rule centering unit I, a first edge-rule piece and a second edge-rule piece; the first edge-regulating centering unit comprises a mounting seat, a driving device, a first transmission rack, a second transmission rack and a synchronous gear; the first edge regulating piece is connected with the first transmission rack, and the second edge regulating piece is connected with the second transmission rack; the synchronous gear is arranged on the mounting seat and is respectively meshed and connected with the first transmission rack and the second transmission rack; the driving device is arranged on the mounting seat and connected with the first transmission rack, so that the first transmission rack is driven to move, the second transmission rack and the first transmission rack are driven to synchronously move in the opposite direction through the synchronous gear, and the first edge gauge piece and the second edge gauge piece synchronously move in the opposite direction. The utility model discloses core board rule limit centering mechanism can arrange the rule limit and realize the centering of core on the transfer chain fast, effectively to the core to improve the efficiency and the regularity of core output.

Description

Core plate gauge edge centering mechanism
Technical Field
The utility model relates to a core processing technology field, more specifically say, relate to a core rule limit centering mechanism.
Background
The core board is a common product in current building materials, has good heat preservation and fire resistance, and is particularly suitable for temporary facilities of building sites, such as offices, warehouses, enclosing walls and the like.
After the core board is produced and processed, the core board needs to be output and stacked, namely scattered plates are stacked together, so that the subsequent drying process of the core board is facilitated. In the current core pile up neatly process, every layer of core of pile up neatly is exported through the transfer chain, however, still need the manual work to operate the arrangement of the core after the output, not only greatly increased intensity of labour, moreover, manual operation's efficiency can not keep up with the speed that the core was carried to the transfer chain far away, leads to work efficiency low. In addition, the regularity of each layer of core boards after arrangement cannot be guaranteed by a manual operation mode, so that the drying effect of the subsequent core boards is influenced.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to overcome shortcoming and not enough among the prior art, provide a core rule limit centering mechanism, this core rule limit centering mechanism can be fast, effectively arrange the rule and realize the centering of core on the transfer chain to improve the efficiency and the regularity of core output.
In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the utility model provides a core plate rule centering mechanism which characterized in that: erecting the core plate on a core plate conveying line; the core plate edge-regulating centering mechanism comprises an edge-regulating centering unit I, a first edge-regulating part and a second edge-regulating part; the first gauge edge centering unit comprises a mounting seat, a driving device, a first transmission rack, a second transmission rack and a synchronous gear; the first edge regulating piece is connected with the first transmission rack, and the second edge regulating piece is connected with the second transmission rack; the synchronous gear is arranged on the mounting seat and is respectively meshed and connected with the first transmission rack and the second transmission rack; the driving device is arranged on the mounting seat and connected with the first transmission rack, so that the first transmission rack is driven to move, the second transmission rack and the first transmission rack are driven to synchronously move in the opposite direction through the synchronous gear, and the first edge gauge piece and the second edge gauge piece synchronously move in the opposite direction.
In the technical solution, the utility model discloses a core rule limit centering mechanism adopts the drive mode of a drive arrangement and rack and gear to realize that first rule limit spare and second rule limit spare move in step in opposite directions, then realizes quick, effectively arranges the rule limit to the core. In addition, the first edge regulating piece and the second edge regulating piece synchronously move in opposite directions, so that the core plate can be centered on the core plate conveying line, and the core plate output efficiency and regularity are improved.
The first edge-regulating centering unit further comprises a first guide assembly for guiding the movement of the first transmission rack and a second guide assembly for guiding the movement of the second transmission rack; the first guide assembly and the second guide assembly respectively comprise a guide rail and a guide seat; the guide rail is arranged on the mounting seat, and the first transmission rack is movably connected with the guide rail through the guide seat; the second transmission rack is movably connected with the guide rail through the guide seat.
The first gauge edge centering unit further comprises a limiting guide assembly; the limiting guide assemblies are arranged on the mounting seat and are respectively positioned on two sides of the synchronous gear.
And the spacing guide assembly and the synchronous gear are respectively used as moving channels of the first transmission rack and the second transmission rack. First driving rack and second driving rack are by spacing guide component and synchronous gear looks centre gripping removal, can improve the stability of removing.
The limiting guide assembly comprises a limiting guide roller and a limiting guide shaft; the limiting guide shaft is arranged on the mounting seat, and the limiting guide roller is rotatably connected to the limiting guide shaft.
The mounting base is provided with a limiting groove for limiting the moving range of the first rule edge piece or the second rule edge piece; the first edge gauge piece penetrates through the limiting groove and is connected with the first transmission rack; and the second gauge part penetrates through the limiting groove to be connected with the second transmission rack.
The core plate edge-regulating centering mechanism also comprises an edge-regulating centering unit II and a synchronous shaft assembly; the structure of the second edge regulation centering unit is the same as that of the first edge regulation centering unit; the end part of the first edge regulating piece, far away from the first edge regulating centering unit, is connected with a first transmission rack of a second edge regulating centering unit, and the end part of the second edge regulating piece, far away from the first edge regulating centering unit, is connected with a second transmission rack of the second edge regulating centering unit; and two ends of the synchronous shaft assembly are respectively connected with the first edge gauge centering unit and the second edge gauge centering unit, so that the first edge gauge piece and the second edge gauge piece are kept parallel to the conveying direction of the core plate in the moving process.
The utility model discloses when being directed at first rule limit spare and second rule limit spare length longer, can set up the rule limit centering unit two the same with rule limit centering unit one structure to realize that first rule limit spare and second rule limit spare stably remove. And the synchronizing shaft subassembly can make the both ends of first rule limit spare and the both ends synchronous motion of second rule limit spare, can effectively guarantee that first rule limit spare and second rule limit spare keep parallel with core board direction of delivery at the removal in-process, effectively improve the effect of centering to the core board rule limit.
The synchronous shaft assembly comprises a synchronous shaft, and a bearing seat and a transmission module which are respectively arranged in the first gauge edge centering unit and the second gauge edge centering unit; the bearing seat and the first transmission rack move synchronously, and two ends of the synchronizing shaft penetrate through the bearing seat respectively and rotate through the transmission module.
The transmission module comprises a transmission gear and a transmission rack; the transmission gears are respectively connected with two ends of the synchronous shaft; and the transmission racks are respectively arranged on the mounting plates of the first gauge edge centering unit and the second gauge edge centering unit and are meshed and connected with the transmission gear.
The utility model discloses core board rule limit centering mechanism is like this work:
1. when only one edge gauge centering unit is arranged, the driving device on the edge gauge centering unit I drives the first transmission rack to move, and drives the second transmission rack and the first transmission rack to synchronously move in the opposite direction through the synchronous gear, so that the first edge gauge piece and the second edge gauge piece synchronously move in opposite directions, and synchronous edge gauge arrangement on two side edges of the core plate is realized. Because the first edge regulating piece and the second edge regulating piece synchronously move in opposite directions, the core plate can be centered on the core plate conveying line.
2. When the first edge regulating centering unit and the second edge regulating centering unit are arranged, the driving devices on the first edge regulating centering unit and the second edge regulating centering unit synchronously drive the first transmission rack to move, and drive the second transmission rack and the first transmission rack to synchronously move in the opposite direction through the synchronous gear, so that the first edge regulating piece and the second edge regulating piece on the first edge regulating centering unit and the second edge regulating centering unit synchronously move in the opposite direction. In addition, the synchronous shaft assembly can enable the two end parts of the first edge regulating piece and the two end parts of the second edge regulating piece to synchronously move, so that the first edge regulating piece and the second edge regulating piece can be effectively guaranteed to be parallel to the conveying direction of the core plate in the moving process, and the core plate can be centered on the core plate conveying line.
Compared with the prior art, the utility model has the advantages of as follows and beneficial effect: the utility model discloses core board rule limit centering mechanism can arrange the rule limit in order and realize the centering of core on the transfer chain fast, effectively to the core to improve the efficiency and the regularity of core output.
Drawings
FIG. 1 is a schematic view of a core edge centering mechanism according to an embodiment;
FIG. 2 is a schematic diagram of a first edge centering unit or a second edge centering unit in the first embodiment;
the device comprises a first edge centering unit 1, a first edge piece 2, a second edge piece 3, a second edge centering unit 4, a synchronizing shaft assembly 5, a mounting seat 6, a driving cylinder 7, a first transmission rack 8, a second transmission rack 9, a synchronizing gear 10, a guide rail 11, a guide seat 12, a limiting guide assembly 13, a limiting groove 14, a synchronizing shaft 15, a bearing seat 16, a transmission module 17 and a core plate conveying line 18.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
Example one
As shown in fig. 1 and 2, the core plate edge-sizing centering mechanism of the present invention is mounted on a core plate conveyor line 18; the core plate edge regulation centering mechanism comprises an edge regulation centering unit I1, a first edge regulation piece 2, a second edge regulation piece 3, an edge regulation centering unit II 4 and a synchronous shaft assembly 5, wherein the structure of the edge regulation centering unit II 4 is the same as that of the edge regulation centering unit I1, the edge regulation centering unit I1 and the edge regulation centering unit II 4 respectively comprise a mounting seat 6, a driving air cylinder 7, a first driving rack 8, a second driving rack 9 and a synchronous gear 10, two ends of the first edge regulation piece 2 are respectively connected with the edge regulation centering unit I1 and the first driving rack 8 of the edge regulation centering unit II 4, the second edge regulation piece 3 is respectively connected with the edge regulation centering unit I1 and the second driving rack 9 of the edge regulation centering unit II 4, the synchronous gear 10 is arranged on the mounting seat 6 and respectively meshed with the first driving rack 8 and the second driving rack 9, the driving air cylinder 7 is arranged on the mounting seat 6 and connected with the first driving rack 8, the first transmission rack 8 is driven to move, the second transmission rack 9 and the first transmission rack 8 are driven to synchronously move in the opposite direction through the synchronous gear 10, and the first edge regulating part 2 and the second edge regulating part 3 synchronously move in the opposite direction. Two ends of the synchronizing shaft assembly 5 are respectively connected with the first edge-regulating centering unit 1 and the second edge-regulating centering unit 4, so that the first edge-regulating part 2 and the second edge-regulating part 3 are kept parallel to the conveying direction of the core plate in the moving process.
Specifically, the first gauge edge centering unit 1 and the second gauge edge centering unit 4 of the present invention further include a first guiding assembly for guiding the movement of the first transmission rack 8 and a second guiding assembly for guiding the movement of the second transmission rack 9, the first guiding assembly and the second guiding assembly each include a guide rail 11 and a guide base 12, the guide rail 11 is disposed on the mounting base 6, and the first transmission rack 8 is movably connected with the guide rail 11 through the guide base 12; the second transmission rack 9 is movably connected with the guide rail 11 through a guide seat 12.
In order to further improve the stability that first drive rack 8 and second drive rack 9 removed, the utility model discloses a rule limit centering unit 1 still includes spacing direction subassembly 13 with rule limit centering unit two 4, and this spacing direction subassembly 13 sets up on mount pad 6 and is located synchronous gear 10's both sides respectively. This spacing direction subassembly 13 includes spacing direction gyro wheel and spacing guiding axle, and spacing guiding axle sets up on mount pad 6, and spacing direction gyro wheel rotates to be connected on spacing guiding axle. And the spacing guide assembly 13 and the synchronizing gear 10 are respectively used as moving channels of the first transmission rack 8 and the second transmission rack 9. The first transmission rack 8 and the second transmission rack 9 are clamped by the limit guide assembly 13 and the synchronous gear 10 to move, so that the moving stability can be improved.
Limiting grooves 14 used for limiting the moving range of the first rule piece 2 or the second rule piece 3 are formed in the mounting seats 6 of the first rule centering unit 1 and the second rule centering unit 4, the first rule piece 2 penetrates through the limiting grooves 14 to be connected with the first transmission rack 8, and the second rule piece 2 penetrates through the limiting grooves 14 to be connected with the second transmission rack 9.
The utility model discloses a synchronizing shaft subassembly includes synchronizing shaft 15 and sets up bearing frame 16 and transmission module 17 in rule centering unit 1 and rule centering unit two 4 respectively, and wherein, bearing frame 16 sets up on the guide holder 12 of rule centering unit 1 and rule centering unit two 4, with 8 synchronous motion of first drive rack, and the both ends of synchronizing shaft 15 are worn to establish respectively on bearing frame 16 and are rotated through transmission module 17. The transmission module 17 comprises a transmission gear and a transmission rack, the transmission gear is respectively connected with two ends of the synchronizing shaft 15, and the transmission rack is respectively arranged on the mounting plates 6 of the first gauge edge centering unit 1 and the second gauge edge centering unit 4 and is meshed and connected with the transmission gear.
The utility model discloses core board rule limit centering mechanism is like this work: the driving cylinders 7 on the first regular edge centering unit 1 and the second regular edge centering unit 4 synchronously drive the first transmission rack 8 to move, and the second transmission rack 9 and the first transmission rack 8 are driven by the synchronous gear 10 to synchronously move in the opposite direction, so that the first regular edge part 2 and the second regular edge part 3 on the first regular edge centering unit 1 and the second regular edge centering unit 4 synchronously move in the opposite direction. In addition, the synchronous shaft assembly can enable the two end parts of the first edge regulating piece 2 and the two end parts of the second edge regulating piece 3 to synchronously move, so that the first edge regulating piece 2 and the second edge regulating piece 3 can be effectively guaranteed to be parallel to the conveying direction of the core plate in the moving process, and the core plate can be centered on the core plate conveying line 18.
Example two
The present embodiment is different from the first embodiment only in that: in the embodiment, only the first gauge edge centering unit is arranged, and the second gauge edge centering unit and the synchronous shaft assembly are not arranged. The structure of the first regular edge centering unit in this embodiment is consistent with that of the embodiment. The solution of this embodiment can be used when the required length of the first and second edge gauges is relatively short.
The core plate edge-rule centering mechanism of the embodiment works as follows:
and a driving cylinder on the first edge-regulating centering unit drives a first transmission rack to move, and drives a second transmission rack and the first transmission rack to synchronously move in the opposite direction through a synchronous gear, so that the first edge-regulating piece and the second edge-regulating piece synchronously move in opposite directions, and synchronous edge regulation of two side edges of the core plate is realized. Because the first edge regulating piece and the second edge regulating piece synchronously move in opposite directions, the core plate can be centered on the core plate conveying line.
Other structures of the present embodiment are consistent with the present embodiment.
The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (9)

1. The utility model provides a core plate rule centering mechanism which characterized in that: erecting the core plate on a core plate conveying line; the core plate edge-regulating centering mechanism comprises an edge-regulating centering unit I, a first edge-regulating part and a second edge-regulating part; the first gauge edge centering unit comprises a mounting seat, a driving device, a first transmission rack, a second transmission rack and a synchronous gear; the first edge regulating piece is connected with the first transmission rack, and the second edge regulating piece is connected with the second transmission rack; the synchronous gear is arranged on the mounting seat and is respectively meshed and connected with the first transmission rack and the second transmission rack; the driving device is arranged on the mounting seat and connected with the first transmission rack, so that the first transmission rack is driven to move, the second transmission rack and the first transmission rack are driven to synchronously move in the opposite direction through the synchronous gear, and the first edge gauge piece and the second edge gauge piece synchronously move in the opposite direction.
2. The core plate rule edge centering mechanism of claim 1, characterized by: the first edge-regulating centering unit further comprises a first guide assembly for guiding the movement of the first transmission rack and a second guide assembly for guiding the movement of the second transmission rack; the first guide assembly and the second guide assembly respectively comprise a guide rail and a guide seat; the guide rail is arranged on the mounting seat, and the first transmission rack is movably connected with the guide rail through the guide seat; the second transmission rack is movably connected with the guide rail through the guide seat.
3. The core plate rule edge centering mechanism of claim 1, characterized by: the first gauge edge centering unit further comprises a limiting guide assembly; the limiting guide assemblies are arranged on the mounting seat and are respectively positioned on two sides of the synchronous gear.
4. The core plate edge gauging mechanism according to claim 3, wherein: and the spacing guide assembly and the synchronous gear are respectively used as moving channels of the first transmission rack and the second transmission rack.
5. The core plate edge gauging mechanism according to claim 3, wherein: the limiting guide assembly comprises a limiting guide roller and a limiting guide shaft; the limiting guide shaft is arranged on the mounting seat, and the limiting guide roller is rotatably connected to the limiting guide shaft.
6. The core plate rule edge centering mechanism of claim 1, characterized by: the mounting base is provided with a limiting groove for limiting the moving range of the first rule edge piece or the second rule edge piece; the first rule piece penetrates through the limiting groove and is connected with the first transmission rack; and the second gauge part penetrates through the limiting groove to be connected with the second transmission rack.
7. The core plate rule centering mechanism of any one of claims 1 to 6, characterized by: the core plate edge-regulating centering mechanism also comprises an edge-regulating centering unit II and a synchronous shaft assembly; the structure of the second edge regulation centering unit is the same as that of the first edge regulation centering unit; the end part of the first edge regulating piece, far away from the first edge regulating centering unit, is connected with a first transmission rack of a second edge regulating centering unit, and the end part of the second edge regulating piece, far away from the first edge regulating centering unit, is connected with a second transmission rack of the second edge regulating centering unit; and two ends of the synchronous shaft assembly are respectively connected with the first edge gauge centering unit and the second edge gauge centering unit, so that the first edge gauge piece and the second edge gauge piece are kept parallel to the conveying direction of the core plate in the moving process.
8. The core plate edge gauging mechanism according to claim 7, wherein: the synchronous shaft assembly comprises a synchronous shaft, and a bearing seat and a transmission module which are respectively arranged in the first rule edge centering unit and the second rule edge centering unit; the bearing seat and the first transmission rack move synchronously, and two ends of the synchronizing shaft penetrate through the bearing seat respectively and rotate through the transmission module.
9. The core plate rule edge centering mechanism of claim 8, characterized in that: the transmission module comprises a transmission gear and a transmission rack; the transmission gears are respectively connected with two ends of the synchronous shaft; and the transmission racks are respectively arranged on the mounting plates of the first gauge edge centering unit and the second gauge edge centering unit and are meshed and connected with the transmission gear.
CN202221271029.XU 2022-05-25 2022-05-25 Core plate gauge edge centering mechanism Active CN217296181U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202221271029.XU CN217296181U (en) 2022-05-25 2022-05-25 Core plate gauge edge centering mechanism

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202221271029.XU CN217296181U (en) 2022-05-25 2022-05-25 Core plate gauge edge centering mechanism

Publications (1)

Publication Number Publication Date
CN217296181U true CN217296181U (en) 2022-08-26

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Application Number Title Priority Date Filing Date
CN202221271029.XU Active CN217296181U (en) 2022-05-25 2022-05-25 Core plate gauge edge centering mechanism

Country Status (1)

Country Link
CN (1) CN217296181U (en)

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