CN220843974U - Cross-regional line production device and cross-regional line production system - Google Patents
Cross-regional line production device and cross-regional line production system Download PDFInfo
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- CN220843974U CN220843974U CN202321283492.0U CN202321283492U CN220843974U CN 220843974 U CN220843974 U CN 220843974U CN 202321283492 U CN202321283492 U CN 202321283492U CN 220843974 U CN220843974 U CN 220843974U
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- 238000004364 calculation method Methods 0.000 claims description 5
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Abstract
The utility model provides a cross-regional line production device and a cross-regional line production system, wherein the cross-regional line production device comprises: a first lifting device; a second lifting device; and the conveying platform is opposite to the first discharging hole and the second feeding hole, the length of the conveying platform is more than or equal to 3m, and the height of the conveying platform is more than or equal to 4.5m or is below the ground level. By applying the technical scheme of the utility model, the problems of high time cost, high manpower and material resource cost of a cross-region connection production system in the prior art can be effectively solved.
Description
Technical Field
The utility model relates to the field of transmission equipment, in particular to a trans-regional line production device and a trans-regional line production system.
Background
At present, automation equipment in the large-scale production manufacturing industry is huge in floor space requirement, the relation between a machine table and a manufacturing process is staggered and vertically and horizontally complex, and the defect that the whole production line of a factory is broken due to insufficient floor space planning often occurs, so that manpower and material resources are required to operate and convey to ensure the operation of the whole production manufacturing workshop.
In order to solve the above problems, it is common practice to: the manufacturing production department belongs to each area and is responsible for corresponding engineering department special personnel, so that a special transportation access is manufactured, and the normal transportation of the produced products is ensured. The method has quite passivity, is basically transmitted in a workshop at a short distance, also affects other departments and normal running of vehicles, increases unstable factors influenced by personnel for the whole production line, and also increases time cost, labor cost and material cost.
Disclosure of utility model
The utility model mainly aims to provide a cross-regional line production device and a cross-regional line production system, which are used for solving the problems of high time cost and high manpower and material resource cost of the cross-regional line production system in the prior art.
In order to achieve the above object, according to one aspect of the present utility model, there is provided a trans-regional wiring production apparatus comprising: a first lifting device; a second lifting device; the conveying platform is connected between the two first lifting devices and the second lifting device, is opposite to the discharging position of the first lifting device and the feeding position of the second lifting device respectively, and has a length of 3m or more and a height of 4.5m or more or less than the ground level.
In one embodiment, the transport platform is a roller conveyor or a belt conveyor.
In one embodiment, the first lifting device and the second lifting device are provided with photosensitive sensors.
In one embodiment, the first lifting device comprises a first lifting platform and the second lifting device comprises a second lifting platform; or the first lifting device and the second lifting device comprise obliquely arranged conveyor belts.
In one embodiment, the first lifting device comprises a first substrate with a containing space and a first lifting platform arranged in the containing space, wherein a first feeding hole is formed in the bottom or the top of the side wall of the first substrate, a first discharging hole is formed in the top or the bottom of the side wall of the first substrate, and the first lifting platform can move between the first feeding hole and the first discharging hole; the second lifting device comprises a second base body with an accommodating space and a second lifting platform arranged in the accommodating space, a second feeding hole is formed in the top or bottom of the side wall of the second base body, a second discharging hole is formed in the bottom or top of the side wall of the second base body, and the second lifting platform can move between the second feeding hole and the second discharging hole.
In one embodiment, the cross-regional wiring production apparatus further comprises: the first rotary transmission mechanism comprises a first rotary platform, a third feeding hole and a third discharging hole, wherein the third feeding hole and the third discharging hole are arranged on two sides of the first rotary platform, and the third discharging hole is opposite to the first feeding hole; and/or the second rotary transmission mechanism comprises a second rotary platform, a fourth feeding hole and a fourth discharging hole, wherein the fourth feeding hole and the fourth discharging hole are arranged on two sides of the second rotary platform, and the fourth feeding hole is opposite to the second discharging hole.
In one embodiment, the first and second rotation transmission mechanisms are both rotation devices, the rotation devices comprising: the first substrate is provided with an accommodating space, two adjacent side walls of the first substrate are respectively provided with an inlet and an outlet, the inlet is a first feeding port and a second feeding port, and the outlet is a first discharging port and a second discharging port; the rotating frame is arranged in the accommodating space of the third base body and can horizontally rotate, the rotating frame comprises a frame body and a plurality of rollers which are arranged on the frame body at intervals in the normal direction of the inlet, the extending direction of the rollers is perpendicular to the normal direction, a plurality of rollers are arranged on each roller at intervals, the tops of the rollers are positioned in the same horizontal plane, and the horizontal plane forms a first rotating platform and a second rotating platform; and the rotating motor drives the frame body to rotate.
In one embodiment, the first lifting platform is composed of a plurality of first bearing rods which are arranged at intervals, and the first bearing rods extend along the horizontal direction; and/or the second lifting platform is composed of a plurality of second bearing rods which are arranged at intervals, and the second bearing rods extend along the horizontal direction.
According to another aspect of the present utility model, there is provided a trans-regional wiring production system, comprising: the cross-region line production device is the cross-region line production device; and the control device is electrically connected with the first lifting device, the second lifting device and the conveying platform of the cross-region connecting line production device.
In one embodiment, the cross-regional line production apparatus is plural, and the control apparatus includes: the control panel and with the input module, the calculation module and the output module of control panel electricity connection.
By applying the technical scheme of the utility model, a first lifting device is arranged in a factory building B, a second lifting device is arranged in a factory building A, and a conveying platform is arranged between the first lifting device and the second lifting device. When transporting the product, the product in the factory building B rises or descends to the discharging position through the first lifting device, then is sent to the conveying platform, then is conveyed to the feeding position of the second lifting device through the conveying platform, and finally descends or ascends to the discharging position through the second lifting device. The structure enables products in the factory building B to be transported into the factory building A on one hand, so that even if the production line is distributed in a plurality of factory buildings, the products can be transported normally; on the other hand, the length of the conveying platform is more than or equal to 3m, so that the products can be normally transported even if the distance between two workshops is long; in the last aspect, the height of the conveying platform is more than or equal to 4.5m or lower than the ground level, so that the conveying platform does not occupy the ground space, normal walking of workers and normal running of vehicles are ensured, and time cost and labor and material cost are reduced.
In addition to the objects, features and advantages described above, the present utility model has other objects, features and advantages. The present utility model will be described in further detail with reference to the drawings.
Drawings
The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. In the drawings:
fig. 1 is a schematic perspective view showing a first embodiment of a cross-regional wiring production apparatus according to the present utility model;
FIG. 2 is a schematic perspective view showing a first lifting device of the cross-regional wiring production device of FIG. 1;
FIG. 3 is a schematic perspective view showing a second lifting device of the cross-regional wiring production device of FIG. 1;
FIG. 4 is a schematic perspective view of a first rotary transport mechanism of the cross-regional link production apparatus of FIG. 1; and
Fig. 5 is a schematic perspective view showing a second rotary transfer mechanism of the cross-regional wiring production apparatus of fig. 1.
Wherein the above figures include the following reference numerals:
1. A third substrate; 2. an inlet; 3. an outlet; 4. a rotating frame; 5. a frame body; 6. a roller; 7. a roller; 8. a rotary motor; 10. a first lifting device; 11. a first substrate; 12. a first lifting platform; 14. a first discharge port; 15. a first driving device; 151. a first driving motor; 152. a first screw rod; 153. a first gear; 154. a first synchronization belt; 155. a first carrier bar; 156. a second gear; 20. a second lifting device; 21. a second substrate; 22. a second lifting platform; 23. a second feed inlet; 25. a second driving device; 251. a second driving motor; 252. a second screw rod; 253. a third gear; 254. a second timing belt; 255. a second carrier bar; 256. a fourth gear; 30. a conveying platform; 40. a first rotation transmission mechanism; 50. a second rotation transmission mechanism.
Detailed Description
It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other. The utility model will be described in detail below with reference to the drawings in connection with embodiments.
In order that those skilled in the art will better understand the present utility model, a technical solution in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.
It should be noted that the terms "first," "second," and the like in the description and the claims of the present utility model and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the terms so used are interchangeable under appropriate circumstances such that the embodiments of the utility model described herein are, for example, capable of operation in other environments. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.
It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present application. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.
As shown in fig. 1 to 3, in a first embodiment, a cross-region wiring production apparatus includes: a first lifting device 10, a second lifting device 20 and a conveying platform 30. The conveying platform 30 is connected between the two first lifting devices 10 and the second lifting device 20, and is opposite to the first discharge hole 14 and the second feed hole 23, the length of the conveying platform 30 is greater than or equal to 3m, and the height of the conveying platform 30 is greater than or equal to 4.5m.
According to the first embodiment, a first lifting device 10 is arranged in a factory building B, a second lifting device 20 is arranged in a factory building A, and a conveying platform 30 is arranged between the first lifting device 10 and the second lifting device 20. When transporting the product C, the product in the factory building B firstly rises to the discharge port position through the first lifting device 10, then is sent into the conveying platform 30, then is conveyed to the feed port position of the second lifting device 20 through the conveying platform 30, and finally falls to the discharge position through the second lifting device 20. The structure enables products in the factory building B to be transported into the factory building A, so that an automatic production line between factory areas is effectively bridged by mechanical transmission bridge equipment, the production line is not disconnected by a whole process automatic production line due to the land area, and the integrity and continuity of the automatic production line are ensured; on the other hand, since the length of the conveying platform 30 is 3m or more, the product can be normally transported even if the distance between two plants is long; on the last hand, since the height of the conveying platform 30 is greater than or equal to 4.5m, there is enough space under the conveying platform 30 to ensure the normal walking of the staff and the normal running of the vehicle, thereby reducing the time cost and the cost of manpower and material resources.
In the present embodiment, the conveying platform 30 is a roller type conveying mechanism or a belt type conveying mechanism. The structure is simple and the cost is low. Further, even if transported over a long distance, the roller conveyor or belt conveyor can reliably transport the product to the next plant.
In the present embodiment, photosensitive sensors are disposed on both the first lifting device 10 and the second lifting device 20. Specifically, when the first lifting device 10 and the second lifting device 20 rise or fall to a predetermined height, the photosensor can send out an in-place signal, and the control device can control the first lifting device 10 and the second lifting device 20 to stop lifting accordingly. The photosensitive sensor with the structure can reach a non-manual mode by being matched with a PLC signal, and achieves a full-automatic transportation process, so that the labor intensity of workers can be reduced, and meanwhile, the production efficiency is improved.
The first lifting device 10 comprises a first lifting platform 12 and the second lifting device 20 comprises a second lifting platform 22. The lifting device is simple in structure and small in occupied space. In addition, it should be noted that the lifting device may be configured as a conveyor belt that is disposed obliquely according to the shape and size of the material to be transported.
In the present embodiment, the first lifting platform 12 is formed by a plurality of first carrying bars 155 arranged at intervals, and the first carrying bars 155 extend in the horizontal direction. The second lifting platform 22 is composed of a plurality of second carrying bars 255 arranged at intervals, and the second carrying bars 255 extend in the horizontal direction. The structure is simple, and the material is convenient to move. Of course, in other embodiments not shown in the figures, the lifting platform may be a flat plate structure.
As shown in fig. 2 and 3, in the present embodiment, the first elevating platform 12 is a plurality of elevating platforms arranged at intervals in the up-down direction, and the second elevating platform 22 is a plurality of elevating platforms arranged at intervals in the up-down direction. Specifically, the above structure enables the first elevating device 10 to carry a plurality of products, thereby improving product transportation efficiency. Preferably, in the present embodiment, there are at least 15 first lift platforms 12 and second lift platforms 22.
In this embodiment, the first lifting device 10 includes a first base 11 having a receiving space and a first lifting platform 12 disposed in the receiving space, a first feeding port is disposed at a bottom of a sidewall of the first base 11, a first discharging port 14 is disposed at a top of a sidewall of the first base 11, and the first lifting platform 12 is movable between the first feeding port and the first discharging port 14.
As shown in fig. 2, in the present embodiment, a plurality of first driving devices 15 are disposed at the bottom in the first base 11, the first driving devices 15 include a first driving motor 151 and two first lead screws 152 that are located at two sides of the first driving motor 151 and are synchronously driven to rotate by the first driving motor 151, the ends of the two first lead screws 152 are each provided with a first gear 153, the top of the first base 11 is provided with a second gear 156 opposite to the first gear 153, a first synchronous belt 154 is sleeved between the first gear 153 and the second gear 156, a plurality of horizontal first carrier bars 155 are disposed between the two first synchronous belts 154 at intervals in the up-down direction, the first driving motor 151 drives the plurality of first carrier bars 155 to move up or down horizontally, the first lead screws 152 of the respective first driving devices 15 are all disposed in parallel, and the first carrier bars 155 of the same height of the respective first driving devices 15 form the first lifting platform 12. The structure is simple and the reliability is high.
In this embodiment, the second lifting device 20 includes a second base 21 having a receiving space and a second lifting platform 22 disposed in the receiving space, a second feeding port 23 is disposed at the top of a sidewall of the second base 21, a second discharging port is disposed at the bottom of the sidewall of the second base 21, and the second lifting platform 22 is movable between the second feeding port 23 and the second discharging port.
As shown in fig. 3, in the present embodiment, a plurality of second driving devices 25 are horizontally arranged at the bottom in the second base 21, the second driving devices 25 include a second driving motor 251 and two second lead screws 252 that are located at two sides of the second driving motor 251 and are synchronously driven to rotate by the second driving motor 251, the ends of the two second lead screws 252 are each provided with a third gear 253, the top of the second base 21 is provided with a fourth gear 256 opposite to the third gear 253, a second synchronous belt 254 is sleeved between the third gear 253 and the fourth gear 256, a plurality of horizontal second bearing rods 255 are arranged between the two second synchronous belts 254 at intervals in the up-down direction, the second driving motor 251 drives the plurality of second bearing rods 255 to move up or down horizontally, the second lead screws 252 of the second driving devices 25 are all arranged in parallel, and the second bearing rods 255 of the same height of the second driving devices 25 form a second lifting platform 22.
As shown in fig. 4, in the present embodiment, the cross-regional wiring production apparatus further includes: the first rotary transmission mechanism 40, the first rotary transmission mechanism 40 includes a first rotary platform, a third feeding port and a third discharging port disposed on two sides of the first rotary platform, and the third discharging port is opposite to the first feeding port. Specifically, the product may be rotated by a predetermined angle through the first rotation transmission mechanism 40 before entering the first feed port to accommodate the sizes of the first elevating device 10, the second elevating device 20, and the conveying platform 30, thereby facilitating transportation.
As shown in fig. 5, in the present embodiment, the cross-regional wiring production apparatus further includes: the second rotary transmission mechanism 50, the second rotary transmission mechanism 50 includes a second rotary platform, a fourth feed inlet and a fourth discharge outlet which are arranged at two sides of the second rotary platform, and the fourth feed inlet is opposite to the second discharge outlet. The structure enables the product transported out from the second discharge port to rotate according to the angle required by the subsequent production line, and ensures the normal production of the subsequent product.
As shown in fig. 4 and 5, in the present embodiment, the first rotation transmission mechanism 40 and the second rotation transmission mechanism 50 are both rotation devices, and the rotation devices include: a third base 1, a turret 4 and a rotary motor 8. The third substrate 1 is provided with an accommodating space, two adjacent side walls of the third substrate 1 are respectively provided with an inlet 2 and an outlet 3, the inlet 2 is a third feeding port and a fourth feeding port, and the outlet 3 is a third discharging port and a fourth discharging port; the rotating frame 4 is arranged in the accommodating space of the third base body 1 and can horizontally rotate, the rotating frame 4 comprises a frame body 5 and a plurality of rollers 6 which are arranged on the frame body 5 at intervals in the normal direction of the inlet 2, the extending direction of the rollers 6 is perpendicular to the normal direction, a plurality of rollers 7 are arranged on each roller 6 at intervals, the tops of the rollers 7 are located in the same horizontal plane, and the horizontal plane forms a first rotary platform and a second rotary platform. The rotation motor 8 drives the frame body 5 to rotate. Specifically, when the product reaches the middle of the frame body 5 from the inlet 2 through the roller and the roller, the rotating motor 8 drives the frame body 5 to rotate by a preset angle, and then the product is output from the outlet 3 through the roller and the roller. The structure is simple, easy to realize and high in reliability. The rotation motor 8 may drive the frame body 5 to rotate 360 °.
The difference between the cross-regional line production device of the second embodiment and the cross-regional line production device of the first embodiment is only the arrangement positions of the first feed port, the first discharge port, the second feed port, the second discharge port and the conveying platform. Specifically, in the second embodiment, the first feeding port is disposed at the top of the side wall of the first substrate, the first discharging port is disposed at the bottom of the side wall of the first substrate, the second feeding port is disposed at the bottom of the side wall of the second substrate, and the second discharging port is disposed at the top of the side wall of the second substrate. The transport platform 30 is located below ground level. The structure ensures that the conveying platform 30 does not occupy the ground space, so that the normal walking of workers and the normal running of vehicles are ensured, and the time cost and the labor and material cost are reduced.
The application also provides a cross-regional wire production system, and the embodiment of the cross-regional wire production system comprises: and a cross-region wiring production device and a control device. The cross-regional line production device is the cross-regional line production device. The first lifting device 10, the second lifting device 20 and the conveying platform 30 of the cross-region line production device are electrically connected with the control device. The structure can realize automatic control, thereby effectively reducing manpower, material resources and financial resources.
After long-term research, the inventor finds that the production system in the prior art lacks quantitative analysis on the shared degree of the machine and the process and balance optimization on the integral planning of the productivity due to empirical judgment and estimation of the current capacity state based on a specific process or a small number of product combinations, and often encounters the same problems of process stacking and production line unbalance again when the production system is not transported in the later period. The conventional method lacks integrity, foresight and quantification, and cannot rapidly and effectively predict and intervene the problem of unbalanced production capacity caused by production line change.
In order to solve the above-described problem, in the present embodiment, a plurality of cross-regional wiring production apparatuses are provided, and the control apparatus includes: the control panel and with the input module, the calculation module and the output module of control panel electricity connection. Specifically, the input module, the calculation module and the output module are all electrically connected with the control board, the calculation module is used for calculating, simulating, optimizing and evaluating the integrated data to obtain a scheme for optimizing the productivity of the processing machine, and the output module is used for controlling a plurality of specific cross-region connecting line production devices. The structure can rapidly and effectively predict and intervene the problem of unbalanced productivity caused by the change of the production line.
The relative arrangement of the components and steps, numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present utility model unless it is specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective parts shown in the drawings are not drawn in actual scale for convenience of description. Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but should be considered part of the specification where appropriate. In all examples shown and discussed herein, any specific values should be construed as merely illustrative, and not a limitation. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further discussion thereof is necessary in subsequent figures.
Spatially relative terms, such as "above … …," "above … …," "upper surface on … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial location relative to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "above" or "over" other devices or structures would then be oriented "below" or "beneath" the other devices or structures. Thus, the exemplary term "above … …" may include both orientations "above … …" and "below … …". The device may also be positioned in other different ways (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.
In the description of the present utility model, it should be understood that the azimuth or positional relationships indicated by the azimuth terms such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal", and "top, bottom", etc., are generally based on the azimuth or positional relationships shown in the drawings, merely to facilitate description of the present utility model and simplify the description, and these azimuth terms do not indicate and imply that the apparatus or elements referred to must have a specific azimuth or be constructed and operated in a specific azimuth, and thus should not be construed as limiting the scope of protection of the present utility model; the orientation word "inner and outer" refers to inner and outer relative to the contour of the respective component itself.
The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.
Claims (9)
1. A trans-regional wiring production device, comprising:
a first lifting device (10);
A second lifting device (20);
The conveying platform (30) is connected between the two first lifting devices (10) and the second lifting devices (20), and is opposite to the discharging position of the first lifting devices (10) and the feeding position of the second lifting devices (20), the length of the conveying platform (30) is more than or equal to 3m, the height of the conveying platform (30) is more than or equal to 4.5m or is below the ground level, the first lifting devices (10) comprise a first base body (11) with an accommodating space and a first lifting platform (12) arranged in the accommodating space, a first feeding hole is formed in the bottom or the top of the side wall of the first base body (11), a first discharging hole (14) is formed in the top or the bottom of the side wall of the first base body (11), and the first lifting platform (12) can move between the first feeding hole and the first discharging hole (14); the second lifting device (20) comprises a second base body (21) with an accommodating space and a second lifting platform (22) arranged in the accommodating space, a second feeding hole (23) is formed in the top or bottom of the side wall of the second base body (21), a second discharging hole is formed in the bottom or top of the side wall of the second base body (21), and the second lifting platform (22) can move between the second feeding hole (23) and the second discharging hole.
2. The cross-regional interconnect line production apparatus of claim 1, wherein the conveyor platform (30) is a roller conveyor mechanism or a belt conveyor mechanism.
3. The cross-regional interconnect production device of claim 1, wherein photosensitive sensors are provided on both the first lifting device (10) and the second lifting device (20).
4. The cross-regional interconnect production apparatus of claim 1, wherein the first elevating means (10) comprises a first elevating platform (12) and the second elevating means (20) comprises a second elevating platform (22); or the first lifting device (10) and the second lifting device comprise obliquely arranged conveyor belts.
5. The cross-regional wiring production device of claim 1, further comprising:
The first rotary transmission mechanism (40), the first rotary transmission mechanism (40) comprises a first rotary platform, and a third feeding hole and a third discharging hole which are arranged on two sides of the first rotary platform, wherein the third discharging hole is opposite to the first feeding hole; and/or the number of the groups of groups,
The second rotary transmission mechanism (50), the second rotary transmission mechanism (50) comprises a second rotary platform, and a fourth feeding hole and a fourth discharging hole which are arranged on two sides of the second rotary platform, wherein the fourth feeding hole is opposite to the second discharging hole.
6. The trans-regional interconnect production apparatus of claim 5, wherein the first rotary transfer mechanism (40) and the second rotary transfer mechanism (50) are both rotary devices comprising:
The device comprises a third base body (1) and a second base body, wherein the third base body (1) is provided with an accommodating space, an inlet (2) and an outlet (3) are respectively arranged on two adjacent side walls of the third base body (1), the inlet (2) is the third feeding port and the fourth feeding port, and the outlet (3) is the third discharging port and the fourth discharging port;
the rotating frame (4) is arranged in the accommodating space of the third base body (1) and can horizontally rotate, the rotating frame (4) comprises a frame body (5) and a plurality of rollers (6) which are arranged on the frame body (5) at intervals in the normal direction of the inlet (2), the extending direction of the rollers (6) is perpendicular to the normal direction, a plurality of rollers (7) are arranged on each roller (6) at intervals, the tops of the rollers (7) are positioned in the same horizontal plane, and the horizontal plane forms the first rotary platform and the second rotary platform;
And the rotating motor (8) drives the frame body (5) to rotate.
7. The trans-regional line production apparatus of claim 1, wherein the first lifting platform (12) is composed of a plurality of first carrying bars (155) arranged at intervals, the first carrying bars (155) extending in a horizontal direction; and/or, the second lifting platform (22) is composed of a plurality of second bearing rods (255) which are arranged at intervals, and the second bearing rods (255) extend along the horizontal direction.
8. A trans-regional wiring production system, comprising:
a trans-regional wiring production apparatus characterized in that the trans-regional wiring production apparatus is the trans-regional wiring production apparatus according to any one of claims 1 to 7;
And the first lifting device (10), the second lifting device (20) and the conveying platform (30) of the cross-region connecting production device are electrically connected with the control device.
9. The cross-regional wiring production system of claim 8, wherein the cross-regional wiring production device is a plurality of, the control device comprising: the control panel and with the input module, the calculation module and the output module of control panel electricity connection.
Priority Applications (1)
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CN202321283492.0U CN220843974U (en) | 2023-05-18 | 2023-05-18 | Cross-regional line production device and cross-regional line production system |
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CN202321283492.0U CN220843974U (en) | 2023-05-18 | 2023-05-18 | Cross-regional line production device and cross-regional line production system |
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