前苏联专利SU1362395A3 Method of manufacturing articles

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专利摘要:
A method of assembling a plurality of individual parts to manufacture a workpiece, which comprises the steps of placing each single individual part in a holder in a preparation stage, the holder holding each single individual part in a predetermined position, conveying an assembly support along a conveying path to sequentially arranged work stations whereat the parts are assembled on the assembly support, conveying the holders from the preparation stage to the work stations along the conveying path for alignment of the holders with the assembly support, removing the parts from the holders at the work stations and placing them on the assembly support for assembly thereon, returning the holders empty to the preparation stage after the single individual parts held therein have been removed, and again placing individual parts in the returned holder in the preparation stage in a predetermined position.
公开号:SU1362395A3
申请号:SU843726812
申请日:1984-04-20
公开日:1987-12-23
发明作者:Штихт Вальтер
申请人:и (72) Вальтер Штихт (AT)；
IPC主号:

专利说明:

The invention relates to automatic lines for processing and assembling parts into products.
The aim of the invention is to increase labor productivity by automating the processing and assembly of parts into a product.
FIG. 1 given automatic line, general view; in fig. 2 - the same for mounting products, top view; in fig. 3 shows an assembly satellite with an associated satellite with details, a top view of j in FIG. 4 - automatic line for the manufacture of products, top view; in fig. 5 - an assembly satellite with an inserted mounting plate and with individual components mounted on it; Fig. 6 shows a satellite with parts when the carrier of individual parts is raised.
FIG. 1 shows an automatic line 1. For the manufacture of products 2, individual parts 3-5 and their installation in product 2. The automatic line 1 for the production of products 2 is divided into an area 6 for the production of individual parts 4 and 5, an area 7 for preliminary preparation of parts 4 and 5 , an accumulation zone 8 or 9 for satellites 10 individual parts, equipped with or already equipped with individual parts, and an installation zone 11 in which individual parts 3-5 are assembled into article 2.
In the production zone 6, technological (machining) positions 12 are shown, for example, a lathe 13 or a drilling machine 14. The finished individual parts 4 or 5 are placed in the receivers 15 individual parts. These receivers 15 individual parts are formed, for example, from plastic
4 and 5 or by receivers of 15 individual parts can occur in such a way that when using the parallel feed path 26, the group 27 formed from four satellites
the containers 16 are in the form of a bucket, which are inserted into the latches -17 of transport-dr-10 and 21 separate parts, several packs 18. If all receivers move past the manipulator once again - 15 individual parts are loaded from the switch 19 or the worker 20, and at
on each aisle, respectively, only individual parts of 4 or 5 of the same type or receivers of 15 separate parts are placed, which contain only parts of one type
During the loading process, the installation area 11 can be supplied with already loaded satellites 10 and 21 individual parts from a storage device 28 located in the architect details 4 or 5, transport packages are delivered to the preliminary preparation zone 7, In this zone 7 individual parts 4 and 5 or the receivers 15 of the individual parts using the manipulators 19 or the forces of the worker 20 are stacked onto the satellite of 21 individual parts. To be able to perform a manipulator as simple as possible and save on the cost of freely moving in several directions in space
50
55
Not 8 accumulations, for loaded satellites 21 separate parts. The
0
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robots, which can also be used for these works, positioning individual parts 4 and 5 or receivers 15 separate parts in the direction of the double arrow 22 by longitudinal movement of the transport package 18 or satellites 10 and 21 separate parts relative to the rail 23 of the manipulator 19, passage across across to her. A manipulator for positioning the individual parts 4 and 5 or the receivers 15 of the individual parts is only positioned in one additional guide in the vertical direction. After all the receivers of the 15 individual parts are removed from the transport packs 18, they are given to receive the released (emptied) receivers of the 15 individual parts into the area 24 of the take-off point. It is also possible, with a correspondingly long cycle time, to move empty receivers 15 separate parts with satellites 10 and 21 separate parts into transport packages 18 or, over-one or several, more than one manipulator 19 next to each other. Then, parts that are supplied in Bulk materials, such as screws, springs, stampings, etc., are separated on their own feeding device 25 and are fed or, if necessary, untangled and inserted into the empty receivers 15 of satellites 10 and 21 of individual parts. Now loading satellite 10 and 21 individual parts
4 and 5 or by receivers of 15 individual parts can occur in such a way that when using the parallel feed path 26, the group 27 formed from four satellites
0
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p-10 and 21 individual parts, several times moving past the manipulator 19 or working 20, and
Not 8 accumulations, for loaded satellites 21 separate parts. The
3
over time, the satellites 10 and 21 of the individual parts returning from the mounting zone 11 are fed (captured) to the storage device 29 to receive the individual parts that need to be loaded.
By sharing the accumulated devices 28 and 29, it is possible to create a stock of the corresponding number of satellites 10 and 21 loaded with parts, so that, for example, there will be enough separate parts for mounting the products 2 to the third fully automated shift and no workers will be needed for laying or monitoring the stacking of individual parts 4 and 5 in satellites 10 and 21 of individual parts in zone 7 of preliminary preparation.
A mounting device 30 is provided in the mounting zone 11. A plurality of working or technological positions 32 are located along the reverse supply path 31. Manipulators 33 or processing devices 34 are installed in these working or technological positions, for example, riveting machines, pressing machines, a screwdriver - you or welding machines, etc. Parallel to feed path 31, there is a feed path 36 for satellites 10 and 21 of individual parts. The feed direction is the arrow 37 of the mounting satellites 39 moving along the feed path 31 with the drives 38, and the feed direction for the satellites 10 and 21 of the individual parts is the same.
To select the summed individual parts 4 or 5, the satellites 10 and 21 of the individual parts are positioned by the interaction of the devices 40 fixed on them with the signal carriers with the reading or encoding devices 41-48. These devices 40-48, with the help of the control device 49, work in conjunction with the stops 50, the Stop 50, the coupled companion or encoder 41 satellite 1 about individual parts is held in the shown position, so that a separate part 5 is centered on the axis 51 of the console 52 handler grapple 33. The grapple console 52 should only move in. the axial direction 51 and in the vertical direction to remove a separate part 5 from the satellite 21 separate parts and Send
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1362395
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it to the assembly satellite 39 or to connect it to an already installed individual part 3. If the extracted individual part 5 does not meet the prescribed quality standard or if the installation of this separate part 5 to part 3 is impossible, then the defective part can be dropped into the container 53 and the console 52 grapples are fed to the area above the next part 5, located in another receiver of the individual parts. The next part 5 is grasped by the grapple console 52 and mounted on a separate part 3. In this case, only one individual part 4 remains, as is, for example, shown by satellite 54 of the individual parts. If there are damaged individual parts, they are separated out and product 2 can be further assembled, the installation satellite is not coded as a fault carrier and should not be assembled until manual readiness is in the process of very expensive additional work.
With the help of reading and coding devices 41 and 42, it is possible to hold the satellite 10 or 21, or 54 individual parts not only in the desired position relative to the manipulator 33, but also by repeating the movement of the grab arm 52 - thus removing a separate additional part - this process is noted a device 40 for satellite signal carriers of 10 separate parts so that, when subsequently loaded with new individual parts 4 and 5 or receivers, 15 separate parts, respectively, control the toro manipulator provided for this 19, The technical design of the encoder can be any and can be used both by magnetic coding and mechanically movable devices with signal carriers.
After working or processing positions 32 required parts 4 and 5 are taken out of satellites 10, 21 or 54 individual parts, these satellites are again brought to preliminary preparation zone 7. This may occur when using or bypassing the storage device 29. In the mounting zone 11 between two working or processing positions 32, in which
five
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By means of the manipulators 33, individual parts 4 or 5 are placed or mounted on the mounting satellite 39, technological (processing) equipment 34 (device) may be provided, for example, a welding device with which parts 3 and 5 are welded together before detail 4. Further, it is also possible between these separate working positions 32 to establish a working position 55 in which the individual parts 56 by the feeding device 57 are fed from the bunker and mounted by the manipulator 33 on the mounting satellite 39. In the case of It may, if necessary, be presented as parts arriving in the form of bulk cargo; screws, washers, springs, etc., in the zone of any working position of parts 4 and 5, as well as additional parts of a different type, which are mounted on the mounting satellite 39 with the same manipulators 33.
The implementation of such an automatic line 1 for the manufacture of articles 2 avoids the disturbances that may occur during the feeding and dredging
individual parts from bunker feed parts in satellites 10, 21 or
devices, since the individual parts in the satellites of the individual parts are already installed in a coarse position.
In the pretreatment area, all feeding devices are concentrated for individual parts. The worker can easily monitor and repair damage in the installation area 11; nothing prevents when the storage device 28 is located between the preliminary preparation zone 7 and the installation area 11. In addition, accessibility to individual work or processing positions 32 is facilitated due to the lack of feeding devices with a hopper.
The process of manufacture or installation of products 2 is as follows.
The individual parts 4 and 5 manufactured at the individual process positions 12 are placed in the empty receivers 15 separate parts that were contained in the transport packages 18. If all the receivers 15 individual parts of the transport packaging (bundle) 18 are equipped with separate parts 4 and 5, Then transport packaging is delivered, if necessary during intermediate storage in the warehouse, to preliminary preparation zone 7 for loading the satellites of the product or satellites 10 and 21 of individual parts.
In the preliminary preparation zone 7 by a worker with 20 or semi-automatic or automatic manipulators 19, receivers 15, filled with individual parts, are removed from transport packages 18 and installed on satellite 10, 21 or 54
individual parts or satellite products, or the corresponding receivers, or locks mounting satellites. Additionally, parts can be lifted upward from the hopper with the help of feeding devices 25. Delivered as bulk material, they can be separated, oriented and laid into empty receivers 15 individual parts. Then satellites
Hooves, 21 and 54, loaded with individual parts 4 and 5, can be intermediately stored in accumulation zone 8 in storage device 28. It is possible to position any number of individual parts according to the desired installation process. It is reasonable to load satellites of 10, 21, or 54 individual parts into the sequence of installation by two sets of separate parts 4 and 5 of the same type. Also, satellites 10, 21-or 54 individual parts repeatedly pass through the use of a parallel path 26
0 feed and at each transition through zone 7 preliminary preparation load them only with homogeneous individual parts, so that you can do with a relatively small number
5 devices or a small number of workers.
If the ES1SH in the installation area needs satellites 10, 21, or 54 separate parts, they are fed from storage device 28 to the feed path 36. The satellites 10, 21 and 54 of the individual parts that simultaneously form the satellite for the product are moving in parallel to the direction of translational motion (arrow 37) or to the feed path 31 of the feed path 31 for the mounting satellite 39. It is also possible to feed the satellite .10 or 21 in any other direction to the working area of the separate working position 32.
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After appropriate positioning of the satellites 10, 21 and 54 of the individual parts with respect to the axis of the manipulator 51, the separate part 5 or 4 is taken out of the receiver 15 of the individual parts using the manipulators 33 and placed on the assembly satellite 39 If the component 4 is found to be damaged, for example, bent or If the VT has a damaged thread, or does not fit the dimensions, so that installation is not possible, the defective part 5 is thrown by the manipulator 33 into the container 53 for defective parts. When two sets of identical parts 4 or 5 are provided on the carrier of individual parts, the installation can be continued, since the manipulator 33 can be brought and mounted the second part 5. It is possible with a simple loading of a satellite of individual parts with parts 4 or 5 of this satellite of individual parts send further, and from the next next satellite of individual parts, again remove part 5. The forward movement of the satellite of individual parts along the feed path 36 from one working position to the nearest working position can rotate using a transport device of the same type with the transport device for the mounting satellite 39. If part 5 is laid on the installation satellite 39 or joined to a separate part 3, the installation satellite 39 is fed to the area of the processing device 34 (for example, the welding device) in the adjacent processing position 32. With this welding device, the individual parts 3 and 5 are welded together. The mounting satellite 39 is then transported further to the nearest processing position 32, and there by means of the manipulator 33, part 4 is taken out of the satellite 10 individual parts, centered using the stop 50, from the receiver 15 individual parts and placed on the mounting satellite 39 or joined with parts 3 and 5 Immediately thereafter, the satellites 10, 21 or 54 return to fill the empty receivers of individual parts into the preliminary preparation zone 7. The mounting satellite 39 continues to move along the feed path 31, and in the zone of the next operating position
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55, the feeding device 57 feeds the next part, which is mounted on the device 2 by the manipulator 33. Directly after this, the product 2 mounted to readiness without the assembly satellite 39 is removed by the service personnel at the workplace 58, where they are operated manually and, if necessary, placed in empty receivers of individual parts of the transport package 59 to be submitted to the preliminary preparation zone of another automatic line 1, in which the finished product 2 represents a separate part for the subject installation of larger units or products.
Due to this kind of organization of transportation of individual parts 3-5 or products 2, uniform transportation of parts and products is achieved during the installation process, for example, with large units, and it is possible to supply products manufactured in the automatic line 1, which in the further installation process represent a separate part (node ), using this transport packaging to a production site that is remote from the production site, and the arrangement of individual parts or products is kept the same, and thanks to For the same receivers of individual parts, homogeneous manipulation with details using the same type of manipulators or robots is possible. Then, in the area of the take-off point 24, those receivers 15, from which individual parts 4 or 5 are taken out, are removed from satellites 10, 21 or 54 individual parts and inserted into transport packaging 18. Directly after this, it is possible to bring the individual parts provided as a reserve positions on the satellites 10,21 or 54 individual parts, from which the individual parts 4 and 5 are removed by the manipulator 33. This can be achieved by displacing the receivers 15 of the individual parts or by moving with the help of the manipulator. This provides a reserve for individual parts 4 or 5.
FIG. 4 shows an automatic line 1 for the manufacture of products 61 in which individual parts 62 and 63 for the product are fed to receivers 66 of individual parts on a satellite 65 of individual parts being moved independently of the mounting satellite 64. Satellite 65 of individual parts is located on the satellite 67 of products which is progressively moved by the transport device 68, the same as the transport device for the fixed satellite 64, along the feed path 69, Unlike the automatic line 1 (Fig. 1), the feed path 69. passes in the mounting zone 11 between two ut 70 and 71 filing and parallel to them. While the satellites 67 of the product used to move the satellites 65 of the parts move progressively parallel to the feed path 70 along the feed path 69, in order to install the satellites 65 of the individual parts in the individual working or processing positions 32 to the corresponding positions of the manipulators 33 The satellites 65 of the individual parts in the position position of the movement 72 are output to the feed path 71 for the mounting satellite 64 and move between them along the same feed path 71 to the motion position 73, where they are reintroduced into their own filing path 74 and served; accumulation zone 9, while in zone 73, the movement positions of article 61 are removed from assembly satellite 64 and retracted. The loading of the loaded (equipped) satellites of the individual parts to the feed path 69 occurs through the crossover point 75, in which the feed path 69 for the satellites 65 of the individual parts crosses, as well as the feed path 70 for the mounting satellites 64. If the satellite 65 of the individual parts is designed in this way that it can be removed from the satellite 67 of the product, when, in the accumulation zone 9, the satellite 67 of the product is removed and only the satellites 65 of individual parts intended for reloading are accumulated, the satellites of the products are somewhat more structurally Either expensive, through a rotation position, can be fed directly to the accumulation zone 8 for fully loaded satellites of individual parts, in order to be able to install them on empty satellites of 67 products and bring them to the mounting zone 11. Thereby, the stock of individual accumulation zones can be increased, since a reserve of
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NIKOV 65 individual parts, while more expensive. By design, the satellites 67 products are needed only in a limited number. Satellites 65 separate parts are brought from accumulation zone 9 to preliminary preparation zone 7, in which worker 20 removes empty receivers 66 separate parts from the satellites 65 of the individual parts and inserts the loaded receivers 66 of the individual parts into the satellite 66 of the individual parts. Then, a worker 20 opposite to him installs other individual parts 62 with their receivers of individual parts into a satellite of 65 individual parts. In this case, workers 20 can be replaced with manipulators 19. If it is possible to escape with a small number of products with only one worker 20, then it is possible to force the satellite of individual parts to circulate several times, and a cross conveyor is provided before entering the accumulation zone 8. 20 (in the first pass) installs receivers with individual parts 62, and during the second pass of the satellite, the product installs parts 63 with their separate parts into the satellite of individual parts in the opposite workplace. Then, the fully loaded satellites of individual parts are accumulated in the accumulation zone 8 and, on demand, are installed on product satellites 67 fed through the rotation position 76, and fed to the mounting zone 11. In order to bring the individual parts 62 and 63 provided as a reserve for the first pass of the satellite of the individual parts, the receivers 66 of the individual parts for the same type of individual parts 62 or 63 are located along the diagonal of the satellite of 65 separate parts with the nearest passage to the position prepared for excavation. Thus, it is possible to simply turn the carrier separately
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180 parts to the position for machining individual parts 62 and 63, initially provided as spare parts.
FIG. 3 shows the satellite 77 individual parts with receivers 78 individual parts, in which various individual parts 79–82 are laid. Satellite 77, after being loaded with individual parts 79-82, is installed
in the receiving device 83 on the mounting satellite 84, With this receiving device 83, the satellite 77 of the individual parts is positioned and fixed with respect to the mounting satellite 84. Preferably the satellite 77 is fixed on the side of the mounting satellite 84, turned away from the center of the machine, and thereby rotation positions 72 are no obstacles for the subsequent or advanced mounting satellite 84.
Further, in addition to the four parts required for installation, 79 - 82, the latter are provided twice, because because of these two parts, installation is often not possible due to poor quality or accuracy, and by that frame the defective part can be passed to the receiver 107 for from
This is allotted, and the new part is supplied and mounted without interrupting the installation or operating cycle. For satellites 77 of the parts, any individual satellites of the product may be unnecessary, and the amount of accumulation for the individual parts that need to be loaded or already loaded may be limited.
FIG. 4 shows the device 85, in which in the pretreatment zone 7 the unloading position 86 and three loading points 87-89 are shown. For the unloading and loading positions, the same machine modules 90 are used which are installed in the mounting zone 11. Each of these individual modules 90 is provided with a portion of the feed path, as well as with its own drive, its own power supply and control device. In order to transport the satellites 91 of individual parts, supply paths 92 and 93 are provided in the mounting zone 11, along which the satellites 91 of the individual parts move from, independently of the mounting satellite 96, moved along the supply paths 94 and 95. Only feed path 97 for connecting feed paths 94 and 95 or feed path 92 and 93 for satellites 91 of individual parts or assembly satellites 96 is common. at the crossing positions 75.
FIG. 5 shows an installation satellite 98 consisting of a product satellite 99 and a mounting plate 100. This
The satellite articles with their guide devices 101 and 102 can be moved along the height and to the sides along the guide surfaces 103 and 104 of the path (not shown) 105 of the feed. The mounting plate 100 is held and positioned on the satellite 99 of the product using guide pins 106
The mounting plate 100 has a product receiver 107, which is made for joining or mounting products. Adjacent to this receiver 107 for the product are receivers 108-111 for individual parts. In these receivers 108-111 various individual parts 112-115 are laid, which in separate working positions are taken out of these receivers 108-111 and uk0
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LIA is either joined or processed. The positioning of parts 112-115 occurs in the preliminary preparation areas, separated from the working positions of 5 or processing positions. It is possible to put parts 112-115 into replaceable receivers of individual parts (Fig. 1) and these receivers 116 or
117fix on the mounting plate 100 with the possibility of replacement. This embodiment, in which part of the mounting plate 100 forms a satellite of individual parts, is recommended primarily when the installation receiver 107 of the product can be relatively simple to perform and forms only a simple component of the installation device. If with complex nodes this
The Q receiver 107 of the product must be manufactured with great laboriousness and is very expensive, then separate mounting satellites or satellites of individual parts are used.
FIG. 6 shows a satellite 18 of individual components including latches 119 for changing & gx receivers 120 of individual components. Satellite
118 is positioned and held by Q with guide pins 121
on satellite 122 products. The satellite of the product corresponds in its design to the basic version of the carrier (article) for the mounting plate 100 in FIG. 5. The product satellite 122 has an enclosing frame 123 on which guide devices 101 and 102 are mounted to be directed along the sides and height along guide points 5.
surfaces 103 and 104. Instead of covering friction actuator 124, such as friction rollers, or in addition to them for translational motion, or for simultaneous positioning of the satellite 122 of the product, gear 125 or a Maltese cross with an appropriate positioning unit can be provided with gear in the gear bar 126 mounted on the carrier bar of the satellite 122 products. Thus, it becomes possible for the satellite of individual parts to be centered in two directions of movement - arrow 127 - with respect to the manipulator axis, so that individual parts 128 contained in receivers 120 of individual parts can be removed at the machining site using a manipulator, movable only in two directions in space. For better understanding, some of the latches 119 are shown with 120 separate parts installed without receivers installed, however during normal operation all the latches hold the receivers of individual parts. When satellites of the same type are used for satellites 118 of individual parts or mounting plates made as satellites 118, mounting plates 100 and companions companions 99 or 122 that receive them, their own devices 129 with signal carriers are provided.
If the respective devices with signal carriers are interfaced with the corresponding reading devices, then it is either a satellite of products for receiving mounting plates, or of assembly satellites, or a satellite of products for receiving a satellite of individual parts, or a similar satellite of individual parts. With a correspondingly different coding of these individual parts, each individual part must have a code allowing to distinguish this part from all other individual parts present in the system, the path of individual product satellites or assembly plates or satellites of individual parts can be continuously traced and, for example, For the satellites of individual parts, before submitting them to the preliminary preparation zone, it can be known which receivers of individual parts need to be added or replaced. Equally, this coding can be used to appropriately position individual product satellites or mounting plates, or satellites of individual parts in different working positions, in order to
control the progress of assembly operations or, in the event of errors during assembly, mark similar product satellites or mounting plates in order to bring them further down
repair or additional treatment sites or to isolate products with defects.
Various feeding or driving devices can be used.
devices for product satellites: a chain conveyor, a belt conveyor, a roller conveyor, or the like, if the proposed technical solution can be provided. Also, the embodiments of the individual working or processing positions and the corresponding machines or manipulators and loading devices can be any or all modified.
The replacement of satellites of individual parts without high costs or the replacement of receivers of individual parts and mounting plates provides
high flexibility and consistency of the proposed method for the production of individual parts with a highly variable number in the batch. In this case, the coarse positioning of individual parts or their supply to the installation area can be done very simply. With a small number of products, the laying of individual parts or receivers of individual parts is possible with the help of
workers, while with a higher number of parts packed by workers, it can be reduced, and the remaining parts can be packed with automatic loading devices or a large number of workers. Thus, this system can be used for continuously varying volumes of batches from small series to large series with several thousand pieces per month and can be negotiated at a cost within economically represented limits. Further, with this system, product groups can also be mounted, whose design is one
which is, but which differ in individual parts with different types of products. In the application and various receivers of individual parts, a method or device is used without a long break for mounting or processing various individual parts, and the lost costs or rebuilding costs due to a simple change of satellites of individual parts or receivers of individual parts can be very small. Due to the fact that the receivers of individual parts have standard sizes, there is no need for processing different scales of parts, for example, in the pre-preparation area, there are no changes in the manipulators or the like.
Satellites 10, 21, or 54 of individual parts brought to zone 7 of preliminary preparation can, for example, pass the interrogating device 130 (FIG. 1) after the storage device 29, which can be installed as a portal (two-rack) device above the supply path in order to establish which individual components must be replaced or reloaded from receivers. This information can be used to ensure that upon arrival of a satellite of individual parts to worker 20, it would already be optically informed about how many details each
6239516
The view must be placed in the carrier of individual parts, or with further development, this information is used to automatically load the satellites of individual parts.

权利要求:
Claims (1)
[1]
Invention Formula
10 A method of manufacturing articles consisting of several separate parts, which are assembled by automated means and transported along the feed path from one
15 working position to another, the nearest position, in which in some working positions, the individual parts & processing and / or assembly parts take in the preliminary zone
20 preparation and mounted on the part or cradle of the mounting satellite and dock with one another, which is characterized by the fact that, in order to increase productivity
25 labor, separate parts are laid apart into the satellite receivers of the parts and then connected to the part or processed, the satellite with the parts is fed parallel to the technological
30 lines of the assembly satellite to the working positions and after that in the working or processing position the parts are removed from the satellite of the parts, positioned in relation to the product and collected in the lodgment of the mounting satellite
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类似技术:

公开号 | 公开日 | 专利标题

SU1362395A3|1987-12-23|Method of manufacturing articles

EP0238838A2|1987-09-30|Production system

DE2262210C2|1985-12-19|Automatic transport system

US4815190A|1989-03-28|Method for automated assembly of assemblies such as automotive assemblies

EP0144652B1|1989-05-31|Incremental modular creel system

US4473935A|1984-10-02|Method for supplying parts to an automatic assembling machine

US4773523A|1988-09-27|Method for automated handling of materials such as automotive parts and system utilizing same

JPH06155197A|1994-06-03|Member feeding system for mixed flow production system

DE102013014266A1|2015-03-05|Interlinking system for top transfer facilities

CN207810399U|2018-09-04|Cache library, buffer storage, sorting wire and tiered warehouse facility

CN102745454B|2015-04-15|Intelligentized logistics loading and unloading conveying system

US4777783A|1988-10-18|Method for automated accumulation and loading of parts such as automotive parts and system utilizing same

DE3524344A1|1987-01-08|METHOD AND DEVICE FOR UNLOADING AND LOADING PALLETS

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CN102233527A|2011-11-09|Flexible automatic conveyance system between processes

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JPH0829467B2|1996-03-27|Assembly equipment

DE10019632A1|2001-10-31|System for transporting articles on roller pallets comprises feed stations which transfer them to buffer sections with unloaders at ends feeding pallets to transfer section from which they are selected to form customized combinations

DE4126689C2|2003-02-06|Parts supply system in modular design

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CS196510B1|1980-03-31|Device for depositing and supply of the workpieces

DE4303416C2|1996-08-14|Method and device for removing thread spools from a textile machine

JPH07110743B2|1995-11-29|Spool machine with multiple spooling stations

同族专利:

公开号 | 公开日

ATA143383A|1989-10-15|

JPH0549422B2|1993-07-26|

JPS59205259A|1984-11-20|

DE3409843C2|1994-09-08|

IT1173852B|1987-06-24|

FR2544647B1|1987-12-11|

GB2140367A|1984-11-28|

ES8503269A1|1985-02-16|

US4884330A|1989-12-05|

AT390423B|1990-05-10|

US5103963A|1992-04-14|

DE3409843A1|1984-10-25|

SE8402074D0|1984-04-13|

IT8420068D0|1984-03-15|

FR2544647A1|1984-10-26|

GB8410250D0|1984-05-31|

SE457155B|1988-12-05|

ES531324A0|1985-02-16|

CH663171A5|1987-11-30|

GB2140367B|1988-01-13|

SE8402074L|1984-10-22|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

AT143383A|AT390423B|1983-04-21|1983-04-21|METHOD AND DEVICE FOR PRODUCING WORKPIECES|

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