CN115401529A

CN115401529A - Building block type production line and assembling method thereof

Info

Publication number: CN115401529A
Application number: CN202210992392.9A
Authority: CN
Inventors: 范建群
Original assignee: Suzhou Jingshuo Automation Equipment Co ltd
Current assignee: Suzhou Jingshuo Automation Equipment Co ltd
Priority date: 2022-08-18
Filing date: 2022-08-18
Publication date: 2022-11-29

Abstract

The invention discloses a building block type production line and an assembling method thereof, relating to the field of automatic equipment, and the technical scheme is as follows: including host system, transfer chain, unloading station, a plurality of feed station and a plurality of equipment station, all be provided with power module and communication transceiver module in transfer chain, unloading station, feed station and the equipment station, power module and communication transceiver module electric connection, communication transceiver module and host system communication connection all are provided with on every equipment station and reserve the hole site, and are a plurality of the equipment station can make up wantonly and splice in one side of transfer chain along the assembly line direction, and at least one feed station has been spliced to one side of at least one equipment station, and one side of transfer chain is located and is provided with between two adjacent equipment stations and moves the year module, and the unloading station sets up the transport end at the transfer chain. The invention enables the arrangement of the production line to be more flexible, greatly reduces the design and construction period of the production line and is beneficial to saving the cost.

Description

Building block type production line and assembling method thereof

Technical Field

The invention relates to the field of automation equipment, in particular to a building block type production line and an assembling method thereof.

Background

The traditional production line in the field of product assembly is generally integrally machined and formed, and one production line is set after being built. However, in actual production, when the yield of the product is increased or a new product is put into production, a new production line needs to be designed and built completely, which not only has long period and high cost, but also causes serious waste of resources.

Therefore, a new solution is needed to solve this problem.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a building block type production line and an assembling method thereof, so that the production line is more flexible in arrangement, the design and construction period of the production line is greatly reduced, and the cost is saved.

The technical purpose of the invention is realized by the following technical scheme: a building block type production line comprises a main control module, a conveying line, a blanking station, a plurality of feeding stations and a plurality of assembling stations, wherein a power module and a communication transceiver module are arranged in the conveying line, the blanking station, the feeding station and the assembling stations, the power module and the communication transceiver module are electrically connected, the communication transceiver module is in communication connection with the main control module, each assembling station is provided with a reserved hole site for an external assembling mechanism to be installed, the assembling stations can be combined randomly along the assembly line direction and spliced on one side of the conveying line, at least one feeding station is spliced on one side of at least one assembling station, a transfer module is arranged between two adjacent assembling stations on one side of the conveying line, the transfer module is used for taking and placing products on the assembling stations onto the conveying line or taking and placing products on the conveying line onto the assembling stations, and the blanking station is arranged at the conveying end of the conveying line.

In one embodiment, the conveying line comprises a plurality of conveying sections which can be connected end to end, and each conveying section comprises a support, a conveying belt arranged on the support and a speed reducing motor used for driving the conveying belt to run.

In one embodiment, every two conveying sections are connected through a first quick connector.

In one embodiment, the feeding station comprises a movable feeding frame, a feeding conveyer belt arranged on the feeding frame, and a feedback conveyer belt arranged on the feeding frame and located above the feeding conveyer belt, the feeding conveyer belt and the feedback conveyer belt are opposite in conveying direction, a transfer conveyer belt and a first longitudinal module used for driving the transfer conveyer belt to vertically lift are further arranged at one end of the feeding conveyer belt and one end of the feedback conveyer belt on the feeding frame, the transfer conveyer belt is respectively parallel to the feeding conveyer belt and the feedback conveyer belt, a first X-axis linear module is fixed at one side of the feedback conveyer belt on the feeding frame, a truss is arranged at the output end of the first X-axis linear module, a first Z-axis linear module is fixed at one side of the truss close to the transfer conveyer belt, a feedback vacuum suction cup is arranged at the output end of the first Z-axis linear module, a Z-axis cylinder is fixed at the output end of the first Y-axis linear module, a vacuum suction head is arranged at one side of the output end of the first Y-axis linear module, a positioning camera is arranged at one side of the first Y-axis linear module, and a feeding station is connected with a feeding platform through a feeding vacuum suction head.

In one embodiment, the transferring module comprises a transferring rack and a transferring manipulator arranged on the transferring rack, and the transferring rack is connected with the assembling station and the conveying line through a third quick connector.

In one embodiment, the blanking station comprises a blanking rack, a blanking transmission line and a blanking manipulator, wherein the blanking transmission line and the blanking manipulator are arranged on the blanking rack, and the blanking rack is connected with the transmission line through a fourth quick connector.

In one embodiment, the main control module is integrated in the conveying line or the blanking station or any one of the loading stations or the assembling station.

In one embodiment, the portable power supply further comprises a portable power supply line, a plurality of female connectors are arranged on the portable power supply line, and a male connector electrically connected with the female connectors is arranged on each power supply module.

In one embodiment, the communication transceiver module is a wireless communication transceiver module.

In one embodiment, the assembling method of the building block production line comprises the following steps:

s1, designing a layout of production line stations according to production requirements;

s2, selecting the number, the combination sequence and the combination mode of the feeding stations, the assembling stations and the transferring modules according to the layout of the step S1 and the requirements of product production;

s3, respectively connecting the conveying line, the feeding station, the blanking station, the assembling station and the transferring module in a communication manner with the main control module and connecting the main control module with an external power supply;

s4, mounting an external assembly mechanism on each assembly station, and electrically connecting the external assembly mechanism with a power module and a communication module on the assembly stations to obtain a preliminary test production line;

and S5, debugging and calibrating each station to produce products.

In conclusion, the invention has the following beneficial effects: according to the invention, the feeding station, the transfer module and the assembling station are assembled and spliced in any number and sequence, the modularized external assembling mechanism is arranged on the assembling station according to the use requirement, and the conveying line and the blanking station are matched to form a complete product production line, when a new product is required to be put into production, the corresponding external assembling mechanism is only required to be reset and each station is required to be recombined, the building block type splicing of the production line is realized, and when only the production sequence of the similar products is changed, the assembling stations are not required to be recombined, a semi-finished product completed by the previous assembling station can be conveyed to the assembling station adjacent to the semi-finished product or any assembling station far away from the semi-finished product through the conveying line to be assembled in the next process, so that the switching of different assembling sequences is realized, the arrangement of the production line is more flexible, the design and construction period of the production line is greatly reduced, and the cost is saved.

Drawings

FIG. 1 is a schematic structural diagram of a building block production line according to an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a feeding station in a building block production line according to an embodiment of the present disclosure;

FIG. 3 is an internal block diagram of a feed station in a building block production line according to an embodiment of the present disclosure;

fig. 4 is an enlarged view of a portion a in fig. 2.

In the figure: 1. a feeding station; 11. a feeding frame; 12. a feed conveyor belt; 13. a feed back conveying belt; 14. a transfer conveyor belt; 15. a first X-axis linear module; 16. a truss; 17. a first Z-axis linear module; 171. a feed back vacuum chuck; 18. a first Y-axis linear module; 19. a Z-axis cylinder; 191. a vacuum pick-up head; 120. taking a material positioning camera; 121. a first longitudinal module; 122. carrying a loading platform for materials to be loaded; 2. assembling stations; 3. a conveying line; 4. a transferring module; 5. and (5) a blanking station.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance, and furthermore, unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 to 4, an embodiment of the present application provides a building block type production line, which includes a main control module, a conveying line 3, a blanking station 5, a plurality of feeding stations 1, and a plurality of assembling stations 2. All be provided with power module and communication transceiver module in transfer chain 3, unloading station 5, feed station 1 and the equipment station 2, power module and communication transceiver module electric connection, communication transceiver module and host system communication connection. Each assembly station 2 is provided with a reserved hole site for installing an external assembly mechanism, and the external assembly mechanism is electrically connected with the power module of the assembly station 2 through a quick socket. A plurality of the assembly stations 2 can be combined randomly along the direction of an assembly line and spliced on one side of the conveying line 3, and at least one feeding station 1 is spliced on one side of at least one assembly station 2. One side of transfer chain 3 is located and is provided with between two adjacent equipment stations 2 and move and carry module 4, it all includes power module and communication transceiver module to move and carry module 4, it is used for getting the product on equipment station 2 to get to transfer chain 3 on or get the product on transfer chain 3 to get to equipment station 2 on to move and carry module 4. The blanking station 5 is arranged at the conveying tail end of the conveying line 3.

It should be noted that the master control module includes a master control communication transceiver module capable of communicating with the communication transceiver module, and the master control module is a PLC controller or other industrial controllers and is connected to an external power supply during operation.

Specifically, the feeding station 1, the transferring module 4 and the assembling station 2 are assembled and spliced in any number and sequence, the modularized external assembling mechanism is installed on the assembling station 2 according to the use requirement, and the conveying line 3 and the blanking station 5 are matched to form a complete product production line, when a new product needs to be put into production, the corresponding external assembling mechanism is reset and all stations are recombined, the building block type splicing of the production line is realized, when only the production sequence of similar products is changed, the assembling stations 2 do not need to be re-spliced, a semi-finished product completed by the previous assembling station 2 can be conveyed to the adjacent assembling station 2 or any assembling station 2 far away from the previous assembling station 2 through the conveying line 3 to be assembled in the next step, and therefore the switching of different assembling sequences is realized.

By the mode, the production line is more flexibly arranged, the design and construction period of the production line is greatly reduced, and the cost is saved.

On the basis, the conveying line 3 comprises a plurality of conveying sections which can be connected end to end, and each conveying section comprises a support, a conveying belt arranged on the support and a speed reduction motor used for driving the conveying belt to run.

Specifically, every two conveying sections are connected through a first quick connector.

It should be noted that the first quick connector and the second quick connector, the third quick connector and the fourth quick connector described below are all the same members, and may be of a hook and groove structure or a snap lock structure.

In the above manner, the conveyor line 3 is provided as a plurality of independent conveyor ends, and can be flexibly configured according to the length of the production line.

On the basis, the feeding station 1 comprises a movable feeding frame 11, a feeding conveyer belt 12 arranged on the feeding frame 11, and a feedback conveyer belt 13 arranged on the feeding frame 11 and located above the feeding conveyer belt 12, the conveying directions of the feeding conveyer belt 12 and the feedback conveyer belt 13 are opposite, a transshipping conveyer belt 14 and a first longitudinal module 121 for driving the transshipping conveyer belt 14 to vertically lift are further arranged at one end of the feeding frame 11 located on the feeding conveyer belt 12 and the feedback conveyer belt 13, the transshipping conveyer belt 14 is respectively parallel to the feeding conveyer belt 12 and the feedback conveyer belt 13, a first X-axis linear module 15 is fixed at one side of the feedback conveyer belt 13 on the feeding frame 11, a truss 16 is arranged at the output end of the first X-axis linear module 15, a first Z-axis linear module 17 is fixed at one side of the truss 16 close to the transshipping conveyer belt 14, a feedback vacuum suction cup 171 is arranged at the output end of the first Z-axis linear module 17, a first Y-axis linear module 18 is arranged at the other side of the truss 16, a Z-axis linear module 18 is fixed at the output end of the first Y-axis linear module 18, a Z-axis cylinder 191 is fixed at the output end of the first Y-axis linear module 191, a vacuum suction head 191 is arranged at one side of the feeding frame 11, and a vacuum suction head of the feeding station 120, and a vacuum suction head is connected to a vacuum suction head of the feeding camera mounting station 11, and a second vacuum suction head, and a vacuum suction head is arranged at one side of the feeding camera mounting station, and connected to a feeding camera mounting station, and a vacuum suction head of the feeding camera mounting station 2, and a vacuum suction head is arranged on the feeding camera mounting station, and a vacuum suction head mounting station 2.

During operation, a product tray is placed on the feeding conveyer belt 12, the product tray is conveyed by the feeding conveyer belt 12 to enter the transshipment conveyer belt 14, the first longitudinal module 121 drives the transshipment conveyer belt 14 to ascend to the position with the same horizontal height as the return conveyer belt 13, the vacuum material taking suction head 191 moves along the X axis, the Y axis and the Z axis to take and place products in the product tray on the to-be-taken and to-be-taken carrying platform 122 for taking and placing of each assembly station 2, and the return vacuum suction disc 171 takes and places empty product trays on the return conveyer belt 13 to be output outwards.

In the mode, full tray entering and empty tray flowing of a product tray are realized, the modular arrangement of the feeding station 1 is realized, the multi-station feeding device can be suitable for various stations, and the multi-station feeding device has the advantages of wide application range, high integration level and convenience in use

On the basis, the transfer module 4 comprises a transfer rack and a transfer manipulator arranged on the transfer rack, and the transfer rack is connected with the assembly station 2 and the conveying line 3 through a third quick-connecting piece.

In the above manner, the transfer module 4 can pick and place the product on the assembly station 2 onto the conveyor line 3 or the product on the conveyor line 3 onto the assembly station 2, and can also directly pick and place the product on the upper assembly station 2 onto the lower assembly station 2, so that the operation flexibility is good.

On the basis, the blanking station 5 comprises a blanking frame, a blanking transmission line and a blanking manipulator, wherein the blanking transmission line and the blanking manipulator are arranged on the blanking frame, and the blanking frame is connected with the transmission line 3 through a fourth quick connector.

Specifically, the blanking station 5 is conventionally arranged in the prior art, and the specific structure thereof is not described in detail in this embodiment.

Specifically, the main control module is integrally arranged in the conveying line 3, the blanking station 5, any one feeding station or the assembling station 2.

In the above mode, the installation of the main control module is more flexible and convenient.

On the basis, the power supply module further comprises a traveling power line, wherein a plurality of female heads are arranged on the traveling power line, and each power supply module is provided with a male head which can be electrically connected with the female heads in an inserting mode.

It should be noted that the power module includes a strong power module for driving each station to operate and a weak point module for supplying power to the communication transceiver module.

Specifically, when the power supply device works, the following power line is connected with an external power supply, so that power supply of each power supply module and the communication transceiving module is realized.

On the basis, the communication transceiver module is a wireless communication transceiver module.

Specifically, the wireless communication transceiver module may be a wireless data transmission module, a wireless transceiver module, an ASK superheterodyne module, a 5G industrial communication module, and the like.

By the mode, wireless communication of the conveying line 3, the transfer module 4, the blanking station 5, the feeding station 1 and the assembling station 2 is realized, connection of a large number of communication cables is reduced, and production efficiency of splicing and assembling of a production line is effectively improved.

The embodiment of the application also discloses an assembling method of the building block type production line, which comprises the following steps:

s2, selecting the number, the combination sequence and the combination mode of the feeding station 1, the assembling station 2 and the transferring module 4 according to the layout of the step S1 and the requirement of product production;

s3, respectively connecting the conveying line 3, the feeding station 1, the blanking station 5, the assembling station 2 and the transferring module 4 with a main control module in a communication way, and connecting the main control module with an external power supply;

s4, installing an external assembly mechanism on each assembly station 2, and electrically connecting the external assembly mechanism with the power module and the communication module on the assembly stations 2 to obtain a preliminary test production line;

and S5, debugging and calibrating each station to produce products.

It should be noted that the combination shown in the drawings does not represent the final combination of the present invention, and may be a conversion combination of different numbers and different positions of the respective stations.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims

1. A cordwood system production line is characterized in that: including host system, transfer chain (3), unloading station (5), a plurality of feed station (1) and a plurality of equipment station (2), all be provided with power module and communication transceiver module in transfer chain (3), unloading station (5), feed station (1) and equipment station (2), power module and communication transceiver module electric connection, communication transceiver module and host system communication connection, every all be provided with the reservation hole site that supplies outside equipment mechanism to install on equipment station (2), it is a plurality of equipment station (2) can follow the arbitrary combination of assembly line direction and splice in one side of transfer chain (3), at least one the concatenation of one side of equipment station (2) has at least one feed station (1), one side of transfer chain (3) is located and is provided with between two adjacent equipment stations (2) and moves and carries module (4), transfer chain module (4) are used for getting the product on the equipment station (2) on transfer chain (3) get to get and put to transfer chain (3) or get the product on unloading (3) and put to equipment station (2), transfer chain (5) set up the transport end that moves and carry.

2. The building block production line of claim 1, wherein: but transfer chain (3) include a plurality of end to end's transport section, every the transport section all includes the support, sets up the conveyer belt on the support and is used for driving conveyer belt moving gear motor.

3. The building block production line of claim 2, wherein: every two conveying sections are connected through a first quick connector.

4. The building block production line of claim 1, wherein: the feeding station (1) comprises a movable feeding rack (11), a feeding conveyer belt (12) arranged on the feeding rack (11) and a return conveyer belt (13) arranged on the feeding rack (11) and positioned above the feeding conveyer belt (12), the conveying directions of the feeding conveyer belt (12) and the return conveyer belt (13) are opposite, one end of the feeding conveyer belt (12) and the return conveyer belt (13) on the feeding rack (11) is further provided with a transshipment conveyer belt (14) and a first longitudinal module (121) used for driving the transshipment conveyer belt (14) to vertically ascend and descend, the transshipment conveyer belt (14) is respectively parallel to the feeding conveyer belt (12) and the return conveyer belt (13), one side of the feeding rack (11) positioned on the return conveyer belt (13) is fixedly provided with a first X-axis linear module (15), the output end of the first X-axis linear module (15) is provided with a truss (16), one side of the truss (16) close to the transshipment conveyer belt (14) is fixedly provided with a first Z-axis linear module (17), the output end of the first Z-axis linear module (17) is provided with a first linear module (18), and the other side of the truss (18) is provided with a first vacuum suction cup (18), the vacuum material taking and positioning device is characterized in that a vacuum material taking suction head (191) is arranged at the output end of the Z-axis cylinder (19), a material taking and positioning camera (120) is arranged on one side, located on the vacuum material taking suction head (191), of the output end of the first Y-axis linear module (18), a material waiting carrying platform (122) is arranged on the feeding rack (11) and located below the vacuum material taking suction head (191), and the feeding station (1) and the assembling station (2) are connected through a second quick connector.

5. The building block production line of claim 1, wherein: the transfer module (4) comprises a transfer rack and a transfer manipulator arranged on the transfer rack, and the transfer rack is connected with the assembly station (2) and the conveying line (3) through a third quick connector.

6. The building block production line of claim 1, wherein: the blanking station (5) comprises a blanking frame, a blanking transmission line and a blanking manipulator, wherein the blanking transmission line and the blanking manipulator are arranged on the blanking frame, and the blanking frame is connected with the transmission line (3) through a fourth quick connector.

7. The building block production line of claim 1, wherein: the main control module is integrated in the conveying line (3), the blanking station (5), any one feeding station or the assembling station (2).

8. The building block production line of claim 1, wherein: still include the retinue power cord, be provided with a plurality of female heads on the retinue power cord, every be provided with respectively on the power module can with the public head of female first electrical property grafting.

9. The building block production line of claim 1, wherein: the communication transceiver module is a wireless communication transceiver module.

10. A building block production line assembling method for using the building block production line as claimed in any one of claims 1 to 9, characterized in that: the method comprises the following steps:

s2, selecting the number, combination sequence and combination mode of the feeding station (1), the assembling station (2) and the transferring module (4) according to the layout diagram of the step S1 and the requirements of product production;

s3, respectively connecting the conveying line (3), the feeding station (1), the blanking station (5), the assembling station (2) and the transferring module (4) with a main control module in a communication manner, and connecting with an external power supply;

s4, mounting an external assembly mechanism on each assembly station (2), and electrically connecting the external assembly mechanism with the power module and the communication module on the assembly stations (2) to obtain a preliminary test production line;

and S5, debugging and calibrating each station to produce products.