CN213258668U - Industrial 4.0 intelligent manufacturing system training platform - Google Patents

Abstract

The utility model relates to a real platform of instructing of 4.0 intelligent manufacturing system of industry, which comprises a frame, the bottom fixedly connected with end support of frame, and the top of end support installs the loose wheel, the positive terminal surface of frame is connected with the containing box, and the top fixed mounting of frame has the display screen, the top of display screen is connected with the operation screen, and the bottom of display screen installs the baffle, the top of frame is connected with elevating system. The utility model discloses a lifting mechanism has been set up, the movable block is through first spout, first slider slides, make the fly leaf rotate through first loose axle, thereby support the roof, under the rotation effect of pivot, make the connecting rod rotate through the rolling ball, thereby make the connecting rod pass through the connecting axle and drive the action bars activity, thereby make the action bars go up and down in the support column inboard, through such setting, make the action bars can discern the product through first sensor, thereby make the device can carry out the automatic rising after discerning the product.

Description

Industrial 4.0 intelligent manufacturing system training platform

Technical Field

The utility model relates to a real platform of instructing of industry 4.0 intelligence manufacturing system belongs to industrial robot technical field.

Background

Industrial robots are multi-joint manipulators widely used in the industrial field or multi-degree-of-freedom machine devices, have a certain degree of automation, can realize various industrial processing and manufacturing functions by means of self power energy and control capability, and are widely applied to various industrial fields such as electronics, logistics, chemical industry and the like.

The existing industrial robot can only be operated according to a single technology when in use, and can not carry out horizontal, longitudinal and end-to-end high integration on the industrial robot, so that the industrial robot has a single function and cannot intelligently identify products, and the design, production and manufacturing and intelligent storage can not be closely associated together, thereby greatly reducing the production efficiency of the industrial robot, and providing an industrial 4.0 intelligent manufacturing system training platform for the purpose.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem who solves overcomes current defect, provides an industry 4.0 intelligent manufacturing system real standard platform, the utility model discloses simple structure, convenient to use can realize the production of flexibility, individuality, customization, turns to the individuality from large-scale production with the production form, can effectively solve the problem in the background art.

In order to solve the technical problem, the utility model provides a following technical scheme:

a practical training platform of an industrial 4.0 intelligent manufacturing system comprises a rack, wherein a bottom support is fixedly connected to the bottom end of the rack, a movable wheel is mounted at the top of the bottom support, a containing box is connected to the positive end face of the rack, a display screen is fixedly mounted at the top of the rack, an operation screen is connected to the top of the display screen, a baffle is mounted at the bottom of the display screen, a lifting mechanism is connected to the top end of the rack, a supporting column is arranged inside the lifting mechanism, a first sliding groove is formed in one side of the supporting column, a first sliding block is connected to the other side of the first sliding groove in a sliding mode, a movable block is fixedly mounted at the other side of the first sliding block, a first movable shaft is connected to the inner side of the movable block, a movable plate is mounted at the other side of the first movable shaft, a second movable shaft is connected to the top of, the external connection of fixed block has the pivot, and the positive terminal surface of pivot installs the rolling ball, the bottom fixedly connected with connecting rod of rolling ball, and the bottom of connecting rod installs the connecting axle, the bottom of connecting axle is connected with first sensor, and the bottom of first sensor installs the action bars, one side of baffle is connected with discharge mechanism, and the opposite side of baffle installs grinding machanism.

Furthermore, the movable block forms a sliding structure with the support column through the first sliding block, the first sliding groove, and the movable block forms a movable structure with the movable plate through the first movable shaft.

Further, the discharging mechanism is internally provided with a vertical plate, a connecting plate is mounted at the top of the vertical plate, one side of the connecting plate is connected with a first rotating shaft, a first gear is mounted on the outer wall of the first rotating shaft, a belt is sleeved on the outer wall of the first gear, a second gear is mounted on the inner wall of the bottom of the belt, a second rotating shaft is connected inside the second gear, and a supporting block is fixedly mounted on the outer wall of the belt.

Further, the first gear and the second gear form a transmission structure through a belt, and the first gear and the second gear are symmetrical about a transverse axis of the belt.

Further, the inside of grinding machanism is including the stand, and the inboard fixed mounting of stand has the diaphragm, the fluting has been seted up to the inside of diaphragm, and grooved inner wall slidable mounting has the slide axle, the internal connection of slide axle has the bull stick, and the rear end face of bull stick installs the curb plate, the bottom fixedly connected with second slider of curb plate, and the bottom slidable mounting of second slider has the second spout, the rear end face of bull stick is connected with the mill.

Furthermore, the grinding disc and the side plate form a rotating structure through the rotating rod, and the side plate and the rack form a sliding structure through the second sliding block and the second sliding groove.

The utility model discloses a technological effect and advantage:

1. the utility model discloses a lifting mechanism has been set up, the movable block is through first spout, first slider slides, make the fly leaf rotate through first loose axle, thereby support the roof, under the rotation effect of pivot, make the connecting rod rotate through the rolling ball, thereby make the connecting rod pass through the connecting axle and drive the action bars activity, thereby make the action bars go up and down in the support column inboard, through such setting, make the action bars can discern the product through first sensor, thereby make the device can carry out the automatic rising after discerning the product.

2. The utility model discloses a discharge mechanism has been set up, through first gear revolve, under the transmission of belt, make the belt pass through second gear revolve to make the belt move about through the product that the supporting shoe drive was processed, thereby make the product can go up and down the ejection of compact through the belt, through such setting, can make the device realize high integration, and through the sensor, make and realize the interconnection between the machine.

3. The utility model discloses a grinding machanism has been set up, through the activity of control robot, make the curb plate pass through the second slider, the accurate discernment product of second spout, thereby make the dish of polishing rotate through the bull stick and polish the product, thereby make the robot can carry out individualized production, realize horizontal, vertical and end-to-end high integration, with the design, the manufacturing, the inseparable contact of intelligent storage together, realize the production of flexibility, individuality, customization, turn to the individuality from large-scale production with the production form, realize industry 4.0.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Fig. 1 is a front view of the present invention;

fig. 2 is a schematic structural view of the lifting mechanism of the present invention;

FIG. 3 is a schematic structural view of the discharging mechanism of the present invention;

fig. 4 is a schematic structural view of the polishing mechanism of the present invention.

Reference numbers in the figures: 1. a frame; 2. bottom bracing; 3. a movable wheel; 4. a storage box; 5. a display screen; 6. an operation screen; 7. a baffle plate; 8. a lifting mechanism; 801. a support pillar; 802. a first chute; 803. a first slider; 804. A movable block; 805. a first movable shaft; 806. a movable plate; 807. a second movable shaft; 808. a fixed block; 809. a rotating shaft; 810. rotating the ball; 811. a connecting rod; 812. a connecting shaft; 813. a first sensor; 814. An operating lever; 9. a discharging mechanism; 901. a vertical plate; 902. a connecting plate; 903. a first rotating shaft; 904. a first gear; 905. a belt; 906. a second gear; 907. a second rotating shaft; 908. a support block; 10. a polishing mechanism; 1001. a column; 1002. a transverse plate; 1003. grooving; 1004. a slide shaft; 1005. a rotating rod; 1006. A side plate; 1007. a second slider; 1008. a second chute; 1009. a grinding disc.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

As shown in fig. 1-4, a practical training platform of an industrial 4.0 intelligent manufacturing system includes a frame 1, a bottom support 2, a movable wheel 3, a storage box 4, a display screen 5, an operation screen 6, a baffle 7, a lifting mechanism 8, a support column 801, a first chute 802, a first slider 803, a movable block 804, a first movable shaft 805, a movable plate 806, a second movable shaft 807, a fixed block 808, a rotating shaft 809, a rotating ball 810, a connecting rod 811, a connecting shaft 812, a first sensor 813, an operating rod 814, a discharging mechanism 9, a vertical plate 901, a connecting plate 902, a first rotating shaft 903, a first gear 904, a belt 905, a second gear 906, a second rotating shaft 907, a supporting block, a grinding mechanism 10, a vertical column 1001, a transverse plate 1002, a slot 1003, a sliding shaft 1004, a rotating rod 1005, a side plate 1006, a second slider 1007, a second chute 1008 and a grinding plate 1009, wherein the bottom end of the frame 1 is fixedly connected with the bottom support 2, the top of the bottom support 2 is provided with a movable wheel 3, the positive end surface of the frame 1 is connected with a containing box 4, the top of the frame 1 is fixedly provided with a display screen 5, the top of the display screen 5 is connected with an operation screen 6, the bottom of the display screen 5 is provided with a baffle 7, the top of the frame 1 is connected with a lifting mechanism 8, the lifting mechanism 8 comprises a supporting column 801 inside, one side of the supporting column 801 is provided with a first chute 802, the other side of the first chute 802 is connected with a first sliding block 803 in a sliding manner, the other side of the first sliding block 803 is fixedly provided with a movable block 804, the inner side of the movable block 804 is connected with a first movable shaft 805, the other side of the first movable shaft 805 is provided with a movable plate 806, the top of the movable plate 806 is connected with a second movable shaft 807, the rear end surface of the second movable shaft is provided with a fixed block 808, the outer part of the fixed, the bottom end of rotating ball 810 is fixedly connected with connecting rod 811, and connecting axle 812 is installed to the bottom of connecting rod 811, and the bottom of connecting axle 812 is connected with first sensor 813, and operating lever 814 is installed to the bottom of first sensor 813, and one side of baffle 7 is connected with discharge mechanism 9, and polishing mechanism 10 is installed to the opposite side of baffle 7, under the rotation effect of pivot 809, makes connecting rod 811 rotate through rotating ball 810 to make connecting rod 811 drive operating lever 814 through connecting axle 812 and move.

As shown in fig. 2, the movable block 804 forms a sliding structure through the first sliding block 803, the first sliding groove 802 and the supporting column 801, the movable block 804 forms a movable structure through the first movable shaft 805 and the movable plate 806, the operating rod 814 can identify a product through the first sensor 813, so that the device can automatically lift and lower after identifying the product, and the robot can realize intelligent network interconnection through the ubiquitous sensor.

As shown in fig. 3, the inside of discharging mechanism 9 includes a vertical plate 901, and a connecting plate 902 is installed at the top of vertical plate 901, one side of connecting plate 902 is connected with a first rotating shaft 903, and a first gear 904 is installed on the outer wall of first rotating shaft 903, an outer wall cover of first gear 904 is provided with a belt 905, and a second gear 906 is installed on the bottom inner wall of belt 905, the inside of second gear 906 is connected with a second rotating shaft 907, a supporting block 908 is fixedly installed on the outer wall of belt 905, under the action of supporting block 908, the belt 905 can discharge different types of products.

As shown in fig. 3, the first gear 904 and the second gear 906 form a transmission structure, the first gear 904 and the second gear 906 are symmetrical about a transverse axis of the belt 905, and under the transmission action of the belt 905, the belt 905 is rotated through the second gear 906, so that the belt 905 drives the processed product to move through the supporting block 908, and the product can be lifted and lowered through the belt 905 to discharge.

As shown in fig. 4, the inside of the polishing mechanism 10 includes a column 1001, a transverse plate 1002 is fixedly mounted on the inner side of the column 1001, a slot 1003 is formed in the transverse plate 1002, a sliding shaft 1004 is slidably mounted on the inner wall of the slot 1003, a rotating rod 1005 is connected to the inside of the sliding shaft 1004, a side plate 1006 is mounted on the rear end surface of the rotating rod 1005, a second slider 1007 is fixedly connected to the bottom end of the side plate 1006, a second sliding groove 1008 is slidably mounted on the bottom end of the second slider 1007, a polishing disc 1009 is connected to the rear end surface of the rotating rod 1005, and a product is polished at the bottom by the polishing disc 1009, so that the use functions of the robot can be increased, and personalized development is.

As shown in fig. 4, the grinding disc 1009 forms a rotating structure through the rotating rod 1005 and the side plate 1006, the side plate 1006 forms a sliding structure through the second slider 1007 and the second sliding slot 1008 and the machine frame 1, and the side plate 1006 accurately identifies a product through the second slider 1007 and the second sliding slot 1008, so that the grinding disc 1009 rotates through the rotating rod 1005 to grind the product.

For the convenience of understanding the technical solution of the present invention, the following detailed description is made on the working principle or the operation mode of the present invention in the practical process.

The utility model discloses the theory of operation: when the device is used, the movable block 804 slides through the first sliding groove 802 and the first sliding block 803, so that the movable plate 806 rotates through the first movable shaft 805 to support the top plate, under the rotating action of the rotating shaft 809, the connecting rod 811 rotates through the rotating ball 810, so that the connecting rod 811 drives the operating rod 814 to move through the connecting shaft 812, so that the operating rod 814 ascends and descends on the inner side of the supporting column 801, rotates through the first gear 904, under the transmission action of the belt 905, the belt 905 rotates through the second gear 906, so that the belt 905 drives the processed product to move through the supporting block 908, so that the product can ascend and descend through the belt 905 to discharge, the side plate 1006 identifies the product accurately through the second sliding block 1007 and the second sliding groove 1008, so that the 1009 grinding disc grinds the product through the rotating rod 1005 rotation, so that the robot can perform personalized production, the high integration of horizontal, longitudinal and end-to-end is realized, the design, production and manufacture and intelligent storage are closely linked together, the flexible, personalized and customized production is realized, the production form is changed from large-scale production to personalization, the industry is realized by 4.0, and the working principle of the device is completed.

The above is the preferred embodiment of the present invention, and the technical personnel in the field of the present invention can also change and modify the above embodiment, therefore, the present invention is not limited to the above specific embodiment, and any obvious improvement, replacement or modification made by the technical personnel in the field on the basis of the present invention all belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a real platform of instructing of industry 4.0 intelligent manufacturing system, includes frame (1), its characterized in that: the bottom end of the rack (1) is fixedly connected with a bottom support (2), the top of the bottom support (2) is provided with a movable wheel (3), the positive end face of the rack (1) is connected with a containing box (4), the top of the rack (1) is fixedly provided with a display screen (5), the top of the display screen (5) is connected with an operation screen (6), the bottom of the display screen (5) is provided with a baffle (7), the top end of the rack (1) is connected with a lifting mechanism (8), the inside of the lifting mechanism (8) comprises a support column (801), one side of the support column (801) is provided with a first chute (802), the other side of the first chute (802) is slidably connected with a first sliding block (803), the other side of the first sliding block (803) is fixedly provided with a movable block (804), and the inner side of the movable block (804) is connected with a first movable shaft (805), and fly leaf (806) are installed to the opposite side of first loose axle (805), the top of fly leaf (806) is connected with second loose axle (807), and fixed block (808) are installed to the rear end face of second loose axle (807), the external connection of fixed block (808) has pivot (809), and the positive terminal surface of pivot (809) installs rolling ball (810), the bottom fixedly connected with connecting rod (811) of rolling ball (810), and connecting axle (812) are installed to the bottom of connecting rod (811), the bottom of connecting axle (812) is connected with first sensor (813), and operating lever (814) are installed to the bottom of first sensor (813), one side of baffle (7) is connected with discharge mechanism (9), and grinding machanism (10) are installed to the opposite side of baffle (7).

2. The industrial 4.0 intelligent manufacturing system training platform of claim 1, wherein: the movable block (804) forms a sliding structure with the support column (801) through the first sliding block (803), the first sliding groove (802), and the movable block (804) forms a movable structure with the movable plate (806) through the first movable shaft (805).

3. The industrial 4.0 intelligent manufacturing system training platform of claim 1, wherein: the inside of discharge mechanism (9) is including riser (901), and connecting plate (902) are installed at the top of riser (901), one side of connecting plate (902) is connected with first axis of rotation (903), and first gear (904) are installed to the outer wall of first axis of rotation (903), the outer wall cover of first gear (904) is equipped with belt (905), and second gear (906) are installed to the bottom inner wall of belt (905), the internal connection of second gear (906) has second axis of rotation (907), the outer wall fixed mounting of belt (905) has supporting shoe (908).

4. The industrial 4.0 intelligent manufacturing system training platform of claim 3, wherein: the first gear (904) and the second gear (906) form a transmission structure through a belt (905), and the first gear (904) and the second gear (906) are symmetrical about the transverse axis of the belt (905).

5. The industrial 4.0 intelligent manufacturing system training platform of claim 1, wherein: the inside of grinding machanism (10) is including stand (1001), and the inboard fixed mounting of stand (1001) has diaphragm (1002), fluting (1003) has been seted up to the inside of diaphragm (1002), and the inner wall slidable mounting of fluting (1003) has slide shaft (1004), the internal connection of slide shaft (1004) has bull stick (1005), and the rear end face of bull stick (1005) installs curb plate (1006), the bottom fixedly connected with second slider (1007) of curb plate (1006), and the bottom slidable mounting of second slider (1007) has second spout (1008), the rear end face of bull stick (1005) is connected with makes mill dish (1009).

6. The industrial 4.0 intelligent manufacturing system training platform of claim 5, wherein: the grinding disc (1009) and the side plate (1006) form a rotating structure through the rotating rod (1005), and the side plate (1006) and the rack (1) form a sliding structure through the second sliding block (1007), the second sliding groove (1008).

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