CN213998459U - A bearing intelligence material feeding unit for production of a roller section of thick bamboo - Google Patents

Abstract

The utility model provides a bearing intelligence material feeding unit for production of a roller section of thick bamboo, snatch part, feed transmission part and intelligent control part including main body frame, vertical displacement part, level. The main body frame comprises a base, an access frame, a transmission frame and a grabbing frame; the base is a cuboid hollow container I, and the base is sequentially provided with a storage rack and a transmission rack from left to right; the access frame is a rectangular container I, and a front side plate of the rectangular container I is provided with a rectangular through hole I and a rectangular through hole II; the inner wall of the access frame is provided with a first square frame, and the first square frame is positioned between the first rectangular through hole and the second rectangular through hole; the top end of the access frame is provided with a limiting pressure lever, and the limiting pressure lever comprises a telescopic rod and an n-shaped clamp. The automatic feeding device can realize that the bearings orderly enter the assembly space in the process of producing the roller shaft barrel, automatically feed the bearings required for follow-up, obviously reduce the labor intensity, improve the working efficiency and improve the space environment.

Description

A bearing intelligence material feeding unit for production of a roller section of thick bamboo

Technical Field

The utility model relates to a roller field especially relates to a bearing intelligence material feeding unit for roller production.

Background

The roller shaft is also called as a roller, and refers to a cylindrical rotatable object in a machine, and a power source (such as a motor) is commonly used in the machine to drive the roller shaft to drive other materials to advance or utilize the roller shaft to generate pressure to process the materials. The roller barrel structure mainly comprises a roller column, a sleeve and a bearing, three components need to be assembled in order during installation, the traditional assembling method occupies a large amount of space, manual work is adopted during bearing taking, the working progress is seriously affected, and the labor intensity is high.

SUMMERY OF THE UTILITY MODEL

The utility model provides a bearing intelligence material feeding unit for production of a roller section of thick bamboo, when having solved traditional roller section of thick bamboo equipment, it is big that there is intensity of labour in the artifical bearing of taking, seriously influences packaging efficiency scheduling problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an intelligent bearing feeding device for roller barrel production comprises a main body frame, a vertical displacement part, a horizontal grabbing part, a feeding and conveying part and an intelligent control part.

The main body frame comprises a base, an access frame, a transmission frame and a grabbing frame.

The base is cuboid hollow container one, sets gradually access frame and transmission frame from the left hand right side on the base.

The access frame is a rectangular container I, and a front side plate of the rectangular container I is provided with a rectangular through hole I and a rectangular through hole II; the inner wall of the access frame is provided with a first square frame, and the first square frame is positioned between the first rectangular through hole and the second rectangular through hole; the top end of the access frame is provided with a limiting pressure lever, and the limiting pressure lever comprises a telescopic rod and an n-shaped clamp.

The transmission frame is a rectangular container II, a front side plate of the rectangular container II is provided with a rectangular through hole III, a left side plate of the rectangular container II is provided with a U-shaped open slot and a C-shaped frame, and the U-shaped open slot is positioned on the left side of the C-shaped frame.

The grabbing frame is arranged on the base and comprises four supporting columns and a 'back' shaped frame, the bottom ends of the four supporting columns are distributed on the base in a rectangular mode, and the top ends of the four supporting columns are arranged on the lower bottom face of the 'back' shaped frame.

The vertical displacement part comprises a material storage limiting mechanism and a material storage positioning mechanism.

The material storage limiting mechanism comprises an electric lifting platform, a limiting plate and an air pump.

The electric lifting platform is arranged on a lower bottom plate of the first rectangular container, the movable end of the electric lifting platform is arranged on a lower bottom surface of the limiting plate, a plurality of limiting columns are arranged on the limiting plate at equal intervals, the limiting columns are cylindrical hollow containers, two first circular through holes are symmetrically formed in the upper ends of the side walls of the limiting columns, and two second circular through holes are formed in the lower ends of the side walls of the limiting columns.

The air pump sets up on the lower plate of rectangle container one, and the air feed section of air pump sets up in gas-supply pipe one end through a solenoid valve one, and the gas-supply pipe other end passes through circular through-hole two through the breeches pipe and sets up on the flexible pipe of miniature atmospheric pressure, and the flexible pipe exhaust end of miniature atmospheric pressure sets up solenoid valve two, and the flexible pipe of miniature atmospheric pressure sets up in spacing post, and the flexible end sliding connection of the flexible pipe of miniature atmospheric pressure sets up the buffer block in circular through-hole one, and the flexible end of miniature atmospheric pressure is served and is set up the non-skid groove, and the buffer block outer wall sets up the non-skid groove.

The material storage positioning mechanism comprises a second push rod motor and a first movable plate, the second four push rod motors are arranged on a lower bottom plate of the first rectangular container in a rectangular mode, movable ends of the second push rod motors are arranged on a lower bottom surface of the first movable plate, the first movable plate is a rectangular plate, a plurality of rectangular through holes are formed in the first movable plate at equal intervals, the size of the first movable plate is smaller than that of an inner frame of the first square frame, and the first movable plate is located below the first square frame.

The horizontal gripping section includes a moving mechanism and a gripping mechanism.

The moving mechanism comprises a double-rotor linear motor and a hanging frame. The double-rotor linear motor is arranged on the upper bottom surface of the frame shaped like a Chinese character 'hui', the rotors of the double-rotor linear motor are respectively provided with a hanging frame, the hanging frame is a rectangular frame, and the rectangular frame is connected to the frame shaped like the Chinese character 'hui'.

The grabbing mechanism comprises an electromagnetic adsorption plate and a positioning protection plate.

The electromagnetic adsorption plate is arranged on the 'return' shaped frame through a strip-shaped mounting frame, the electromagnetic adsorption plate is a strip-shaped plate, a plurality of circular grooves are formed in the inner side of the strip-shaped plate at equal intervals, electromagnets are arranged in the circular grooves, and the lower bottom surface of the strip-shaped plate is provided with buffering thin cotton.

The positioning protection plate is arranged on the bar-shaped mounting frame through the L-shaped slide rail, the positioning protection plate is positioned on two sides of the electromagnetic adsorption plate, a positioning screw hole is formed in the positioning protection plate, and an adjusting nut is connected with a bolt in the positioning screw hole.

The feeding and conveying part comprises a chain type conveying belt device and a roller barrel. The chain type transmission belt device is obliquely arranged on the transmission frame, the right end of the chain type transmission belt device is positioned on one side of the U-shaped open slot, and the roller shafts are arranged in the U-shaped open slot and the C-shaped frame at equal intervals.

The intelligent control part comprises a residual material monitoring mechanism, an intelligent reminding mechanism and a power control mechanism.

The excess material monitoring mechanism comprises a plurality of C-shaped spring pieces and a first distance sensor; the middle part of the C-shaped spring piece is provided with a fourth circular through hole, the C-shaped spring piece and the distance sensor are arranged on the inner side wall of the C-shaped frame at equal intervals, the distance sensor I is positioned in the C-shaped spring piece, and the detection head of the distance sensor I is opposite to the fourth circular through hole.

The intelligent reminding mechanism comprises a second distance sensor, a voice module, a loudspeaker, a microprocessor and a color-variable light-emitting diode. The distance sensor II, the voice module and the microprocessor are arranged on a lower bottom plate of the rectangular container I, and the loudspeaker and the color-changeable light-emitting diode are arranged on a front side plate of the rectangular container I.

The power control mechanism comprises a first touch sensor module and a second touch sensor module, and the first touch sensor module and the second touch sensor module are both arranged on a front side plate of the first rectangular container.

Furthermore, transparent observation protective doors are additionally arranged on the rectangular through holes I and the rectangular through holes II.

Furthermore, a storage bin is additionally arranged in the rectangular through hole III.

Compared with the prior art, the method has the beneficial effects that:

the utility model discloses in, snatch part, feed transmission part and intelligent control part's integration setting through main body frame, vertical displacement part, level, can realize at production roller section of thick bamboo in-process, the bearing gets into the equipment space in order, and follow-up required bearing is shown to reduce intensity of labour to automatic the supplyes, improves work efficiency, improves space environment.

Drawings

FIG. 1 is a schematic view of the front view of the partial cross-section structure of the present invention;

fig. 2 is a schematic view of the top view of the partial cross-sectional structure of the present invention.

In the figure: 101. the automatic lifting device comprises a base, 102, an access frame, 103, a transmission frame, 104, an expansion rod, 105, an n-shaped clamp, 106, a U-shaped open slot, 107, a C-shaped frame, 108, a support, 109, a square frame I, 201, an electric lifting platform, 202, a limiting plate, 203, a limiting column, 204, a push rod motor II, 205, a movable plate I, 301, a double-rotor linear motor, 302, a hanging frame, 303, an electromagnetic adsorption plate, 304, a positioning protection plate, 401, a chain type transmission belt device, 402, a roller shaft cylinder and 501, a C-shaped spring plate.

Detailed Description

The technical solution in the embodiments of the present invention is clearly and completely described below with reference to the drawings in the embodiments of the present invention.

Embodiment 1, referring to fig. 1-2, an intelligent bearing feeding device for roller barrel production comprises a main body frame, a vertical displacement part, a horizontal grabbing part, a feeding conveying part and an intelligent control part.

The main body frame includes a base 101, an access shelf 102, a transfer shelf 103, and a gripping shelf.

The base 101 is a cuboid hollow container I, and the access frame 102 and the transmission frame 103 are sequentially arranged on the base 101 from left to right.

The access frame 102 is a rectangular container I, and a rectangular through hole I and a rectangular through hole II are formed in the front side plate of the rectangular container I; the inner wall of the access frame 102 is provided with a first square frame 110, and the first square frame 110 is positioned between the first rectangular through hole and the second rectangular through hole; the top end of the access frame 102 is provided with a limit pressure lever, and the limit pressure lever comprises a telescopic rod 104 and an n-shaped clamp 105.

The transmission frame 103 is a rectangular container II, a rectangular through hole III is formed in the front side plate of the rectangular container II, a U-shaped open slot 106 and a C-shaped frame 107 are formed in the left side plate of the rectangular container II, and the U-shaped open slot 106 is located on the left side of the C-shaped frame 107.

The grabbing frame is arranged on the base 101 and comprises four supporting columns 108 and a 'back' shaped frame 109, the bottom ends of the four supporting columns 108 are distributed on the base 101 in a rectangular mode, and the top ends of the four supporting columns 108 are arranged on the lower bottom face of the 'back' shaped frame 109.

The vertical displacement part comprises a material storage limiting mechanism and a material storage positioning mechanism.

The material storage limiting mechanism comprises an electric lifting platform 201, a limiting plate 202 and an air pump.

The electric lifting platform 201 is arranged on a lower bottom plate of the first rectangular container, the movable end of the electric lifting platform 201 is arranged on a lower bottom surface of the limiting plate 202, a plurality of limiting columns 203 are equidistantly arranged on the limiting plate 202, the limiting columns 203 are cylindrical hollow containers, the upper ends of the side walls of the limiting columns 203 are symmetrically provided with the first two circular through holes, and the lower ends of the side walls of the limiting columns 203 are provided with the second circular through holes.

The air pump sets up on the lower plate of rectangle container one, and the air feed section of air pump sets up in gas-supply pipe one end through a solenoid valve one, and the gas-supply pipe other end passes through circular through-hole two through the breeches pipe and sets up on the flexible pipe of miniature atmospheric pressure, and the flexible pipe exhaust section of miniature atmospheric pressure sets up solenoid valve two, and the flexible pipe of miniature atmospheric pressure sets up in spacing post 203, and the flexible end sliding connection of the flexible pipe of miniature atmospheric pressure sets up the buffer block in circular through-hole one, sets up the non-skid groove on the flexible end of miniature atmospheric pressure, and the buffer block outer wall sets up the non-skid groove.

The material storage positioning mechanism comprises two push rod motors 204 and a first movable plate 205, the two push rod motors 204 are arranged on a lower bottom plate of the first rectangular container in a rectangular shape, movable ends of the two push rod motors 204 are arranged on the lower bottom surface of the first movable plate 205, the first movable plate 205 is a rectangular plate, a plurality of rectangular through holes are formed in the first movable plate 205 at equal intervals, the size of the first movable plate 205 is smaller than that of an inner frame of the first square frame 110, and the first movable plate 205 is located below the first square frame 110.

The horizontal gripping section includes a moving mechanism and a gripping mechanism.

The moving mechanism includes a double-rotor linear motor 301 and a mounting bracket 302. The double-rotor linear motor 301 is arranged on the upper bottom surface of the square frame 109, a hanging frame 302 is arranged on each rotor of the double-rotor linear motor 301, the hanging frame 302 is a rectangular frame, and the rectangular frame is connected to the square frame 109 in a sliding mode.

The grabbing mechanism comprises an electromagnetic adsorption plate 303 and a positioning protection plate 304.

Electromagnetic adsorption plate 303 sets up on "returning" font frame 109 through a bar mounting bracket, and electromagnetic adsorption plate 303 is the bar board, and the inboard equidistance of bar board sets up the circular recess of a plurality of, sets up the electro-magnet in the circular recess, and the bottom surface sets up the buffering thin cotton under the bar board.

The positioning protection plate 304 is arranged on the bar-shaped mounting frame through an L-shaped sliding rail, the positioning protection plate 304 is located on two sides of the electromagnetic adsorption plate 303, a positioning screw hole is formed in the positioning protection plate 304, and an adjusting nut is connected with a bolt in the positioning screw hole.

The feed transport section comprises a chain conveyor belt arrangement 401 and a roller drum 402. The chain type conveying belt device 401 is obliquely arranged on the conveying frame 103, the right end of the chain type conveying belt device 401 is positioned on one side of the U-shaped open slot 106, and the roller barrels 402 are arranged in the U-shaped open slot 106 and the C-shaped frame 107 at equal intervals.

The intelligent control part comprises a residual material monitoring mechanism, an intelligent reminding mechanism and a power control mechanism.

The excess material monitoring mechanism comprises a plurality of C-shaped spring pieces 501 and a first distance sensor; the middle of the C-shaped spring piece 501 is provided with a fourth circular through hole, the C-shaped spring piece 501 and the distance sensor I are arranged on the inner side wall of the C-shaped frame 107 at equal intervals, the distance sensor I is located in the C-shaped spring piece 501, and the detection head of the distance sensor I is opposite to the fourth circular through hole.

The intelligent reminding mechanism comprises a second distance sensor, a voice module, a loudspeaker, a microprocessor and a color-variable light-emitting diode. The distance sensor II, the voice module and the microprocessor are arranged on a lower bottom plate of the rectangular container I, and the loudspeaker and the color-changeable light-emitting diode are arranged on a front side plate of the rectangular container I.

The power control mechanism comprises a first touch sensor module and a second touch sensor module, and the first touch sensor module and the second touch sensor module are both arranged on a front side plate of the first rectangular container.

The working principle and the using method are as follows:

presetting: the device of the utility model is powered and debugged;

feeding: orderly placing the roll shaft bearings into the feeding frame;

the material loading frame is a rectangle standpipe, and rectangle standpipe inside wall lower extreme equidistance sets up eight triangle-shaped straight boards, and a square bottom plate sliding connection sets up the rectangular shape through-hole of a plurality of and "ten" font locator card on the square bottom plate on the rectangle standpipe inside wall.

The feeding frame is pushed into the square frame 110 from the rectangular through hole I.

Starting: a first touch sensor module is touched; the microprocessor outputs signals to the electric lifting platform 201, the air pump, the first electromagnetic valve and the second electromagnetic valve, the electric lifting platform 201 moves upwards, the first electromagnetic valve is started, and the micro air pressure telescopic pipe on the limiting column 203 is stretched to complete fixing.

Grabbing: the microprocessor outputs signals to the electromagnet and the double-rotor linear motor 301 in a delayed mode, the electromagnet starts a grabbing roller shaft bearing, a rotor of the double-rotor linear motor 301 moves to the right above the chain type transmission belt device 401, the electromagnet is closed in a delayed mode, and the roller shaft bearing falls onto the chain type transmission belt device 401; then, the mover of the dual-mover linear motor 301 moves left to a position one unit distance away from the left side of the initial position; the foregoing operations are then repeated.

Entering a fine adjustment period after the whole layer is grabbed, wherein the fine adjustment period specifically comprises the following steps:

the microprocessor outputs signals to a second push rod motor 204, an air pump, a first electromagnetic valve and a second electromagnetic valve, the second electromagnetic valve starts the miniature air pressure telescopic pipe on the limiting column 203 to reset, the second push rod motor 204 moves upwards for a unit distance, the first electromagnetic valve starts, the miniature air pressure telescopic pipe on the limiting column 203 extends, and the rest roller shaft bearing is fixed.

And then, continuously repeating the grabbing operation.

Regulating and controlling: the chain type conveying belt device 401 conveys the roller shaft bearings to the roller shaft barrel 402, and when the distance sensors in the spring sheets sense the roller shaft bearings, the device enters a pause stage; when the distance sensors in the spring pieces do not sense the roller shaft bearings, the microprocessor continues the feeding process. And the whole feeding is completed by reciprocating in this way.

When the second push rod motor 204 moves up to the highest point, the microprocessor outputs a signal to the voice module, and the speaker reminds the feeding. When the wheel is grabbed, all the devices are reset, and the color-changeable light-emitting diodes display green.

Embodiment 2, on the basis of embodiment 1, add transparent observation guard gate on rectangle through-hole one and rectangle through-hole two, increase factor of safety.

In embodiment 3, a storage bin is additionally arranged in the rectangular through hole III on the basis of embodiment 1, so that the space utilization rate is increased.

Above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the design of the present invention, equivalent replacement or change should be covered within the protection scope of the present invention.

The utility model discloses the part that does not relate to all adopts prior art to realize.

Claims (8)

1. The utility model provides a bearing intelligence material feeding unit for production of roller section of thick bamboo which characterized in that:

comprises a main body frame, a vertical displacement part, a horizontal grabbing part, a feeding and conveying part and an intelligent control part;

the main body frame comprises a base, an access frame, a transmission frame and a grabbing frame;

the vertical displacement part comprises a material storage limiting mechanism and a material storage positioning mechanism;

the horizontal grabbing part comprises a moving mechanism and a grabbing mechanism;

the moving mechanism comprises a double-rotor linear motor and a mounting frame; the double-rotor linear motor is arranged on the upper bottom surface of the frame shaped like a Chinese character 'hui', a hanging frame is arranged on a rotor of the double-rotor linear motor, the hanging frame is a rectangular frame, and the rectangular frame is connected to the frame shaped like the Chinese character 'hui' in a sliding manner;

the grabbing mechanism comprises an electromagnetic adsorption plate and a positioning protection plate;

the electromagnetic adsorption plate is arranged on the frame in the shape of the Chinese character 'hui' through a strip-shaped mounting frame, the electromagnetic adsorption plate is a strip-shaped plate, a circular groove is formed in the inner side of the strip-shaped plate, an electromagnet is arranged in the circular groove, and buffer cotton is arranged on the lower bottom surface of the strip-shaped plate;

the positioning protection plate is arranged on the strip-shaped mounting frame through an L-shaped sliding rail, the positioning protection plate is positioned on two sides of the electromagnetic adsorption plate, positioning screw holes are formed in the positioning protection plate, and adjusting nuts are connected with bolts in the positioning screw holes;

the feeding and conveying part comprises a chain type conveying belt device and a roller barrel.

2. The intelligent bearing feeding device for the production of the roller shaft barrel as claimed in claim 1, wherein:

the base is a cuboid hollow container I, and a storage rack and a transmission rack are arranged on the base;

the access frame is a rectangular container I, and a front side plate of the rectangular container I is provided with a rectangular through hole I and a rectangular through hole II; the inner wall of the access frame is provided with a first square frame, and the first square frame is positioned between the first rectangular through hole and the second rectangular through hole; the top end of the access frame is provided with a limiting pressure rod, and the limiting pressure rod comprises a telescopic rod and an n-shaped clamp;

the conveying frame is a rectangular container II, a front side plate of the rectangular container II is provided with a rectangular through hole III, a left side plate of the rectangular container II is provided with a U-shaped open slot and a C-shaped frame, and the U-shaped open slot is positioned on the left side of the C-shaped frame;

set up on the base and snatch the frame, snatch the frame and include pillar and "return" font frame, the bottom of pillar is the rectangle and distributes on the base, and the top of pillar sets up on the lower bottom surface of "returning" font frame.

3. The intelligent bearing feeding device for the production of the roller shaft barrel as claimed in claim 1, wherein:

the material storage limiting mechanism comprises an electric lifting platform, a limiting plate and an air pump;

the electric lifting platform is arranged on a lower bottom plate of the rectangular container I, the movable end of the electric lifting platform is arranged on the lower bottom surface of the limiting plate, a limiting column is arranged on the limiting plate, the limiting column is a cylindrical hollow container, a first circular through hole is formed in the upper end of the side wall of the limiting column, and a second circular through hole is formed in the lower end of the side wall of the limiting column;

the air pump sets up on the lower plate of rectangle container one, and the air feed end of air pump sets up in gas-supply pipe one end through a solenoid valve one, and the gas-supply pipe other end passes through circular through-hole two through the breeches pipe and sets up on the flexible pipe of miniature atmospheric pressure, and the flexible pipe exhaust end of miniature atmospheric pressure sets up solenoid valve two, and the flexible pipe of miniature atmospheric pressure sets up in spacing post, and the flexible end sliding connection of the flexible pipe of miniature atmospheric pressure sets up the buffer block in circular through-hole one, and the flexible end of miniature atmospheric pressure sets up the non-skid groove.

4. The intelligent bearing feeding device for the production of the roller shaft barrel as claimed in claim 1, wherein:

the material storage positioning mechanism comprises a push rod motor II and a movable plate I, the push rod motor II is arranged on a lower bottom plate of the rectangular container I, the movable end of the push rod motor II is arranged on a lower bottom surface of the movable plate I, the movable plate I is a rectangular plate, a plurality of rectangular through holes are formed in the movable plate I, the size of the movable plate I is smaller than that of an inner frame of the square frame I, and the movable plate I is located below the square frame I.

5. The intelligent bearing feeding device for the production of the roller shaft barrel as claimed in claim 1, wherein:

the intelligent control part comprises a residual material monitoring mechanism, an intelligent reminding mechanism and a power control mechanism;

the excess material monitoring mechanism comprises a C-shaped spring piece and a first distance sensor; a fourth circular through hole is formed in the middle of the C-shaped spring piece, the C-shaped spring piece and the first distance sensor are arranged on the inner side wall of the C-shaped frame, the first distance sensor is located in the C-shaped spring piece, and a detection head of the first distance sensor is opposite to the fourth circular through hole;

the intelligent reminding mechanism comprises a second distance sensor, a voice module, a loudspeaker, a microprocessor and a color-variable light-emitting diode; the distance sensor II, the voice module and the microprocessor are arranged on a lower bottom plate of the rectangular container I, and the loudspeaker and the color-changeable light-emitting diode are arranged on a front side plate of the rectangular container I;

the power control mechanism comprises a first touch sensor module and a second touch sensor module, and the first touch sensor module and the second touch sensor module are both arranged on a front side plate of the first rectangular container.

6. The intelligent bearing feeding device for the production of the roller shaft barrel as claimed in claim 1, wherein:

the chain type conveying belt device is arranged on the conveying frame, the right end of the chain type conveying belt device is positioned on one side of the U-shaped open slot, and the roller shaft barrel is arranged in the U-shaped open slot and the C-shaped frame.

7. The intelligent bearing feeding device for the production of the roller shaft barrel as claimed in claim 2, wherein:

and transparent observation protective doors are additionally arranged on the rectangular through holes I and the rectangular through holes II.

8. The intelligent bearing feeding device for the production of the roller shaft barrel as claimed in claim 2, wherein:

and a storage bin is additionally arranged in the third rectangular through hole.

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