CN111115235A - Rotary grabbing device and processing equipment - Google Patents

Abstract

The invention provides a rotary grabbing device and processing equipment, and belongs to the technical field of material conveying. It has solved the inconvenient material of current rotatory gas claw device and has carried the problem. The invention relates to a rotary grabbing device which comprises a rotary block, a driving assembly, a first grabbing mechanism and a second grabbing mechanism. According to the invention, at least one first grabbing mechanism and at least one second grabbing mechanism are additionally arranged on the rotating block, so that the rotating grabbing device can transversely grab materials or finished products, the finished products clamped by the second grabbing mechanisms can be transversely placed on a horizontal plane, meanwhile, the rotating grabbing device can vertically grab the materials, the finished products clamped by the first grabbing mechanisms can be vertically placed on the horizontal plane, and the adjacent vertical finished products are not influenced, so that the materials are conveniently conveyed.

Description

Rotary grabbing device and processing equipment

Technical Field

The invention belongs to the technical field of material conveying, and relates to a rotary gripping device, in particular to a rotary gripping device and processing equipment.

Background

With the development of the mechanical manufacturing industry, the number of numerically controlled lathes is increasing, in order to meet the requirements of various small-batch production and productivity improvement, a feeding and discharging system for shaft products is arranged on the numerically controlled lathes, the products with different specifications and sizes and types are required to be conveyed and unloaded, and people adopt mechanical cutting automation equipment to process metal workpieces, so that the processing efficiency is improved, and the safety performance is higher.

At present, the most widely used loading and unloading device in automatic machining equipment is a rotary air claw device, such as a six-shaft loading and unloading robot system with the publication number of CN 209614272U, which includes a material warehouse mechanism (1) and a material grabbing mechanism (2) matched with the material warehouse mechanism (1); the material warehouse mechanism (1) comprises a material warehouse base (3), a material tray plate (9) which can move horizontally and vertically is arranged on the material warehouse base (3), and materials are placed on the material tray plate (9); the material grabbing mechanism (2) comprises a material grabbing base (27), a material grabbing bottom plate (4) capable of moving horizontally is mounted on the material grabbing base (27), a second transmission shaft mechanism is vertically mounted on the material grabbing bottom plate (4), a third transmission shaft mechanism is mounted at the upper end of the second transmission shaft mechanism, a large arm (6) is mounted on the third transmission shaft mechanism, a fourth transmission shaft mechanism is mounted at the end part of the large arm (6), and an end actuator (8) used for grabbing parts is connected to the fourth transmission shaft mechanism; the second transmission shaft mechanism drives the third transmission shaft mechanism and the large arm (6) to horizontally rotate through rotation; the third transmission shaft mechanism drives the large arm (6) to swing through rotation, and the fourth transmission shaft mechanism drives the end effector (8) to rotate through rotation. Although the scheme can realize the grabbing and transferring of the materials, in the implementation process of the scheme, the end effector (8) cannot transversely place the materials on a horizontal plane, and the requirement of people for conveying the materials cannot be met.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a rotary grabbing device convenient to transport and processing equipment.

The purpose of the invention can be realized by the following technical scheme: a rotary grasping apparatus comprising:

connecting blocks;

the rotating block is movably arranged on one side of the connecting block, a driving assembly for driving the rotating block to rotate penetrates through the connecting block, a first grabbing mechanism for vertically grabbing materials is movably arranged on the side face of the rotating block, and a second grabbing mechanism for transversely grabbing materials is movably arranged on the other side face of the rotating block; the drive assembly is including being used for connecting the pivot of rotatory piece and being used for driving pivot pivoted motor, the connecting block is passed in the pivot, the one end and the motor of pivot pass through retarder connection, the reduction gear can be dismantled with the connecting block and be connected.

In the above rotary gripping device, the first gripping mechanism includes a first cylinder detachably connected to a side of the rotary block, and the first cylinder is movably surrounded by a plurality of first jaws along a central axis thereof.

In the above rotary gripping device, each of the first jaws includes a cylinder block movably mounted on the first cylinder body, the cylinder block is detachably connected with a fixed block, the fixed block is detachably connected with a clamping plate, and one side of the clamping plate is recessed inwards to form a clamping surface; one side face, close to the clamping plate, of the fixing block is provided with a lower tooth face, and an upper tooth face meshed with the lower tooth face is arranged on the lower end face of the clamping plate.

In an above-mentioned rotary grabbing device, the second snatchs the mechanism and includes dismantling the second cylinder body of connecting on a side of rotatory piece, the activity is equipped with a pair of second jack catch on the second cylinder body, every all be equipped with the protection piece on the second jack catch.

In the above rotary gripping device, the number of the first gripping mechanisms is two, and each of the first gripping mechanisms is respectively installed on different side surfaces of the rotary block; the number of the second grabbing mechanisms is two, and each second grabbing mechanism is respectively arranged on different side faces of the rotating block.

A processing apparatus, comprising: the material feeding device comprises at least two machine tools and a material feeding table for storing materials, wherein a moving guide rail is movably arranged on the material feeding table, a moving assembly is movably arranged on the moving guide rail, and a lifting assembly is arranged on the moving assembly, wherein the rotary grabbing device according to any one of claims 1 to 6 is arranged on the lifting assembly, and the lifting assembly drives the rotary grabbing device to move up and down relative to the material feeding table.

In the above processing apparatus, the moving assembly includes a moving plate and a moving motor for driving the moving plate to move relative to the moving guide rail, the moving guide rail is provided with a moving rod, and a side surface of the moving rod is provided with a moving tooth surface.

In foretell processing equipment, the lifting unit is including the lifter that is used for connecting the connecting block of rotatory grabbing device and the elevator motor who is used for driving the lifter motion, one side of lifter is equipped with the elevator guide, movable mounting has the lifting slide block on the elevator guide, the last lift shell that is used for installing the lifting slide block that is equipped with of elevator motor.

In the above processing equipment, at least one material placing frame is arranged on the material feeding table, at least one clamping block for transversely storing materials is arranged on the material feeding table, and a V-shaped groove is formed in each clamping block.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, at least one first grabbing mechanism and at least one second grabbing mechanism are additionally arranged on the rotating block, so that the rotating grabbing device can transversely grab materials or finished products, the finished products clamped by the second grabbing mechanisms can be transversely placed on a horizontal plane, meanwhile, the rotating grabbing device can vertically grab the materials, the finished products clamped by the first grabbing mechanisms can be vertically placed on the horizontal plane, and the adjacent vertical finished products are not influenced, so that the materials are conveniently conveyed.

Drawings

Fig. 1 is a schematic structural diagram in the first embodiment.

Fig. 2 is a combination of a drive assembly and a connecting block.

Fig. 3 is a schematic structural view of the first grasping mechanism.

Fig. 4 is a schematic view of the card board.

Fig. 5 is a schematic structural diagram in the second embodiment.

Fig. 6 is a schematic structural diagram in the third embodiment.

Fig. 7 is a combination of the lift assembly and the rotary grasping apparatus.

Fig. 8 is a schematic view of the lifting assembly of fig. 7 with the lifting assembly removed.

Fig. 9 is a combination view of the moving rail and the moving plate.

Fig. 10 is a schematic structural view of the clamp block.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 10, a rotary gripping device according to the present invention includes a rotary block 200, a driving assembly 300, a first gripping mechanism 400, and a second gripping mechanism 500.

In the invention, unprocessed materials which are horizontally placed on a horizontal plane are called horizontal materials, unprocessed materials which are vertically placed on the horizontal plane are called vertical materials, processed materials which are horizontally placed on the horizontal plane are called horizontal finished products, and processed materials which are vertically placed on the horizontal plane are called vertical finished products.

Example one

As shown in fig. 1-4, the rotating block 200 is movably disposed on one side of the connecting block 100, the connecting block 100 is penetrated by a driving component 300 for driving the rotating block 200 to rotate, a first grabbing mechanism 400 for vertically grabbing materials is movably disposed on a side of the rotating block 200, a second grabbing mechanism 500 for horizontally grabbing materials is movably disposed on the other side of the rotating block 200, and in the working process of the rotating grabbing device, the driving component 300 is controlled, so that the driving component 300 drives the rotating block 200 to rotate, and the first grabbing mechanism 400 and the second grabbing mechanism 500 are both mounted on the rotating block 200, so that the first grabbing mechanism 400 and the second grabbing mechanism 500 rotate synchronously with the rotating block 200.

When a material vertically placed on a horizontal plane needs to be clamped, the driving assembly 300 needs to be controlled firstly, so that the orientation of the first grabbing mechanism 400 is parallel to the central axial direction of the material, the rotary grabbing device is moved, the first grabbing mechanism 400 can grab the material vertically placed on the horizontal plane and does not affect adjacent materials, then the rotary grabbing device is moved to a position for processing the material, and in the moving process, the driving assembly 300 is controlled, so that the driving assembly 300 controls the rotary block 200 to rotate until the orientation of the first grabbing mechanism 400 is the same as the orientation of the material to be processed, and thus the material vertically placed on the horizontal plane can be smoothly clamped to the position for processing the material; when a material transversely placed on a horizontal plane needs to be clamped, the driving assembly 300 needs to be controlled firstly, so that the orientation of the second grabbing mechanism 500 is parallel to the normal plane of the material, the rotary grabbing device is moved, the second grabbing mechanism 500 can grab the transverse material without influencing adjacent materials, then the rotary grabbing device is moved to the position for processing the material, and in the moving process, the driving assembly 300 is controlled, so that the driving assembly 300 controls the rotating block 200 to rotate until the orientation of the first grabbing mechanism 400 is the same as the direction for processing the material, and thus, the transverse material can be smoothly clamped to the position for processing the material.

When the finished product needs to be transversely placed on a horizontal plane, the driving assembly 300 needs to be controlled firstly, so that the second grabbing mechanism 500 faces to be parallel to the normal plane of the material, the second grabbing mechanism 500 is located at the bottom end of the rotary grabbing device, then the rotary grabbing device is moved, so that the second grabbing mechanism 500 can grab the transverse finished product, then the rotary grabbing device is moved to the place where the transverse finished product is placed, and then the second grabbing mechanism 500 is released, so that the transverse finished product automatically falls onto the horizontal plane; when a finished product needs to be vertically placed to a horizontal plane, the driving assembly 300 needs to be controlled first, so that the orientation of the first grabbing mechanism 400 is parallel to the central axial direction of the material, then the rotating grabbing device is moved, so that the first grabbing mechanism 400 can grab a vertical finished product, then the rotating grabbing device is moved to a position where the vertical finished product is placed, the driving assembly 300 drives the rotating block 200 to rotate, so that the vertical finished product clamped by the first grabbing mechanism 400 is perpendicular to the horizontal plane, afterwards, the rotating grabbing device descends to a certain distance, and the first grabbing mechanism 400 is loosened, so that the vertical finished product clamped by the first grabbing mechanism 400 does not touch an adjacent vertical finished product.

Further, after one rotary gripping device grips a horizontal material or a vertical material, the person moves the rotary gripping device again, and in the process, controls the driving assembly 300 so that the first gripping mechanism 400 can grip the material vertically placed on the horizontal plane without affecting adjacent materials, or allows the second gripping mechanism 500 to grip the horizontal material without affecting adjacent materials, and then moves the rotary gripping device to a position where the material is processed, and in the moving process, controls the driving assembly 300 so that the driving assembly 300 controls the rotary block 200 to rotate until the first gripping mechanism 400 is oriented in the same direction as the direction of the material to be processed, so that the vertical material can be smoothly clamped to the position where the material is processed, and thereafter, moves the rotary gripping device again to another position where the material is processed, and controls the driving assembly 300, make drive assembly 300 control rotation piece 200 rotatory, orientation that snatchs mechanism 500 up to the second is the same with the direction of this processing material, alright press from both sides the position department to this material of processing smoothly with horizontal material, so, the simultaneous transport of this vertical material and horizontal material can be realized to improve the machining efficiency of this material.

After the first grabbing mechanism 400 grabs the finished product or the second grabbing mechanism 500 grabs the finished product, the rotary grabbing device is moved to another position for processing the material, and the driving assembly 300 is controlled, so that the second grabbing mechanism 500 grabs the horizontal finished product on the processing position or the first grabbing mechanism 400 grabs the vertical finished product on the processing position, and then the rotary grabbing device is moved to the position for placing the horizontal finished product, and the horizontal finished product is placed on the horizontal plane, and then the rotary grabbing device is moved to the position for placing the vertical finished product, and the vertical finished product is placed on the horizontal plane, so that the vertical material and the horizontal material can be simultaneously conveyed, and the processing efficiency of the material is improved.

The first grabbing mechanism 400 comprises a first cylinder body 410 detachably connected to one side of the rotating block 200, the first cylinder body 410 is movably surrounded by a plurality of first claws 420 along a central axis thereof, when the first grabbing mechanism 400 grabs a vertical material or a vertical finished product, people need to control the first cylinder body 410 first, so that the first cylinder body 410 controls the plurality of first claws 420 to move outwards synchronously, that is, the first grabbing mechanism 400 is opened, then the rotating grabbing device is moved, so that the vertical material or the vertical finished product is located at the central positions of the plurality of first claws 420, and then the first cylinder body 410 controls the plurality of first claws 420 to move inwards synchronously, that is, the first grabbing mechanism 400 is closed, so that the plurality of first claws 420 clamp the vertical material or the vertical finished product.

Further, each first jaw 420 comprises a cylinder block 421 movably mounted on the first cylinder 410, a fixed block 422 is detachably connected to the cylinder block 421, a clamping plate 423 is detachably connected to the fixed block 422, one side of the clamping plate 423 is recessed inwards to form a clamping surface 423a, a lower tooth surface 423b is arranged on one side of the fixed block 422 close to the clamping plate 423, an upper tooth surface 422a meshed with the lower tooth surface 423b is arranged on the lower end surface of the clamping plate 423, during mounting, people need to movably mount the cylinder block 421 on the first cylinder 410, then screw-mount the fixed block 422 on the corresponding cylinder block 421, then screw-connect the clamping plate 423 with the corresponding fixed block 422, and enable the upper tooth surface 422a to be meshed with the lower tooth surface 423b, and the clamping surfaces 423a on the clamping plate 423 are all facing to the center of the first jaw 420, so that the clamping plate 423 is still relative to the fixed block 422 during the process of grabbing materials or finished products by the first jaw, therefore, the clamping surface 423a of the first jaw 420 can stably clamp the material or the finished product, and the clamping surface 423a is an arc-shaped curved surface, so that the clamping surface 423a can better protect the material or the finished product.

In the present invention, the normal plane of the material or the finished product refers to a plane perpendicular to the central axis of the material.

The second grabbing mechanism 500 comprises a second cylinder 510 detachably connected to one side face of the rotating block 200, a pair of second claws 520 is movably arranged on the second cylinder 510, when grabbing a transverse material or a transverse finished product, people need to adjust the angle of the second claws 520 to enable the normal plane of the transverse material or the transverse finished product to be parallel to the plane passing through the two second claws 520, then the transverse material or the transverse finished product can be clamped by the second claws 520, each second claw 520 is provided with a protection block 521, the protection blocks 521 are arranged to prevent the second claws 520 from directly contacting the material or the finished product when the second claws 520 clamp the transverse material or the transverse finished product, and accordingly the material or the finished product is protected.

Be equipped with the backup pad 530 that corresponds the second cylinder on the rotatory piece, when the second snatchs the mechanism and shift horizontal material to the processing equipment who is used for processing this horizontal material, the one end of horizontal material injects in the processing equipment, later, the second snatchs the mechanism and loosens, make the other end of horizontal material support in the backup pad, because of being equipped with push pedal 531 in the backup pad, so when people control rotatory grabbing device and remove, the push pedal will promote the material and move to the processing equipment is inside, thereby ensure that this rotatory grabbing device's second snatchs the mechanism and can send the material into the processing equipment smoothly.

The driving assembly 300 includes a rotating shaft 310 for connecting the rotating block 200 and a motor 330 for driving the rotating shaft 310 to rotate, the rotating shaft 310 passes through the connecting block 100, one end of the rotating shaft 310 is connected with the motor 330 through a speed reducer 320, the speed reducer 320 is detachably connected with the connecting block 100, and when the driving assembly works, the rotation of the rotating shaft 310 is realized through the motor 330 and the speed reducer 320, so as to drive the rotating block 200 to rotate.

Example two

As shown in fig. 5, the difference between the present embodiment and the first embodiment is that a first grabbing mechanism 400 and a second grabbing mechanism 500 are added to the present embodiment.

Specifically, the number of the first grabbing mechanisms 400 is two, each first grabbing mechanism 400 is respectively installed on different side surfaces of the rotating block 200, the number of the second grabbing mechanisms 500 is two, and each second grabbing mechanism 500 is respectively installed on different side surfaces of the rotating block 200, so that the rotating grabbing device can grab two vertical materials and two horizontal materials simultaneously in the process of grabbing the materials; or, this rotatory grabbing device is snatching the in-process of finished product, can snatch two vertical finished products and two horizontal finished products simultaneously, so, alright realize carrying simultaneously or realize carrying simultaneously of two vertical finished products and two horizontal finished products of two vertical materials and two horizontal finished products to improve the machining efficiency of this material.

EXAMPLE III

As shown in fig. 6 to 10, the present embodiment is different from the first embodiment in that the present embodiment applies the rotary gripping apparatus of the first embodiment to a machine tool 600.

Specifically, the embodiment includes at least two machine tools 600 and a feeding table 700 for storing materials, at least one material placing frame 720 is disposed on the feeding table 700, at least one clamping block 730 for laterally storing materials is disposed on the feeding table 700, a V-shaped groove 731 is disposed on each clamping block 730, a moving guide rail 710 is movably disposed on the feeding table 700, a moving assembly 800 is movably disposed on the moving guide rail 710, and a lifting assembly 900 is disposed on the moving assembly 800, wherein the rotating grabbing device is mounted on the lifting assembly 900, the lifting assembly 900 drives the rotating grabbing device to move up and down relative to the feeding table 700, when the rotating grabbing device successfully grabs materials or finished products, the moving assembly 800 moves along the track of the moving guide rail 710, and because the lifting assembly 900 is mounted on the moving assembly 800, the rotating grabbing device is mounted on the lifting assembly 900, the moving assembly 800 carries the lifting assembly 900 and the rotating grabbing device to move synchronously, when the moving assembly 800 moves to the position right above the machine tool 600 or the position right above the material placing frame 720 or the clamping block 730, the moving assembly 800 stops moving, the lifting assembly 900 drives the rotary gripping device to descend, and after the rotary gripping device descends to a certain distance, the rotary gripping device is loosened, so that transverse materials or vertical materials can smoothly reach the processing position of the machine tool 600, or transverse finished products can be smoothly placed on the grooves 731 of the clamping block 730 or vertical finished products can be smoothly placed on the material placing frame 720.

The moving assembly 800 comprises a moving plate 810 and a moving motor 820 for driving the moving plate 810 to move relative to the moving guide 710, a moving rod 711 is arranged on the moving guide 710, a moving tooth surface 711a is arranged on one side surface of the moving rod 711, a moving gear (not labeled in the figure) meshed with the moving tooth surface 711a is arranged on the moving motor 820, the moving gear penetrates through the moving plate 810, when the moving assembly works, the moving motor 820 drives the moving gear to run, a sliding plate of the moving plate 810 is clamped on the moving guide 710, the moving motor 820 is in threaded connection with the moving plate 810, and the moving plate 810 moves along the track of the moving guide 710, so that the rotary grabbing device moves between the plurality of machine tools 600 and the feeding table 700.

The lifting assembly 900 includes a lifting rod 910 for connecting the connecting block 100 of the rotary gripping device and a lifting motor 920 for driving the lifting rod 910 to move, a lifting guide rail 911 is disposed on one side of the lifting rod 910, a lifting slider 931 is movably mounted on the lifting guide rail 911, a lifting shell 930 for mounting the lifting slider 931 is disposed on the lifting motor 920, a lifting tooth surface 912 is disposed on the lifting rod 910, a lifting gear (not labeled in the figure) engaged with the lifting tooth surface 912 is disposed on the lifting motor 920, when the lifting motor 920 drives the lifting gear to operate, the lifting motor 920 is mounted on the moving plate 810, the lifting slider 931 is mounted on the lifting motor 920 through the lifting shell 930, so that the lifting rod 910 moves relative to the lifting slider 931, thereby achieving the lifting of the rotary gripping device, and ensuring that the rotary gripping device can smoothly convey materials or finished products to a designated place.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (9)

1. A rotary gripping device, comprising:

connecting blocks;

the rotating block is movably arranged on one side of the connecting block, a driving assembly for driving the rotating block to rotate penetrates through the connecting block, a first grabbing mechanism for vertically grabbing materials is movably arranged on the side face of the rotating block, and a second grabbing mechanism for transversely grabbing materials is movably arranged on the other side face of the rotating block; the drive assembly is including being used for connecting the pivot of rotatory piece and being used for driving pivot pivoted motor, the connecting block is passed in the pivot, the one end and the motor of pivot pass through retarder connection, the reduction gear can be dismantled with the connecting block and be connected.

2. The rotary grab apparatus of claim 1, wherein the first grab mechanism comprises a first cylinder removably attached to a side of the rotary block, the first cylinder being movably surrounded along its central axis by a plurality of first jaws.

3. The rotary grabbing device of claim 2, wherein each first jaw comprises a cylinder block movably mounted on the first cylinder body, a fixed block is detachably connected to the cylinder block, a clamping plate is detachably connected to the fixed block, and one side of the clamping plate is recessed inwards to form a clamping surface; one side face, close to the clamping plate, of the fixing block is provided with a lower tooth face, and an upper tooth face meshed with the lower tooth face is arranged on the lower end face of the clamping plate.

4. The rotary grabbing device of claim 1, wherein the second grabbing mechanism comprises a second cylinder detachably connected to one side surface of the rotating block, a pair of second clamping jaws is movably arranged on the second cylinder, each second clamping jaw is provided with a protection block, and the rotating block is provided with a support plate corresponding to the second cylinder.

5. The rotary gripping apparatus according to claim 1, wherein the number of the first gripping mechanisms is two, and each of the first gripping mechanisms is respectively installed on different sides of the rotary block; the number of the second grabbing mechanisms is two, and each second grabbing mechanism is respectively arranged on different side faces of the rotating block.

6. A processing apparatus, comprising: the material feeding device comprises at least two machine tools and a material feeding table for storing materials, wherein a moving guide rail is movably arranged on the material feeding table, a moving assembly is movably arranged on the moving guide rail, and a lifting assembly is arranged on the moving assembly, wherein the rotary grabbing device according to any one of claims 1 to 5 is arranged on the lifting assembly, and the lifting assembly drives the rotary grabbing device to move up and down relative to the material feeding table.

7. The processing apparatus as claimed in claim 6, wherein the moving assembly comprises a moving plate and a moving motor for driving the moving plate to move relative to a moving guide rail, the moving guide rail is provided with a moving rod, and a side surface of the moving rod is provided with a moving tooth surface.

8. The processing equipment according to claim 7, wherein the lifting assembly comprises a lifting rod for connecting a connecting block of the rotary grabbing device and a lifting motor for driving the lifting rod to move, a lifting guide rail is arranged on one side of the lifting rod, a lifting slider is movably arranged on the lifting guide rail, and a lifting shell for installing the lifting slider is arranged on the lifting motor.

9. The processing equipment according to claim 6, wherein the feeding table is provided with at least one material placing frame, the feeding table is provided with at least one clamping block for transversely storing materials, and each clamping block is provided with a V-shaped groove.

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