CN219135576U - Material conveying device for machining - Google Patents

Abstract

The utility model discloses a material conveying device for machining, which comprises a base, a feeding conveyor belt, a guide frame, a guide rod and a stirring motor, wherein the feeding conveyor belt is arranged on one side of the base, the guide frame is arranged on one side of the base, which faces the feeding conveyor belt, the guide rod is fixedly arranged on one side of the guide frame, the stirring motor is fixedly arranged on the upper surface of one end, connected with the base, of the guide frame, the stirring motor is fixedly connected with the lower end of an output shaft of the stirring motor, and a shielding sensor is fixedly arranged on the upper surface of a rotating disc. This material conveyor for machining carries the semi-ring through first transport semi-ring cooperation second and carries the mode that the semi-ring carried the material that the vibration dish carried to put reverse material in the vibration dish and can be redirected or direct the getting rid of, avoided the material to repeat the backward flow to in the vibration dish, promoted the work efficiency of vibration dish and the conveying speed of material.

Description

Material conveying device for machining

Technical Field

The utility model relates to the technical field of machining, in particular to a material conveying device for machining.

Background

In the machining process, materials with different sizes at two ends like bolts and connecting pieces are mostly screened through a vibration disc when being conveyed, the vibration disc changes the shape of the materials through continuous vibration, the material rejecting structure at the outlet of the vibration disc is matched, the directional conveying of raw materials can be realized, but in the material conveying process of the vibration disc, the materials rejected by the material rejecting mechanism usually reenter the inside of the vibration disc to continuously perform directional discharging, so that the discharging speed of the vibration disc is greatly reduced, and the materials reenter the inside of the vibration disc usually have certain physical shape defects, so that the materials are always in an inverted state and repeatedly and circularly move on the vibration disc, and the discharging efficiency of the vibration disc is reduced.

Disclosure of Invention

The utility model aims to provide a material conveying device for machining, which is used for solving the problem of low material conveying efficiency in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the material conveying device for machining comprises a base, a feeding conveyor belt, a guide frame, a guide rod and a stirring motor, wherein the feeding conveyor belt is arranged on one side of the base, the guide frame is arranged on one side of the base, which faces the feeding conveyor belt, the guide rod is fixedly arranged on one side of the guide frame, the stirring motor is fixedly arranged on the upper surface of one end, which is connected with the base, of the guide frame, the stirring motor is fixedly connected with the lower end of an output shaft of the stirring motor, a transit conveyor belt is arranged on the lower surface of one end, which is connected with the base, of the guide frame, the transit motor for driving a transit conveyor belt roller to rotate is fixedly arranged on the side surface of the guide frame, guide grooves which are mutually communicated are formed on the inner side surface and the bottom surface of the base, a discharge hole is formed on the lower surface of the base, the side surface of the discharge hole on one side is penetrated by the guide grooves, the lower surface of the base is fixedly provided with a switching motor, the upper end of an output shaft of the switching motor penetrates through the inner bottom surface of the base and is fixedly connected with a rotary table, the side surface of the rotary table is provided with a working groove, the side surface of the working groove is penetrated by a rotary rod, the inside of the rotary table on one side of the rotary rod is fixedly provided with a reversing motor, one end of the rotary rod on two sides of the working groove is respectively connected with a first conveying semi-ring and a second conveying semi-ring, the lower surface of the first conveying semi-ring is connected with a sliding pressure block, the outer surface of the pressure block is fixedly connected with a locking rod, the inside of the rotary table on one side of the rotary rod is fixedly provided with an electric push rod, one end of the electric push rod penetrates through the inner side surface of the working groove and faces the first conveying semi-ring and the second conveying semi-ring, the inner side surface of the working groove is fixedly provided with a self-resetting switch, and a shielding sensor is fixedly arranged on the upper surface of the turntable.

Preferably, the upper surface of the feeding conveyor belt is attached to the lower surface of the guide frame, the connection part of the guide frame and the guide rod is in a hollowed-out design, and the lower surface of one end of the guide frame attached to the feeding conveyor belt is in a hollowed-out design.

By adopting the technical scheme, the feeding conveyor belt can drive the materials in the guide frame to move, and the poured materials are discharged and collected at the hollowed-out part of the guide frame below the guide rod to wait for backflow.

Preferably, the lower surface of stirring impeller is laminated with the upper surface of the transfer conveyor belt, and the side surface of stirring impeller is laminated with the inner side surface of the guide frame, and the one end of guide frame and base connection is set up obliquely downwards towards the inside of the base.

By adopting the technical scheme, the materials on the guide frame can fall above the turntable under the drive of the stirring impeller.

Preferably, the rotating rod is rotationally connected with the turntable, and the rotating rod is fixedly connected with an output shaft of the reversing motor.

By adopting the technical scheme, the reversing motor can drive the turntable to rotate.

Preferably, the first conveying semi-ring and the second conveying semi-ring are respectively connected with the rotating rods on two sides in a sliding manner, springs are connected between the first conveying semi-ring and the second conveying semi-ring and the rotating rods on two sides respectively, and one ends of the first conveying semi-ring and one end of the second conveying semi-ring are attached to each other.

By adopting the technical scheme, the first conveying semi-ring and the second conveying semi-ring can be separated under the drive of the spring after unlocking, so that materials are discharged downwards.

Preferably, a spring is connected between the pressure block and the first conveying semi-ring, the pressure block is connected with the second conveying semi-ring through a locking rod in a clamping mode, the upper end of the locking rod is of a right triangle design, and an inclined surface at the upper end of the locking rod is arranged back to the first conveying semi-ring.

By adopting the technical scheme, the inclined plane of the locking rod can be extruded when the second conveying semi-ring slides to the first conveying semi-ring, so that the locking rod slides downwards.

Compared with the prior art, the utility model has the beneficial effects that: the material conveying device for machining comprises:

1. the first conveying semi-ring is matched with the second conveying semi-ring to detect and convey the direction of the materials conveyed by the vibrating tray, so that the materials placed in the vibrating tray in the reverse direction can be redirected or directly discharged, repeated backflow of the materials into the vibrating tray is avoided, and the working efficiency of the vibrating tray and the conveying speed of the materials are improved;

2. through a mode of circulating operation of a plurality of groups of first conveying semi-rings and second conveying semi-rings, when parts on the first conveying semi-rings and the second conveying semi-rings on one side are reversed, the first conveying semi-rings and the second conveying semi-rings on the other side can continuously keep directional screening and discharging of the parts, and the integral discharging speed is improved;

3. the materials dumped in the discharging process are classified, guided and removed through the hollowed-out parts of the side surfaces of the guide frames and the guide rods, and when the dumped materials on one side move to the first conveying semi-ring and the second conveying semi-ring, equipment is blocked between the first conveying semi-ring and the second conveying semi-ring and cannot normally run.

Drawings

FIG. 1 is a schematic view of the overall cross-sectional depression of the present utility model;

FIG. 2 is a schematic diagram of a structure of a guide slot and a discharge hole of the utility model in a prone section;

FIG. 3 is an enlarged schematic view of the structure of FIG. 1A according to the present utility model;

FIG. 4 is a schematic diagram of the overall side view of the present utility model;

FIG. 5 is a schematic diagram of the overall side cross-sectional structure of the present utility model;

fig. 6 is an enlarged view of the structure of fig. 5B according to the present utility model.

In the figure: 1. a base; 2. a feeding conveyor belt; 3. a guide frame; 4. a guide rod; 5. the motor is stirred; 6. stirring the impeller; 7. a transfer conveyor belt; 8. a transfer motor; 9. a guide groove; 10. a discharge port; 11. switching the motor; 12. a turntable; 13. an operation groove; 14. a rotating rod; 15. reversing the motor; 16. a first delivery half-ring; 17. a pressure block; 18. a locking lever; 19. a second delivery half-ring; 20. an electric push rod; 21. a self-resetting switch; 22. the sensor is blocked.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, the present utility model provides a technical solution: a material conveying device for machining comprises a base 1, a feeding conveyor belt 2, a guide frame 3, a guide rod 4, a stirring motor 5, a stirring impeller 6, a transit conveyor belt 7, a transit motor 8, a guide groove 9, a discharge hole 10, a switching motor 11, a rotary table 12, an operation groove 13, a rotary rod 14, a reversing motor 15, a first conveying semi-ring 16, a pressure block 17, a locking rod 18, a second conveying semi-ring 19, an electric push rod 20, a self-resetting switch 21 and a shielding sensor 22, wherein the feeding conveyor belt 2 is arranged on one side of the base 1, the guide frame 3 is arranged on one side of the base 1 facing the feeding conveyor belt 2, the guide rod 4 is fixedly arranged on one side of the guide frame 3, the stirring motor 5 is fixedly arranged on the upper surface of one end of the guide frame 3 connected with the base 1, the stirring impeller 6 is fixedly connected with the lower end of an output shaft of the stirring motor 5, the inside embedded transfer conveyer belt 7 that installs of one end lower surface that leading truck 3 and base 1 are connected, and the side surface fixed mounting of leading truck 3 has the rotatory transfer motor 8 of drive transfer conveyer belt 7 roller bearing, the upper surface of pay-off conveyer belt 2 is laminated mutually with the lower surface of leading truck 3, and the junction of leading truck 3 and guide bar 4 is hollow out design, and the one end lower surface that leading truck 3 and pay-off conveyer belt 2 are laminated mutually is hollow out design, stir the lower surface of impeller 6 and the upper surface of transfer conveyer belt 7 and laminate mutually, and stir the side surface of impeller 6 and laminate mutually with the inboard surface of leading truck 3, and the one end that leading truck 3 and base 1 are connected is for setting up downwards towards the inside slant of base 1, carry and screen the material through leading truck 3, avoid the material entering that emptys to lead to the device card to die.

The inner side surface and the bottom surface of the base 1 are provided with guide grooves 9 which are mutually communicated, the lower surface of the base 1 is provided with a discharge hole 10, the side surface of the discharge hole 10 on one side is penetrated by the guide grooves 9, the lower surface of the base 1 is fixedly provided with a switching motor 11, the upper end of an output shaft of the switching motor 11 penetrates through the inner bottom surface of the base 1 and is fixedly connected with a rotary table 12, the side surface of the rotary table 12 is provided with an operation groove 13, the side surface of the operation groove 13 is penetrated by a rotary rod 14, the rotary table 12 on one side of the rotary rod 14 is internally and fixedly provided with a reversing motor 15, one end of the rotary rod 14 on the two sides of the operation groove 13 is respectively connected with a first conveying semi-ring 16 and a second conveying semi-ring 19, the lower surface of the first conveying semi-ring 16 is connected with a sliding pressure block 17, the outer surface of the pressure block 17 is fixedly connected with a locking rod 18, the rotary table 12 on one side of the rotary rod 14 is internally and is fixedly provided with an electric push rod 20, and one end of the electric push rod 20 penetrates through the inner side surface of the working groove 13 towards the first conveying semi-ring 16 and the second conveying semi-ring 19, a self-reset switch 21 is fixedly arranged on the inner side surface of the working groove 13, a shielding sensor 22 is fixedly arranged on the upper surface of the rotary table 12, the rotary rod 14 is rotationally connected with the rotary table 12, the rotary rod 14 is fixedly connected with the output shaft of the reversing motor 15, the first conveying semi-ring 16 and the second conveying semi-ring 19 are respectively and slidingly connected with the rotary rods 14 on two sides, springs are connected between the first conveying semi-ring 16 and the second conveying semi-ring 19 respectively, one ends of the first conveying semi-ring 16 and the second conveying semi-ring 19 are jointed, a spring is connected between the pressure block 17 and the first conveying semi-ring 16, the pressure block 17 is in clamping connection with the second conveying semi-ring 19 through a locking rod 18, and the upper end of the locking rod 18 is in a right triangle design, and the inclined plane of locking lever 18 upper end sets up dorsad first conveying semi-ring 16, through the screening reversing structure that first conveying semi-ring 16 and second conveying semi-ring 19 constitute for the material can keep forward output.

Working principle: when the material conveying device for machining is used, firstly, the material output by the vibration plate is conveyed to the guide frame 3 by the feeding conveyor belt 2, when the material moves to the guide rod 4, the upright material is blocked by the guide rod 4 to guide the upright material to continuously move along the guide rod 4 to the base 1, the poured material leaks and is collected through the hollowed-out part of the side surface of the guide frame 3, when the material moves to the stirring impeller 6, the stirring impeller 6 stirs the material to the transit conveyor belt 7 under the driving of the stirring motor 5, the transit conveyor belt 7 conveys the material to the inclined plane of the connecting part of the guide frame 3 and the base 1 under the driving of the transit motor 8, when the material is positive, the smaller end of the material is firstly contacted with the pressure block 17 in the falling process, the pressure block 17 drives the locking rod 18 to slide downwards so as to unlock the second conveying semi-ring 19, at this time, the first conveying semi-ring 16 and the second conveying semi-ring 19 slide under the pulling of the springs between the first conveying semi-ring 16 and the rotating rod 14 and are away from each other, materials are discharged downwards through the discharge hole 10 on the bottom surface of the base 1 and collected, meanwhile, the sliding first conveying semi-ring 16 presses the self-reset switch 21, the self-reset switch 21 is triggered to start the electric push rod 20, the electric push rod 20 starts to push the first conveying semi-ring 16 and the second conveying semi-ring 19 to slide close to each other after a preset time delay, at this time, the second conveying semi-ring 19 presses the inclined surface of the locking rod 18, so that the locking rod 18 slides downwards until the first conveying semi-ring 16 and the second conveying semi-ring 19 are attached, at this time, the locking rod 18 slides upwards under the pulling of the springs between the pressure block 17 and the first conveying semi-ring 16 and is clamped with the second conveying semi-ring 19, and the fixing of the relative positions of the first conveying semi-ring 16 and the second conveying semi-ring 19 is completed;

when the materials are reversed, one end with larger diameter is contacted with the inner side surfaces of the first conveying semi-ring 16 and the second conveying semi-ring 19, the materials are supported between the first conveying semi-ring 16 and the second conveying semi-ring 19, at the moment, the shielding sensor 22 detects that one end is continuously shielded and sends an electric signal to the switching motor 11, the switching motor 11 drives the rotary table 12 to rotate, at the moment, the rotary table 12 drives the other operation groove 13 to move to the direction opposite to the guide frame 3 for receiving the materials, the reversing motor 15 which is rotated to the position opposite to the operation groove 13 of the guide groove 9 drives the rotary rod 14 to rotate, the rotary rod 14 drives the first conveying semi-ring 16, the second conveying semi-ring 19 and the materials to rotate, one end of the materials is limited by the guide groove 9, so that the materials can not be dumped at will and kept at the relative positions with the first conveying semi-ring 16 and the second conveying semi-ring 19 until the materials rotate 180 DEG to be in the positive direction against the bottom surface of the guide groove 9, when the rotary table 12 rotates again, the materials slide to the position of the discharge port 10 communicated with the guide groove 9 along the guide groove 9 to finish the orientation and the discharge of the materials, and the reversing motor 15 drives the rotary rod 14 to rotate to reset, and the whole practicability is increased.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a material conveyor is used in machining, includes base (1), pay-off conveyer belt (2), leading truck (3), guide bar (4) and stirs motor (5), its characterized in that: one side of base (1) is provided with pay-off conveyer belt (2), one side of base (1) orientation pay-off conveyer belt (2) is provided with leading truck (3), one side of leading truck (3) is fixedly provided with guide bar (4), one end upper surface fixed mounting that leading truck (3) and base (1) are connected has stirring motor (5), and stir output shaft lower extreme fixedly connected with stirring impeller (6) of motor (5), one end lower surface internal embedding that leading truck (3) and base (1) are connected installs transfer conveyer belt (7), and the side surface fixed mounting of leading truck (3) has transfer motor (8) of drive transfer conveyer belt (7) roller bearing rotation, inside side surface and the bottom surface of base (1) are offered guide way (9) that link up each other, and the lower surface of base (1) is offered discharge gate (10), and the side surface of discharge gate (10) on one side is run through by guide way (9), the lower surface fixed mounting of base (1) has switch motor (11), and switch the inside surface of base (1) is equipped with carousel (12) that the surface of carousel (12) is run through, the side surface of operation groove (13) is run through by bull stick (14), and carousel (12) internally mounted of bull stick (14) one side has reversing motor (15), bull stick (14) one end of operation groove (13) both sides is connected with first transport semi-ring (16) and second transport semi-ring (19) respectively, the lower surface of first transport semi-ring (16) is connected with gliding pressure piece (17), and the surface fixedly connected with locking lever (18) of pressure piece (17), carousel (12) internally mounted of bull stick (14) one side has electric putter (20), and the one end of electric putter (20) runs through the interior side surface of operation groove (13) towards first transport semi-ring (16) and second transport semi-ring (19) setting, the interior side surface fixed mounting of operation groove (13) has from reset switch (21), the last surface fixed mounting of carousel (12) has shelter from sensor (22).

2. A material conveying apparatus for machining according to claim 1, wherein: the upper surface of pay-off conveyer belt (2) is laminated with the lower surface of leading truck (3), and the junction of leading truck (3) and guide bar (4) is the fretwork design to the one end lower surface that leading truck (3) and pay-off conveyer belt (2) are laminated is the fretwork design.

3. A material conveying apparatus for machining according to claim 1, wherein: the lower surface of stirring impeller (6) is laminated with the upper surface of transfer conveyer belt (7), and stir the side surface of impeller (6) and the inboard surface of leading truck (3) and laminate mutually to the one end that leading truck (3) and base (1) are connected is towards base (1) inside slant downwards setting.

4. A material conveying apparatus for machining according to claim 1, wherein: the rotating rod (14) is rotationally connected with the rotary table (12), and the rotating rod (14) is fixedly connected with an output shaft of the reversing motor (15).

5. A material conveying apparatus for machining according to claim 1, wherein: the first conveying semi-ring (16) and the second conveying semi-ring (19) are respectively connected with the rotating rods (14) on two sides in a sliding mode, springs are connected between the first conveying semi-ring (16) and the second conveying semi-ring (19) and the rotating rods (14) on two sides respectively, and one ends of the first conveying semi-ring (16) and one end of the second conveying semi-ring (19) are attached to each other.

6. A material conveying apparatus for machining according to claim 1, wherein: the pressure block (17) is connected with the first conveying semi-ring (16) through a spring, the pressure block (17) is connected with the second conveying semi-ring (19) through a locking rod (18) in a clamping mode, the upper end of the locking rod (18) is of a right-angled triangle design, and an inclined plane at the upper end of the locking rod (18) is arranged back to the first conveying semi-ring (16).

Images