CN213673531U - Vibration chamfering grooving machine - Google Patents

Abstract

The utility model discloses a vibration chamfer groove outlet machine, a conveying mechanism, which comprises a supporting frame and a framework obliquely connected with the top end of the supporting frame, wherein the framework is provided with a conveying belt and a driving component for driving the conveying belt to rotate, and the surface of the conveying belt is provided with a plurality of conveying plates at intervals along the length direction; the feeding plates are connected with the framework and are respectively positioned on two sides of the conveying belt, and the upper surfaces of the feeding plates are recessed at intervals along the length direction to form a plurality of feeding grooves; the drive assembly comprises two rotating shafts which are rotatably arranged on the framework, two gears are arranged on the rotating shafts at intervals, two chains matched with the gears are arranged on the inner sides of the conveying belts at intervals, and the rotating shafts above the conveying belts are connected with an output shaft of the motor. The utility model discloses a set up transport mechanism and stock guide, realize taking out the abrasive material in the vibrations beveler, can effectively reduce the human labor, improve production efficiency.

Description

Vibration chamfering grooving machine

Technical Field

The utility model relates to a vibrations chamfer processing equipment technical field. More specifically, the utility model relates to a vibrations chamfer goes out scouring machine.

Background

At present in chamfer manufacturing procedure, to some small, the product that the quantity is many adopts vibrations beveler to be the most convenient and fast, also the most common processing mode, however vibrations beveler structure is just like a big pot, the pot has a root cylinder, in the work of vibrations beveler, all abrasive materials and the product that needs the chamfer can be along with vibrations, round middle cylinder circle, after the chamfer is accomplished, need will shake the abrasive materials of beveler inslot and the product of having fallen the angle and take out, generally adopt artifical the completion when taking out, and the labor intensity is increased.

Disclosure of Invention

It is an object of the present invention to solve at least the above problems and to provide at least the advantages which will be described later.

The utility model discloses it is still another purpose to provide a vibrations chamfer goes out scouring machine, and it is through setting up transport mechanism and stock guide, realizes taking out the abrasive material in the vibrations chamfering machine, can effectively reduce the human labor, improves production efficiency.

To achieve these objects and other advantages in accordance with the purpose of the invention, there is provided a vibration chamfer groove forming machine including:

the conveying mechanism comprises a support frame and a framework obliquely connected with the top end of the support frame, a conveying belt and a driving assembly for driving the conveying belt to rotate are arranged on the framework, and a plurality of conveying plates are arranged on the surface of the conveying belt at intervals along the length direction of the conveying belt;

the vertical sections of the material guide plates are oppositely arranged in a structure which is larger than the shape of the material guide plates, the material guide plates are connected with the framework and are respectively positioned on two sides of the conveyor belt, and the upper surfaces of the material guide plates are recessed at intervals along the length direction of the material guide plates to form a plurality of material guide grooves.

Preferably, drive assembly includes rotatable locating two pivots on the skeleton, and two pivots are followed the width direction of conveyer belt sets up, equal interval is equipped with two gears in the pivot, the inboard interval of conveyer belt be equipped with two with gear assorted chain, the chain is followed the length direction of conveyer belt sets up, wherein, the pivot that is located the top and the output shaft of motor.

Preferably, the framework is provided with two pairs of bearing seats, and the two pairs of bearing seats are respectively in one-to-one corresponding rotary connection with the two rotary shafts so as to realize that the rotary shafts are in rotatable connection with the framework.

Preferably, the bottom end of the supporting frame is provided with a pair of directional wheels and a pair of universal wheels.

Preferably, a threaded hole is formed in the lower bearing seat, a long-strip-shaped positioning hole is correspondingly formed in the framework, the positioning hole is formed in the length direction of the conveyor belt, and the threaded hole is connected with the positioning hole through a bolt;

further comprising: two sets of wheel base adjusting part, two sets of wheel base adjusting part set up with two bearing frame one-to-one below being located, wheel base adjusting part is including locating the fixed block on skeleton top, with the threaded rod of bearing frame rigid coupling, be equipped with the fixed orifices on the fixed block, the free end of threaded rod passes the fixed orifices is fixed through two nuts.

Preferably, the conveying device further comprises a supporting mechanism, the supporting mechanism comprises two arc-shaped plates connected with the framework, the two arc-shaped plates are respectively arranged at two sides of the upper part of the conveying belt, the high end of the conveying belt is positioned between the two arc-shaped plates, the end part of the arc-shaped plate close to the high end of the conveyor belt is connected with a receiving box, the top end of the receiving box and the side surface of the receiving box facing the conveyor belt are both open, a plurality of guide plates 52 are clamped in the receiving box at intervals up and down, the bottom ends of the guide plates 52 and the receiving box are vertical to the surface of the conveyor belt, and the lower ends of the guide plates 52 are not in contact with the side walls of the receiving box to form a material guiding channel, the distance between the upper and lower guide plates 52 is equal to the distance between any two adjacent conveying plates, the distance between the guide plate 52 and the conveyor belt and the distance between the bottom end of the receiving box and the conveyor belt are equal.

Preferably, the motor is in transmission connection with the rotating shaft through a speed reducer.

The utility model discloses at least, include following beneficial effect:

first, the utility model discloses a set up transport mechanism and stock guide, realize taking out the abrasive material in the vibrations beveler, can effectively reduce the human labor, improve production efficiency.

Second, the utility model discloses a set up a vertical section for relative setting > a pair of stock guide of shape structure, just the stock guide sets up the baffle box, makes the abrasive material in the vibrations beveler pass through the baffle box and guide to the conveyer belt on, through the drive assembly drive the conveyer belt rotates and realizes shifting out the abrasive material on the abrasive material conveyer belt vibrations beveler, and through setting up the conveying board not only can avoid the abrasive material by landing on the conveyer belt works as moreover the conveying board is located the accessible conveying board shifts part material to the conveyer belt during the skeleton low side.

The third, realize collecting the abrasive material on the conveyer belt through setting up supporting mechanism, can avoid the abrasive material to scatter through setting up the arc, can accept the incasement with the leading-in bearing of abrasive material through the deflector 52 that sets up a plurality of intervals about setting up, just deflector 52 slope sets up and realizes accepting abrasive material on the conveying board avoids the abrasive material to scatter to ground.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a schematic structural view of a vibration chamfer groove outlet machine according to one technical scheme of the present invention;

fig. 2 is a schematic structural diagram of the conveying mechanism according to one embodiment of the present invention;

fig. 3 is a schematic structural diagram of the conveying mechanism according to one embodiment of the present invention;

fig. 4 is a schematic structural diagram of the conveying mechanism according to one embodiment of the present invention;

fig. 5 is a schematic structural diagram of the conveying mechanism according to one of the technical solutions of the present invention.

Detailed Description

The present invention is further described in detail below with reference to the drawings so that those skilled in the art can implement the invention with reference to the description.

As shown in fig. 1-5, the utility model provides a vibration chamfer groove outlet machine, including:

the conveying mechanism comprises a supporting frame 3 and a framework 4 (the framework 4 is obliquely arranged) obliquely connected with the top end of the supporting frame 3, a conveying belt 7 and a driving assembly for driving the conveying belt 7 to rotate are arranged on the framework 4, and a plurality of conveying plates 12 are arranged on the surface of the conveying belt 7 at intervals along the length direction of the conveying belt;

the vertical sections of the material guide plates 26 are oppositely arranged in a structure of a rectangle, the material guide plates 26 are connected with the framework 4 and are respectively positioned at two sides of the conveyor belt 7, and the upper surfaces of the material guide plates 26 are recessed at intervals along the length direction to form a plurality of material guide grooves 50.

In this solution, the transfer plate 12 is disposed along the width direction of the surface of the conveyor belt 7, the transfer plate 12 may be L-shaped, and the horizontal portion of the transfer plate 12 is connected to the surface of the conveyor belt 7 by bolts; the pair of material guiding plates 26 comprises two material guiding plates 26, the vertical sections of the two material guiding plates 26 are oppositely arranged to be "< >", the conveying belt is positioned between the two material guiding plates 26, the material guiding plates 26 are arranged along the length direction of the conveying belt 7, and the lower end of the conveyor belt 7 is flush with the lower end of the material guiding plate 26 (where the lower end coincides with the lower end of the framework 4), the upper edge of the material guiding plate 26 is slightly higher than the upper edge of the conveyor belt 7 so that the material is located on the conveyor belt 7, the distance between the upper edge of the material guide plate 26 and the conveying plate 12 is 0.5-1 mm, the guide chute 50 is disposed obliquely upward to guide the abrasive to the conveyor belt 7 through the guide chute 50, the material guide plate 26 is connected with the framework 4 through bolts, the framework 4 is connected with two support rods 22 through bolts, the end part of the support rod 22 is connected with the support frame 3 through a bolt so as to support the framework 4.

In the use, put into vibrations chamfer inslot with transport mechanism's lower extreme, transport mechanism's lower extreme is close to vibrations chamfering machine bottom, through the drive assembly drive conveyer belt 7 rotates, and the abrasive material passes through transfer board 12, baffle box 50 and gets into on the conveyer belt 7, along with the rotation of conveyer belt 7, the abrasive material rises and shifts out vibrations chamfering machine, and the completion is taken out the abrasive material in by vibrations chamfering machine.

By adopting the technical scheme, the utility model realizes taking out the grinding material in the vibration chamfering machine by arranging the conveying mechanism and the material guide plate 26, thereby effectively reducing the labor force and improving the production efficiency; the utility model discloses a set up a vertical section for relative setting > a pair of stock guide 26 of shape structure, just stock guide 26 sets up baffle 50, makes the abrasive material in the vibrations beveler pass through baffle 50 and guide to conveyer belt 7 on, drives through drive assembly conveyer belt 7 rotates and realizes shifting out the abrasive material on the abrasive material conveyer belt 7 vibrations beveler, and through setting up conveying plate 12 not only can avoid the abrasive material by landing on the conveyer belt 7 works as moreover conveying plate 12 is located accessible conveying plate 12 shifts part material to on the conveyer belt 7 during 4 low sides of skeleton.

In another technical solution, the driving assembly includes two rotating shafts 5 rotatably disposed on the frame 4 (the two rotating shafts 5 are disposed along the length direction of the frame 4 at intervals), the two rotating shafts 5 are disposed along the width direction of the conveyor belt 7, the rotating shafts 5 are disposed with two gears 6 at intervals (the gears 6 are coaxially fixedly connected with the rotating shafts 5, and the two gears 6 are respectively disposed near the two ends of the rotating shafts 5), the inner side of the conveyor belt 7 is disposed with two (annular) chains matched with the gears 6 at intervals (the chains are disposed along the length direction of the conveyor belt 7, one gear 6 of one rotating shaft 5 and the gear 6 of the other rotating shaft 5 jointly act on the same chain to drive the conveyor belt 7 to rotate through the gear 6), and the chain is disposed along the length direction of the conveyor belt 7, wherein, the rotating shaft 5 positioned above (i.e. positioned above, namely close to the high end of the framework 4, and one rotating shaft 5 of the two rotating shafts 5 is arranged close to the high end of the framework 4 and the other rotating shaft is arranged close to the low end of the framework 4) is connected with an output shaft of a motor 15 (the motor 15 is a three-phase asynchronous motor 15). By adopting the technical scheme, the conveyor belt 7 is driven to rotate.

In another technical scheme, two pairs of bearing seats 8 are arranged on the framework 4, and the two pairs of bearing seats 8 are respectively in one-to-one corresponding rotary connection with the two rotary shafts 5 (namely, one rotary shaft 5 is fixed on one pair of bearing seats 8) so as to realize that the rotary shafts 5 are in rotatable connection with the framework 4. By adopting the technical scheme, the rotatable connection between the rotating shaft 5 and the framework 4 is realized.

In another technical scheme, a pair of directional wheels 2 and a pair of universal wheels 1 are arranged at the bottom end of the support frame 3. By adopting the technical scheme, the directional wheel 2 and the universal wheel 1 are arranged so as to facilitate the movement of the support frame 3.

In another technical scheme, a threaded hole is formed in the lower bearing seat 8, a long-strip-shaped positioning hole is correspondingly formed in the framework 4, the positioning hole is formed along the length direction of the conveyor belt 7, and the threaded hole is connected with the positioning hole through a bolt;

further comprising: two sets of wheel base adjusting part, two sets of wheel base adjusting part set up with two 8 one-to-one of bearing frame that are located the below, wheel base adjusting part is including locating the fixed block 51 on 4 tops of skeleton (high-end), with the threaded rod of 8 rigid couplings of bearing frame, it is equipped with the fixed orifices to run through on the fixed block 51, the free end of threaded rod passes the fixed orifices is fixed (two nuts are located respectively) through two nuts fixed the both sides of fixed block 51, separates screw hole and its locating hole that corresponds earlier in the use, then keeps away from towards the nut is twisted to fixed block 51's direction, removes the threaded rod again and realizes adjusting the distance between two pairs of bearings, will move the nut and be connected screw hole and locating hole through the bolt towards fixed block 51 direction at last. By adopting the technical scheme, the tightness degree of the conveyor belt 7 is adjusted by arranging the wheel base adjusting assembly.

In another technical solution, the apparatus further comprises a receiving mechanism, the receiving mechanism includes two arc plates 16 connected to the framework 4 (one end of the arc plate 16 is connected to the material guide plate 26 on the same side thereof by a bolt), the two arc plates 16 are respectively disposed on two sides of the upper portion of the conveyor belt 7, and the high end of the conveyor belt 7 is located between the two arc plates 16 (to avoid scattering of the abrasive), the end portion of the arc plate 16 close to the high end of the conveyor belt 7 (the high end is the end portion close to the high end of the framework 4) is connected to a receiving box 18 (the receiving box 18 is connected to the support frame 3 by a bolt), the top end of the receiving box 18 and the side surface of the receiving box 18 facing the conveyor belt 7 are both open (the top end of the receiving box 18 is located below the high end of the conveyor belt 7 to receive the abrasive on the conveyor belt 7), a plurality of guide plates 52 are clamped in the receiving box 18 at intervals up and, the guide plates 52 and the bottom end of the receiving box 18 are both perpendicular to the surface of the conveyor belt 7 (the bottom end of the receiving box 18 is connected with the guide plate 26 through bolts), the lower ends of the guide plates 52 are not in contact with the side wall of the receiving box 18 to form a guide channel, the distance between the upper guide plate 52 and the lower guide plate 52 is equal to the distance between any two adjacent conveying plates 12, the distance between the guide plates 52 and the conveyor belt 7 and the distance between the bottom end of the receiving box 18 and the conveyor belt 7 are equal (the high end of each guide plate 52 is flush with the side surface where the opening of the receiving box 18 is located, the opening of the receiving box 18 is parallel to the surface of the conveyor belt 7, and when one guide plate 52 and one conveying plate 12 are located on the same plane, the distance between the guide plate 52 and the conveying plate 12 is 0.5-1 mm, i.e., the guide plate 52 does not interfere with the movement of the transfer plate 12 and the abrasives may be discharged into the receiving box 18 through the guide plate 52), the lower end of the receiving box 18 is provided with a discharge hole to discharge the abrasives in the receiving box 18. Adopt this technical scheme, realize collecting the abrasive material on the conveyer belt 7 through setting up supporting mechanism, can avoid the abrasive material to scatter through setting up arc 16, can accept the incasement 18 with the leading-in of abrasive material through the deflector 52 that sets up a plurality of intervals about setting up, just deflector 52 slope sets up and realizes accepting the abrasive material on the conveying board 12 avoids the abrasive material to scatter to ground.

In another technical scheme, the motor 15 is in transmission connection with the rotating shaft 5 through a speed reducer 14. By adopting the technical scheme, the rotating speed of the motor 15 is adjusted by arranging the speed reducer 14.

The number of apparatuses and the scale of the process described here are intended to simplify the description of the present invention. The application, modification and variation of the vibrating chamfer slot-forming machine of the present invention will be apparent to those skilled in the art.

While the embodiments of the invention have been described above, it is not intended to be limited to the details shown, or described, but rather to cover all modifications, which would come within the scope of the appended claims, and all changes which come within the meaning and range of equivalency of the art are therefore intended to be embraced therein.

Claims (7)

1. Vibrations chamfer groove machine of appearing, its characterized in that includes:

the conveying mechanism comprises a support frame and a framework obliquely connected with the top end of the support frame, a conveying belt and a driving assembly for driving the conveying belt to rotate are arranged on the framework, and a plurality of conveying plates are arranged on the surface of the conveying belt at intervals along the length direction of the conveying belt;

the vertical sections of the material guide plates are oppositely arranged in a structure which is larger than the shape of the material guide plates, the material guide plates are connected with the framework and are respectively positioned on two sides of the conveyor belt, and the upper surfaces of the material guide plates are recessed at intervals along the length direction of the material guide plates to form a plurality of material guide grooves.

2. The vibration chamfer grooving machine of claim 1, wherein the driving assembly comprises two rotating shafts rotatably disposed on the frame, the two rotating shafts are disposed along the width direction of the conveyor belt, two gears are disposed on the rotating shafts at intervals, two chains matched with the gears are disposed on the inner side of the conveyor belt at intervals, the chains are disposed along the length direction of the conveyor belt, and the rotating shaft above is connected with the output shaft of the motor.

3. The vibration chamfer grooving machine of claim 2 wherein the frame is provided with two pairs of bearing blocks, the two pairs of bearing blocks are respectively in one-to-one corresponding rotational connection with two rotating shafts to achieve the rotatable connection of the rotating shafts with the frame.

4. The vibrating chamfer groove forming machine according to claim 1, wherein a pair of directional wheels and a pair of universal wheels are provided at the bottom end of said support frame.

5. The vibrating chamfer groove forming machine according to claim 3, wherein a threaded hole is provided on the lower bearing seat, an elongated positioning hole is correspondingly provided on the frame, the positioning hole is provided along the length direction of the conveyor belt, and the threaded hole is connected with the positioning hole through a bolt;

further comprising: two sets of wheel base adjusting part, two sets of wheel base adjusting part set up with two bearing frame one-to-one below being located, wheel base adjusting part is including locating the fixed block on skeleton top, with the threaded rod of bearing frame rigid coupling, be equipped with the fixed orifices on the fixed block, the free end of threaded rod passes the fixed orifices is fixed through two nuts.

6. The vibration chamfer groove outlet machine according to claim 1, further comprising a receiving mechanism, wherein the receiving mechanism comprises two arc plates connected with the framework, the two arc plates are respectively arranged on two sides of the upper part of the conveyor belt, the high end of the conveyor belt is positioned between the two arc plates, the end part of the arc plate close to the high end of the conveyor belt is connected with a receiving box, the top end of the receiving box and the side surface of the receiving box facing the conveyor belt are both open, a plurality of guide plates 52 are clamped in the receiving box at intervals up and down, the bottom ends of the guide plates 52 and the receiving box are both vertical to the surface of the conveyor belt, the lower ends of the guide plates 52 are not in contact with the side wall of the receiving box to form a material guide channel, the distance between the upper guide plate 52 and the lower guide plate is equal to the distance between any two adjacent conveyor plates, and the distance between the guide plates 52 and the conveyor belt, The distance between the bottom end of the receiving box and the conveyor belt is equal.

7. The vibrating chamfer groove forming machine according to claim 3, wherein said motor is drivingly connected to said shaft through a speed reducer.

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