CN114799893B - Integrated equipment for trimming and drilling pitch-adjusting buckle plate - Google Patents

Abstract

The invention discloses integrated equipment for trimming and drilling a distance adjusting buckle plate, which comprises a frame, a trimming mechanism and a drilling mechanism, wherein continuous feeding and discharging of trimming and drilling work are realized on the frame through the cooperation of a lower feeding slideway, a station seat, an upper feeding slideway, an upper feed bin and a first feeding assembly and a second feeding assembly. Utilize this integration equipment can carry out the plastic simultaneously to adjusting the periphery and the hole of spacing knot board, avoided the transportation of work piece, only need a staff carry out the feed supplement operation can, reduce the manual work, improved work efficiency. In addition, this integration equipment utilizes two upper and lower pay-off slides to accomplish the pay-off to the side cut of work piece and drilling station through reasonable overall arrangement setting, has reduced the volume of equipment, has practiced thrift the area of occupation in space.

Description

Integrated equipment for trimming and drilling pitch-adjusting buckle plate

Technical Field

The invention relates to the technical field of railway fastener processing, in particular to integrated equipment for trimming and drilling a distance adjusting buckle plate.

Background

At present, the distance adjusting buckle plate of the rail system fastener of the intercity rail transit engineering has larger burrs on the periphery and holes after being molded by a casting production line, and the burrs are required to be processed by a punch and a drilling machine respectively. The prior art has the defects that the noise pollution is large by utilizing the peripheral burr removed by the punching machine, the manual transfer to the station of the drilling machine is needed to remove the burrs of the manual holes after the machining is finished, one product is needed to be finished by three persons, the labor is consumed, the efficiency is low, and the danger is high.

Disclosure of Invention

The invention aims to solve the technical problem of providing an integrated device for trimming and drilling a distance adjusting buckle plate with high efficiency.

In order to solve the technical problems, the invention adopts the following technical scheme:

a integration equipment for pitch adjustment buckle side cut and drilling processing, including the frame, its characterized in that still includes:

the lower feeding slideway is horizontally fixed on the frame;

the station seat is positioned in the middle of the lower feeding slideway, a second station is formed on the lower feeding slideway in front of the station seat, the bottom of the station seat is fixed on the lower feeding slideway through a first bracket, and a vertical channel for a distance-adjusting buckle plate to fall down is formed on the station seat;

the upper feeding slide rail is positioned above the lower feeding slide rail in parallel, and the front end of the feeding slide rail is fixed with the station seat and is flush with the upper surface of the station seat;

the bottom of the upper feed bin is fixed on the upper feed slideway through a second bracket, and a row of space for stacking distance adjusting buckle plates is arranged in the upper feed bin;

the first feeding assembly comprises a material ejection arm and a first feeding arm, wherein the material ejection arm is vertically arranged, can upwards pass through the lower feeding slideway and extend into a channel of the station seat, and is horizontally arranged, and can forwards push out a distance adjusting buckle plate at the bottom of the feeding bin along the upper feeding slideway;

the second feeding assembly comprises a second feeding arm which is horizontally arranged and can push the distance adjusting buckle plate falling from the upper channel of the station seat forwards along the lower feeding slideway;

the trimming mechanism and the drilling mechanism are respectively arranged right above the station seat and the second station and are used for trimming, shaping and drilling and shaping the pitch adjusting buckle plate, a trimming blanking port for falling trimming waste is formed in a lower feeding slideway between the station seat and the second station, and a drilling blanking port for falling drilling waste is formed in the second station; and

And the controller is used for controlling the output end to be connected with the first feeding arm, the second feeding arm, the ejection arm, the trimming mechanism and the drilling mechanism.

The further technical scheme is that the shape of the blanking channel on the station seat is matched with the shape of the trimming knife on the trimming mechanism, and a blanking gap is formed between the material ejection arm and the blanking channel on the station seat.

Further technical scheme lies in, go up the feed bin and include two angle steel, two angle steel diagonal angles and interval setting, two angle steel can with the cooperation of pitch buckle sliding connection, the second support supports the left and right sides of going up the feed bin.

The first feeding arm and/or the second feeding arm comprises a feeding cylinder and a pushing plate, the front end of the pushing plate is provided with a horizontal pushing plate which can penetrate through the second bracket or the first bracket, a vertical connecting plate is fixed at the rear end of the pushing plate, and the connecting plate is fixed with a cylinder rod of the feeding cylinder and is limited by the forward movement of a feeding bin or a station seat.

The further technical scheme is that a distance sensor for monitoring the distance between the connecting plate and the feeding bin and/or the station seat is arranged between the connecting plate and the feeding bin and/or the station seat, and the distance sensor is connected with a signal input end of the controller.

The further technical scheme is that a guide structure matched with the upper feeding slideway and/or the lower feeding slideway in a sliding way along the feeding direction is arranged between the pushing plate and the upper feeding slideway or the lower feeding slideway.

The further technical scheme is that the material ejection arm extends upwards to the highest position and then is lower than the upper surface of the station seat;

the upper feeding slideway between the upper storage bin and the station seat is fixedly provided with two first lateral positioning plates for laterally positioning the distance adjusting buckle plate, and the two first lateral positioning plates are respectively arranged on the left side and the right side of the upper feeding slideway and can be used for allowing the distance adjusting buckle plate to pass through.

The further technical scheme is that the second lateral locating plates for laterally locating the distance adjusting buckle plate are fixed on the lower feeding slideway at the second station, the second lateral locating plates are two and are respectively arranged on the left side and the right side of the lower feeding slideway, and the distance adjusting buckle plate can pass through the two second lateral locating plates.

The further technical proposal is that inlets of the two second lateral positioning plates are provided with guide inlets which are in a horn shape.

The trimming mechanism comprises a trimming blade and a trimming cylinder for driving the trimming blade to reciprocate up and down.

The beneficial effects of adopting above-mentioned technical scheme to produce lie in:

utilize this integration equipment can carry out the plastic simultaneously to adjusting the periphery and the hole of spacing knot board, avoided the transportation of work piece, only need a staff carry out the feed supplement operation can, reduce the manual work, improved work efficiency. In addition, this integration equipment utilizes two upper and lower pay-off slides to accomplish the pay-off to the side cut of work piece and drilling station through reasonable overall arrangement setting, has reduced the volume of equipment, has practiced thrift the area of occupation in space.

Drawings

The invention will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic view of the structure of the present integrated apparatus;

fig. 2 is a schematic top view of the loading bin of the present disclosure.

Detailed Description

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

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present invention is not limited to the specific embodiments disclosed below.

As shown in fig. 1 and 2, an integrated device for trimming and drilling a distance adjusting buckle plate is disclosed, and comprises a frame 1, a trimming mechanism 10 and a drilling mechanism 20, wherein continuous feeding and discharging of trimming and drilling work is realized on the frame 1 through cooperation of a lower feeding slideway 2, a station seat 3, an upper feeding slideway 4, an upper feed bin 5, a first feeding assembly and a second feeding assembly, and the integrated device also comprises a control logic controller for coordinating logic operation of the mechanisms.

The lower feeding slideway 2 is horizontally fixed on the frame 1. The station seat 3 is a first station in the equipment, is positioned in the middle of the lower feeding slideway 2, and a second station is formed on the lower feeding slideway 2 in front of the station seat 3. The trimming mechanism 10 and the drilling mechanism 20 are respectively arranged right above the station seat 3 and the second station and are used for trimming, shaping and drilling and shaping the pitch adjusting pinch plate. The bottom of the station seat 3 is fixed on the lower feeding slideway 2 through a first bracket, and a vertical channel for the distance-adjusting buckle plate to fall down is arranged on the station seat 3. The upper feeding slideway 4 is positioned above the lower feeding slideway 2 in parallel, and the front end of the feeding slideway is fixed with the station seat 3 and is flush with the upper surface of the station seat 3. By arranging the station seat 3, the upper feeding slideway 4 is connected with the lower feeding slideway 2, so that continuous feeding of workpieces from the first station to the second station can be realized.

The upper bin 5 is located in the middle of the upper feeding slideway 4, the bottom of the upper bin 5 is fixed on the upper feeding slideway 4 through a second bracket, and a row of space for stacking distance adjusting buckle plates is arranged in the upper bin 5. Specifically, go up feed bin 5 and include two angle steel, two angle steel diagonal angles and interval setting for go up feed bin 5 and not annular confined bin, have the breach on the lateral wall, the filling and discharging feed of the work piece of being convenient for on the one hand, on the other hand avoid the too big problem that leads to unable put into feed bin 5 of work piece edge burr. The two angle steels can be matched with the two angles of the distance adjusting buckle plate in a sliding way, and the distance adjusting buckle plate is initially positioned. The second support supports the left side and the right side of the upper bin 5, and does not shade the front side and the rear side of the upper bin 5.

The first feeding component is used for pushing out a distance adjusting buckle plate at the bottommost part of the upper bin 5 forwards, and continuously pushing out the distance adjusting buckle plate at the bottommost part of the upper bin 5 forwards, so that workpieces can be continuously conveyed to the station base 3 for trimming, and burrs on the periphery of the workpieces are removed. The first feeding assembly comprises a jacking arm 6 and a first feeding arm 7, wherein the jacking arm 6 is vertically arranged, can upwards penetrate through the lower feeding slideway 2 and extend into a channel of the station seat 3, the first feeding arm 7 is horizontally arranged, and can forwards push out a distance adjusting buckle plate at the bottom of the upper feed bin 5 along the upper feeding slideway 4.

The second feeding assembly is used for pushing the workpiece which falls from the station seat 3 to the lower feeding slideway 2 at least forwards to a position of one workpiece, and the workpiece can be continuously conveyed to the second station for drilling processing by repeatedly pushing the blanking forwards so as to remove burrs on an inner hole of the workpiece. The second feeding assembly comprises a second feeding arm 8, the second feeding arm 8 is horizontally arranged, and the distance adjusting buckle plate falling from the upper channel of the station seat 3 can be pushed forward along the lower feeding slideway 2.

During operation, the staff is with the material loading in the material loading storehouse 5, and the first pay-off arm 7 of controller control is stretched and is released a distance adjusting buckle of material loading storehouse 5 bottommost forward and send to the work seat on, and simultaneously the upward extension of controller control liftout arm 6 supports the work piece, prevents that the work piece from dropping from the passageway, then the descending side cut of controller control side cut mechanism 10. After trimming is completed, the trimming mechanism 10 is lifted, the material ejecting arm 6 is retracted and reset, and the workpiece falls onto the lower feeding slideway 2 through the channel on the station seat 3. The controller controls the second feeding arm 8 to extend, and the falling workpiece is continuously pushed forward to the second station, and then the controller controls the drilling mechanism 20 to work. When the second feeding assembly finishes feeding forward once, the first feeding assembly repeats feeding last time, namely the second feeding assembly and the first feeding assembly work alternately. The processed workpiece is continuously pushed out by the front end of the lower feeding slideway 2 and then is collected by a collecting box.

The trimming mechanism 10 includes a trimming blade 101 and a trimming cylinder 102 that drives the trimming blade 101 to reciprocate up and down. The shape of the blanking channel on the station seat 3 is matched with the shape of the trimming cutter 101 on the trimming mechanism 10, the trimming cutter 101 is cut into the channel, and the channel has a guiding function on the falling of the trimming cutter 101, so that the stress deflection of the trimming cutter 101 is prevented. A blanking gap is formed between the blanking arm 6 and the blanking channel on the station seat 3, so that waste can fall down. The lower feeding slideway 2 between the station seat 3 and the second station is provided with an edge cutting blanking port for the falling of edge cutting waste materials, and the waste materials are discharged along with the forward pushing of the workpiece. The lifting of the trimming blade 101 is started by the trimming cylinder 102, so that the lifting of the trimming blade 101 is stable, and the air can be compressed, so that the trimming blade 101 is buffered when in contact with a workpiece, and the noise during trimming is reduced.

The drilling mechanism 20 includes a drill cylinder, a drill motor, and a drill bit, the drill motor driving the drill bit to rotate, the drill cylinder being used to drive the drill motor and the drill bit to move up and down. When a workpiece is required to be drilled, the controller controls the drilling machine motor to work, and simultaneously controls the drilling machine cylinder to drive the drilling machine motor and the drilling bit to move downwards, so that burrs are removed from holes of materials, after drilling is completed, the drilling machine motor is stopped, and the drilling machine cylinder drives the drilling machine motor and the drilling bit to reset upwards. And a drilling blanking port for the drilling waste to fall down is formed at the second station.

And a conveying belt for receiving and conveying waste materials outwards can be arranged below the drilling blanking port and the trimming blanking port.

In the first feeding assembly, the material ejection arm 6 comprises a material ejection cylinder, the material ejection cylinder is fixed on the frame 1, a cylinder rod of the material ejection cylinder is arranged upwards, and the material ejection cylinder can penetrate through the lower feeding slideway 2 to extend into a channel of the station seat 3. The first feeding arm 7 comprises a feeding cylinder 01 and a pushing plate 02, the front end of the pushing plate 02 is provided with a horizontal pushing plate which can penetrate through the second bracket, a vertical connecting plate is fixed at the rear end of the pushing plate, and the connecting plate is fixed with a cylinder rod of the feeding cylinder 01 and is limited by the forward movement of the feeding bin 5. The feeding cylinder 01 drives the lever to extend, the pushing plate penetrates through the second support to push out the workpiece at the bottom from the feeding bin 5, and then the feeding cylinder 01 resets. Continuous feeding to the first station is realized through the reciprocating extension and retraction of the feeding air cylinder 01 in the first feeding arm 7. In order to ensure the accuracy of the position of the workpiece after reaching the first station, in the equipment, the material ejection arm 6 extends upwards to the highest position and then is lower than the upper surface of the station seat 3, so that a positioning sink groove is formed at the top of a channel of the station seat 3, the top of the sink groove can be set to be a trumpet-shaped guide inlet, the accuracy of the position of the workpiece on the first station can be ensured, and the workpiece displacement during trimming can be prevented.

Further, a first lateral positioning plate 401 for laterally positioning the distance adjusting buckle plate is fixed on the upper feeding slide way 4 between the upper storage bin 5 and the station seat 3, and the first lateral positioning plate 401 is provided with two first lateral positioning plates which are respectively arranged on the left side and the right side of the upper feeding slide way 4, and the distance adjusting buckle plate can pass through between the two first lateral positioning plates. The workpiece is ensured not to laterally shift in the process of conveying from the feeding bin 5 to the first station. And a guide structure matched with the upper feeding slideway 4 in a sliding way along the feeding direction is arranged between the material pushing plate and the upper feeding slideway 4, so that the bidirectional positioning of the material pushing plate and the workpiece is realized.

The first feeding arm 7, the material ejection arm 6 and the edge cutting mechanism 10 are connected with signal output ends of the controller, and the operation of the first feeding arm 7, the material ejection arm 6 and the edge cutting mechanism 10 is controlled by the controller.

In order to ensure that the first feed arm 7 pushes the workpiece exactly forward onto the predetermined position of the station holder 3, a distance sensor is provided between the connecting plate and the loading bin 5 and between them for monitoring the distance between them, said distance sensor being connected to the signal input of the controller. When the distance sensor detects that the distance between the connecting plate on the first feeding arm 7 and the feeding bin 5 reaches a set value, a signal is transmitted to the controller, and the controller controls the first feeding arm 7 to stop moving forwards and simultaneously controls the first feeding arm 7 to shrink and retract for reset.

In the second feeding assembly, the second feeding arm 8 has the same structure as the first feeding arm 7, and comprises a feeding cylinder 01 and a pushing plate 02, wherein the front end of the pushing plate 02 is provided with a horizontal pushing plate which can penetrate through a first bracket, a vertical connecting plate is fixed at the rear end of the pushing plate, and the connecting plate is fixed with a cylinder rod of the feeding cylinder 01 and is limited by the forward movement of a station seat 3. The feeding cylinder 01 drives the lever to extend, the pushing plate penetrates through the first support to push out the falling workpiece, and then the feeding cylinder 01 resets. Continuous feeding to the second station is realized through the reciprocating extension and retraction of the feeding air cylinder 01 in the second feeding arm 8. The pushing plate runs along the lower feeding slideway, and can push the trimming waste into the trimming blanking port completely to fall.

Further, a second lateral positioning plate 201 for laterally positioning the distance adjusting buckle plate is fixed on the lower feeding slideway 2 at the second station, and the second lateral positioning plate 201 is provided with two second lateral positioning plates, which are respectively arranged on the left side and the right side of the lower feeding slideway 2, and the distance adjusting buckle plate can pass through the two second lateral positioning plates 201. The inlets of the two second lateral positioning plates are provided with guide inlets which are in a horn shape, so that workpieces can enter conveniently and can be guided and corrected, and lateral displacement is avoided when the workpieces are conveyed to the second station. And a guide structure matched with the lower feeding slideway 2 in a sliding way along the feeding direction is arranged between the material pushing plate and the lower feeding slideway 2, so that the bidirectional positioning of the material pushing plate and the workpiece is realized.

Wherein, second pay-off arm 8 and drilling mechanism 20 are connected with the signal output part of controller, and the operation of second pay-off arm 8 and drilling mechanism 20 is controlled through the controller.

In order to ensure that the second feed arm 8 is accurately pushing the workpiece forward to the predetermined position of the second station, a distance sensor is provided between the connecting plate and the station holder 3 and between them for monitoring the distance between them, which distance sensor is connected to the signal input of the controller. When the distance sensor detects that the distance between the connecting plate on the second feeding arm 8 and the station seat 3 reaches a set value, a signal is transmitted to the controller, and the controller controls the second feeding arm 8 to stop moving forwards and simultaneously controls the second feeding arm 8 to shrink and retract for reset.

Utilize this integration equipment can carry out the plastic simultaneously to adjusting the periphery and the hole of spacing knot board, avoided the transportation of work piece, only need a staff carry out the feed supplement operation can, reduce the manual work, improved work efficiency. In addition, this integration equipment utilizes two upper and lower pay-off slides to accomplish the pay-off to the side cut of work piece and drilling station through reasonable overall arrangement setting, has reduced the volume of equipment, has practiced thrift the area of occupation in space.

The foregoing is only a preferred embodiment of the present invention, and any and all simple modifications, variations and equivalents of the present invention will fall within the scope of the present invention.

Claims (10)

1. A integration equipment for pitch adjustment buckle side cut and drilling processing, including frame (1), its characterized in that still includes:

the lower feeding slideway (2) is horizontally fixed on the frame (1);

the station seat (3) is positioned in the middle of the lower feeding slideway (2), a second station is formed on the lower feeding slideway (2) in front of the station seat (3), the bottom of the station seat (3) is fixed on the lower feeding slideway (2) through a first bracket, and a vertical channel for a distance-adjusting buckle plate to fall is formed on the station seat (3);

the upper feeding slide rail (4) is positioned above the lower feeding slide rail (2) in parallel, and the front end of the feeding slide rail is fixed with the station seat (3) and is flush with the upper surface of the station seat (3);

the upper bin (5) is positioned in the middle of the upper feeding slide way (4), the bottom of the upper bin (5) is fixed on the upper feeding slide way (4) through a second bracket, and a row of space for stacking distance adjusting buckle plates is arranged in the upper bin (5);

the first feeding assembly comprises a material ejection arm (6) and a first feeding arm (7), wherein the material ejection arm (6) is vertically arranged, can upwards penetrate through the lower feeding slideway (2) and extend into a channel of the station seat (3), and the first feeding arm (7) is horizontally arranged and can be pushed out forwards along the upper feeding slideway (4) to form a distance adjusting buckle plate at the bottom of the upper bin (5);

the second feeding assembly comprises a second feeding arm (8), wherein the second feeding arm (8) is horizontally arranged and can push a distance adjusting buckle plate falling from an upper channel of the station seat (3) forwards along the lower feeding slideway (2);

the trimming mechanism (10) and the drilling mechanism (20) are respectively arranged right above the station seat (3) and the second station and are used for trimming, shaping and drilling and shaping the pitch-adjusting buckle plate, a trimming blanking port for falling trimming waste is formed in a lower feeding slideway (2) between the station seat (3) and the second station, and a drilling blanking port for falling drilling waste is formed in the second station; and

And the control output end of the controller is connected with the first feeding arm (7), the second feeding arm (8), the ejection arm (6), the trimming mechanism (10) and the drilling mechanism (20).

2. The integrated equipment according to claim 1, wherein the shape of the blanking channel on the station seat (3) is matched with the shape of the trimming knife (101) on the trimming mechanism (10), and a blanking gap is formed between the material ejection arm (6) and the blanking channel on the station seat (3).

3. The integrated equipment according to claim 1, wherein the upper bin (5) comprises two angle steels, the two angle steels are diagonally arranged at intervals, the two angle steels can be matched with the distance adjusting buckle plate in a sliding manner, and the second support supports the left side and the right side of the upper bin (5).

4. The integrated equipment according to claim 1, characterized in that the first feeding arm (7) and/or the second feeding arm (8) comprise a feeding cylinder (01) and a pushing plate (02), the front end of the pushing plate (02) is provided with a horizontal pushing plate which can penetrate through the second bracket or the first bracket, a vertical connecting plate is fixed at the rear end of the pushing plate, and the connecting plate is fixed with a cylinder rod of the feeding cylinder (01) and is limited by the forward movement of the feeding bin (5) or the station seat (3).

5. The integrated device according to claim 4, characterized in that a distance sensor for monitoring the distance between the connecting plate and the upper bin (5) and/or the station holder (3) is provided, and the distance sensor is connected with the signal input end of the controller.

6. The integrated equipment according to claim 4, characterized in that the pushing plate is provided with a guiding structure matched with the upper feeding slideway (4) and/or the lower feeding slideway (2) in a sliding way along the feeding direction.

7. The integrated equipment according to claim 1, characterized in that the ejector arm (6) extends upwards to the highest position and then below the upper surface of the station holder (3);

the automatic feeding device is characterized in that a first lateral positioning plate (401) for laterally positioning the distance adjusting buckle plate is fixed on an upper feeding slideway (4) between the upper feed bin (5) and the station seat (3), the first lateral positioning plate (401) is provided with two blocks, and is respectively arranged on the left side and the right side of the upper feeding slideway (4), and the distance adjusting buckle plate can be fed between the two first lateral positioning plates.

8. The integrated equipment according to claim 1, wherein a second lateral positioning plate (201) for laterally positioning the distance adjusting buckle plate is fixed on the lower feeding slideway (2) at a second station, the second lateral positioning plate (201) is provided with two pieces, and is respectively arranged at the left side and the right side of the lower feeding slideway (2), and the distance adjusting buckle plate can pass through the two pieces of second lateral positioning plates (201).

9. The integrated device according to claim 8, characterized in that the inlets of the two second lateral positioning plates (201) are provided with trumpet-shaped guiding inlets.

10. The integrated apparatus of claim 1, wherein the trimming mechanism (10) comprises a trimming blade (101) and a trimming cylinder (102) driving the trimming blade (101) to reciprocate up and down.

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