CN217668399U - Automatic pipe cutting, burr rolling and pipe storing equipment - Google Patents

Abstract

The utility model discloses an automatic change pipe cutting and roll burr storage tube equipment, including the base plate, a machine support, move the subassembly, storage mechanism and symmetrical formula set up in the centre gripping grinding mechanism of base plate, centre gripping grinding mechanism includes left centre gripping grinding mechanism and right centre gripping grinding mechanism, and the base plate is located side of frame, and left centre gripping grinding mechanism is fixed to be set up the prelude of base plate, and right centre gripping grinding mechanism slips the afterbody of locating the base plate, and storage mechanism includes conveyer belt and stock device, and the conveyer belt is installed in the top of frame, and the stock device is located the afterbody side of conveyer belt, the utility model discloses can use with tubular product cutting, welding seam equipment cooperation, can hold the operation of carrying out the burring automatically with the tubular product that the cutting is good, save the artifical transfer of tubular product and go the time improvement deburring efficiency of artifical burr, and possess the function of transporting and storing tubular product after having gone the burr, the utility model discloses an automation degree is high, saves artifical expense, improves the efficiency of production.

Description

Automatic pipe cutting, burr rolling and pipe storing equipment

Technical Field

The utility model relates to a relevant technical field of tubular product processing equipment especially relates to automatic pipe cutting rolls burr and stores up a tub equipment.

Background

In the production process of the heat preservation cup, the forming process of the cup body needs to be carried out through the following steps: 1) rolling the steel material into a cylinder, 2) welding, 3) cutting, and 4) polishing, wherein before the step 4), a burr rolling step is generally carried out on the welded steel pipe. The existing burr rolling step needs manual operation alone, the cutting opening needs to be deburred after the two ends of the steel pipe are cut, the workpiece stays too long in the step due to manual movement and polishing before deburring, the production efficiency is reduced, and equipment capable of receiving the pipe and deburring the pipe is needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic pipe cutting rolls burr and stores up a tub equipment to overcome the not enough that exists among the prior art.

In order to achieve the above object, the present invention provides the following technical solutions:

automatic change pipe cutting and roll burr storage tube equipment, set up in the centre gripping grinding machanism of base plate including base plate, frame, moving subassembly, storage mechanism and symmetry formula, centre gripping grinding machanism includes left centre gripping grinding machanism and right centre gripping grinding machanism, and the base plate is located the side of frame, and the fixed prelude that sets up the base plate of left centre gripping grinding machanism, and the afterbody of base plate is located to right centre gripping grinding machanism cunning, moves the subassembly and erects in centre gripping grinding machanism's top, storage mechanism includes conveyer belt and stock device, and the conveyer belt is installed in the top of frame, and centre gripping grinding machanism is located the prelude side of conveyer belt, and the stock device is located afterbody side of conveyer belt.

Further, the left clamping and polishing mechanism and the right clamping and polishing mechanism are the same in structure, and the right clamping and polishing mechanism comprises a transverse air cylinder, a longitudinal air cylinder, a plurality of air cylinder connectors, an air cylinder limiting block, a pair of air cylinder limiting strips, a bearing pressing plate, a rolling pipe bearing seat, a bearing cover, a spline bearing seat, a double-groove driven belt pulley, a double-groove driving belt pulley, a rolling pipe rotating shaft center, a plurality of deep groove ball bearings, a spline shaft, a mold, an asynchronous motor, a motor bottom plate, a burr rolling bottom plate and a pair of burr rolling fixed-aid plates;

the pair of burr rolling fixing and assisting plates are fixedly arranged on two sides of the base plate, the burr rolling base plate is fixedly arranged above the burr rolling fixing and assisting plates, the spline bearing block, the transverse air cylinder and the air cylinder limiting strip are fixedly arranged above the burr rolling base plate, the air cylinder limiting block is slidably arranged on the air cylinder limiting strip, the rolling pipe bearing block is fixedly arranged on the side wall of the air cylinder limiting block, and the air cylinder limiting block is connected with the transverse air cylinder through an air cylinder connector;

the spline shaft penetrates through the spline bearing seat and the double-groove driven pulley, the driven pulley and the spline bearing seat are coaxially arranged, the spline shaft is rotatably connected with the spline bearing seat through the deep groove ball bearings, and the rotating axis of the rolling tube is rotatably connected with the rolling tube bearing seat through the deep groove ball bearings;

the head part of the rotating axis of the rolling tube is detachably provided with a die;

the vertical cylinder is fixedly arranged on the base plate, the cylinder connector is arranged at the top of the vertical cylinder, the roller tube jacking block is arranged above the vertical cylinder, the deburring component is arranged above the roller tube jacking block, and the deburring component is located below the die.

Further, forked tail slide rail, forked tail slider and screw rod adjusting part have been installed to the base plate, the forked tail slide rail sets firmly on the base plate, and the forked tail slider is slided and is located the forked tail slide rail, and the screw rod adjusting part is installed inside the forked tail slide rail, and the screw rod adjusting part is used for adjusting the position of forked tail slider at the forked tail slide rail.

Furthermore, right side centre gripping grinding machanism sets firmly on the forked tail slider, and right side centre gripping grinding machanism passes through forked tail slider and forked tail slide rail and base plate swing joint.

Further, the pipe moving component comprises a pipe pushing cylinder group, a blocking cylinder group, a guide metal plate, a proximity switch, a pipe pushing metal plate and a baffle plate; the pipe pushing cylinder is erected above the side of the clamping and polishing mechanism, the guide metal plate is fixedly arranged on the burr rolling base, the side wall of the guide metal plate is provided with a proximity switch, the deburring component penetrates through the guide metal plate, the pipe pushing metal plate is arranged on a pipe pushing cylinder group, the baffle is arranged on a blocking cylinder group, and the bottom of the guide metal plate extends towards the conveying belt.

Furthermore, a blanking cylinder group is arranged on one side of the tail end of the conveying belt, a motor and a triangular plate are further fixedly arranged at the tail end of the conveying belt, and the triangular plate is located above the motor.

Furthermore, right side centre gripping grinding machanism is still including being used for the lift screw rod and the nut of adjustment motor bottom plate height, the lift screw rod runs through the motor bottom plate, and lift screw rod rectangle array distributes around the motor bottom plate, and the motor bottom plate is fixed in on the base plate through lift screw rod and nut.

Furthermore, the double-groove driven belt pulley is fixed at the output end of the asynchronous motor through a machine meter screw.

Further, the material storage device is including guide oblique panel beating, storage slide, rodless cylinder and storage case, the both sides of storage case have set firmly L type baffle, the removal end of storage slide and rodless cylinder is connected, and the storage slide sets firmly in the inside wall that the storage case is close to rodless cylinder one side, and the inside of storage slide is embedded to be equipped with photoelectric sensing ware.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the utility model discloses can use with tubular product cutting, welding seam equipment cooperation, can hold the operation of carrying out the burring automatically with the tubular product that the cutting is good, save the artifical transfer of tubular product and the time of removing artifical burr improves the efficiency of burring, and possesses the function that transports and store the tubular product after having removed the burr, the utility model discloses an degree of automation is high, saves artificial expense, improves the efficiency of tubular product production.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the right clamping and polishing mechanism of the present invention;

FIG. 3 is a block diagram of the clamping and grinding mechanism removed;

fig. 4 is a schematic structural view of the stocker.

Reference is made to the accompanying drawings in which:

2-frame, 3-conveyor belt, 4-transverse air cylinder, 5-longitudinal air cylinder, 6-cylinder connector, 7-cylinder stopper, 8-cylinder stopper, 9-bearing press plate, 10-roller bearing seat, 11-bearing cover, 12-spline bearing seat, 13-double-groove driven pulley, 14-double-groove driving pulley, 15-roller rotation axis, 16-deep groove ball bearing, 17-spline shaft, 18-die, 19-asynchronous motor, 20-motor bottom plate, 21-roller burr bottom plate, 22-roller burr fixing plate, 24-burr assembly, 25-dovetail slide rail, 26-dovetail slide block, 27-screw adjustment assembly, 28-push-pipe cylinder group, 29-block cylinder group, 30-guide cylinder group, 31-approach switch, 32-push-pipe metal plate, 33-baffle, 34-blanking cylinder group, 35-triangle plate, 36-lifting screw, 37-guide oblique-guide slide plate, 38-storage slide plate, 39-rodless air cylinder, 40-storage tank, 41-L-type polishing baffle, 42-left-clamp polishing mechanism, 43-right clamp polishing mechanism, 44-storage-moving mechanism, and induction mechanism.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. When the number of an element is referred to as "a plurality," it can be any number of two or more. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a single embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The present invention will be described in detail with reference to embodiments shown in the drawings:

as shown in fig. 1-4, in the present embodiment, an automatic pipe cutting and burr rolling storage apparatus is provided, which includes a substrate, a frame 2, a pipe moving component 44, a storage mechanism 45, and a clamping and polishing mechanism symmetrically disposed on the substrate, where the clamping and polishing mechanism includes a left clamping and polishing mechanism 42 and a right clamping and polishing mechanism 43, the substrate is located on a side of the frame 2, the left clamping and polishing mechanism 42 fixes a head portion of the substrate, the right clamping and polishing mechanism 43 is slidably disposed on a tail portion of the substrate, the pipe moving component 44 is erected above the clamping and polishing mechanism, the storage mechanism 45 includes a conveyor belt 3 and a storage device, the conveyor belt 3 is installed above the frame 2, the clamping and polishing mechanism is located on a side of the head portion of the conveyor belt 3, and the storage device is located on a side of the tail portion of the conveyor belt 3.

The left clamping and polishing mechanism 42 and the right clamping and polishing mechanism 43 have the same structure, and the right clamping and polishing mechanism 43 comprises a transverse air cylinder 4, a longitudinal air cylinder 5, a plurality of air cylinder connectors 6, an air cylinder limiting block 7, a pair of air cylinder limiting strips 8, a bearing pressing plate 9, a rolling tube bearing seat 10, a bearing cover 11, a spline shaft 17 bearing seat 12, a double-groove driven belt pulley 13, a double-groove driving belt pulley 14, a rolling tube rotating shaft center 15, a plurality of deep groove ball bearings 16, a spline shaft 17, a die 18, an asynchronous motor 19, a motor bottom plate 20, a burr rolling bottom plate 21 and a pair of burr rolling auxiliary plates 22;

it is worth mentioning that since the right clamping device is above the dovetail rail 25 and the dovetail slider 26, in order to keep the left and right clamping devices on the same horizontal line, the burr fixing plate 22 of the right clamping device is slightly lower than the left clamping device, and the height difference is the sum of the heights of the dovetail rail 25 and the dovetail slider 26.

The pair of burr rolling fixing and assisting plates 22 are fixedly arranged on two sides of the base plate, the burr rolling bottom plate 21 is fixedly arranged above the burr rolling fixing and assisting plates 22, the spline shaft 17 bearing seat 12, the transverse air cylinder 4 and the air cylinder limiting strip 8 are fixedly arranged above the burr rolling bottom plate 21, the air cylinder limiting block 7 is slidably arranged on the air cylinder limiting strip 8, the rolling pipe bearing seat 10 is fixedly arranged on the side wall of the air cylinder limiting block 7, and the air cylinder limiting block 7 is connected with the transverse air cylinder 4 through the air cylinder connector 6;

the deep groove ball bearings 16 are respectively arranged inside the spline shaft 17 bearing seat 12 and the roller tube bearing seat 10, the bearing pressing plate 9 is fixedly arranged on the side wall of the roller tube bearing seat 10, the bearing cover 11 is fixedly arranged on the side wall of the spline shaft 17 bearing seat 12, the spline shaft 17 penetrates through the spline shaft 17 bearing seat 12 and the double-groove driven pulley 13, the driven pulley and the spline shaft 17 bearing seat 12 are coaxially arranged, the spline shaft 17 is rotatably connected with the spline shaft 17 bearing seat 12 through the deep groove ball bearings 16, and the roller tube rotating shaft center 15 is rotatably connected with the roller tube bearing seat 10 through the deep groove ball bearings 16;

the roller tube rotating shaft center 15 penetrates through the spline shaft 17 and the roller tube bearing seat 10, the roller tube rotating shaft center 15 is slidably arranged on the inner side wall of the spline shaft 17 through a key and a key groove, and a die 18 is detachably arranged at the head part of the roller tube rotating shaft center 15; the longitudinal cylinder 5 is fixedly arranged on the base plate, the cylinder connector 6 is arranged at the top of the longitudinal cylinder 5, the tube rolling jacking block is arranged above the longitudinal cylinder 5, the deburring component 24 is arranged above the tube rolling jacking block, and the deburring component 24 is positioned below the die 18.

The base plate is provided with a dovetail slide rail 25, a dovetail slide block 26 and a screw rod adjusting component 27, the dovetail slide rail 25 is fixedly arranged on the base plate, the dovetail slide block 26 is slidably arranged on the dovetail slide rail 25, the screw rod adjusting component 27 is arranged inside the dovetail slide rail 25, and the screw rod adjusting component 27 is used for adjusting the position of the dovetail slide block 26 on the dovetail slide rail 25.

The right clamping and polishing mechanism 43 is fixedly arranged on the dovetail slide block 26, and the right clamping and polishing mechanism 43 is movably connected with the substrate through the dovetail slide block 26 and the dovetail slide rail 25. The pipe moving component 44 comprises a pipe pushing cylinder group 28, a blocking cylinder group 29, a guide metal plate 30, a proximity switch 31, a pipe pushing metal plate 32 and a baffle 33; the push pipe cylinder is erected above the side of the clamping and polishing mechanism, the guide metal plate 30 is fixedly arranged on the burr rolling base, the side wall of the guide metal plate 30 is provided with an approach switch 31, the deburring component 24 penetrates through the guide metal plate 30, the push pipe metal plate 32 is arranged on the push pipe cylinder group 28, the baffle 33 is arranged on the blocking cylinder group 29, and the bottom of the guide metal plate 30 extends towards the conveying belt 3.

The blanking cylinder group 34 is arranged on one side of the tail end of the conveyor belt 3, the motor and the triangular plate 35 are further fixedly arranged at the tail end of the conveyor belt 3, and the triangular plate 35 is located above the motor. The right clamping and polishing mechanism 43 further comprises a lifting screw 36 and a nut, the lifting screw 36 is used for adjusting the height of the motor base plate 20, the lifting screw 36 penetrates through the motor base plate 20, the lifting screw 36 is distributed around the motor base plate 20 in a rectangular array manner, the motor base plate 20 is fixed on a substrate through the lifting screw 36 and the nut, and the double-groove driven pulley 13 is fixed at the output end of the asynchronous motor 19 through a machine-meter screw.

To explain further, the double-groove driving pulley 14 and the double-groove driven pulley 13 are driven by a belt, and in order to adjust the tightness of the belt during installation, a lifting screw 36 is additionally installed to adjust the height of the motor base plate 20 to adjust the tightness of the belt — the height of the double-groove driven pulley 13 above the double-groove driving pulley 14 is limited.

Deposit the material device including guide oblique panel beating 37, storage slide 38, no pole cylinder 39 and storage case 40, the both sides of storage case 40 have set firmly L type baffle 41, storage slide 38 is connected with no pole cylinder 39's removal end, and storage slide 38 sets firmly in the inside wall that storage case 40 is close to no pole cylinder 39 one side, and storage slide 38's inside is embedded to be equipped with photoelectric sensing ware 46.

In conclusion, the working principle of the method is as follows: the tube cutting machine conveys the cut tubes to the tube pushing cylinder group 28 through a conveyor belt (the conveyor belt is not positioned on the side of the tube pushing cylinder group 28), a sensor arranged in the tube pushing cylinder group 28 senses that the cut tubes push the tubes to the guide metal plate 30, the proximity switch 31 detects that the tubes roll off, then an electric signal is output to the blocking cylinder group 29 to control the baffle 33 to push the tubes downwards, the transverse cylinders 4 push the respective dies 18 to the middle of the tubes to clamp the tubes (the tightness of the belt needs to be adjusted in advance before the tubes are machined), then the longitudinal air rods push the deburring component 24 upwards to abut against the tubes to be machined, the baffle 33, the deburring component 24 and the clamping and polishing mechanism reset, the tubes roll off to the conveyor belt 3 and are conveyed to the triangular plate 35 to abut against the triangular plate, the sensor arranged at the triangular plate 35 controls the feeding cylinder group 34 to push the tubes to the storage sliding plate 38, the storage sliding plate 38 transfers the tubes to the storage box 40 under the driving of the rodless cylinder 39, the sensors can detect that the tubes roll off and the tubes to work when the complete machine works, and the sensors can detect that the tubes can work repeatedly when the tubes 40 can be stopped and work, and the complete machine works.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (9)

1. Automatic change pipe cutting and roll burr storage tube equipment, its characterized in that: including base plate, frame, move a tub subassembly, storage mechanism and symmetry formula and set up in the centre gripping grinding machanism of base plate, centre gripping grinding machanism includes left centre gripping grinding machanism and right centre gripping grinding machanism, and the base plate is located the side of frame, and left centre gripping grinding machanism is fixed to be set up the prelude of base plate, and right centre gripping grinding machanism cunningly locates the afterbody of base plate, moves a tub subassembly and erects in centre gripping grinding machanism's top, storage mechanism includes conveyer belt and stock device, and the conveyer belt is installed in the top of frame, and centre gripping grinding machanism is located the prelude side of conveyer belt, and the stock device is located the afterbody side of conveyer belt.

2. The automated pipe cutting and burr rolling storage pipe apparatus of claim 1, wherein: the left clamping and polishing mechanism and the right clamping and polishing mechanism are identical in structure, and the right clamping and polishing mechanism comprises a transverse air cylinder, a longitudinal air cylinder, a plurality of air cylinder connectors, an air cylinder limiting block, a pair of air cylinder limiting strips, a bearing pressing plate, a rolling pipe bearing seat, a bearing cover, a spline bearing seat, a double-groove driven pulley, a double-groove driving pulley, a rolling pipe rotating axis, a plurality of deep groove ball bearings, a spline shaft, a die, an asynchronous motor, a motor bottom plate, a burr rolling bottom plate and a pair of burr rolling fixing and assisting plates;

the pair of burr rolling fixing and assisting plates are fixedly arranged on two sides of the base plate, the burr rolling base plate is fixedly arranged above the burr rolling fixing and assisting plates, the spline bearing block, the transverse air cylinder and the air cylinder limiting strip are fixedly arranged above the burr rolling base plate, the air cylinder limiting block is slidably arranged on the air cylinder limiting strip, the rolling pipe bearing block is fixedly arranged on the side wall of the air cylinder limiting block, and the air cylinder limiting block is connected with the transverse air cylinder through an air cylinder connector;

the spline shaft penetrates through the spline bearing seat and the double-groove driven pulley, the driven pulley and the spline bearing seat are coaxially arranged, the spline shaft is rotatably connected with the spline bearing seat through the deep groove ball bearings, and the rotating axis of the rolling tube is rotatably connected with the rolling tube bearing seat through the deep groove ball bearings;

the head part of the rotating axis of the rolling tube is detachably provided with a die;

the vertical cylinder is fixedly arranged on the base plate, the cylinder connector is arranged at the top of the vertical cylinder, the roller tube jacking block is arranged above the vertical cylinder, the deburring component is arranged above the roller tube jacking block, and the deburring component is located below the die.

3. The automated pipe cutting and burr rolling storage pipe apparatus of claim 1, wherein: the base plate is provided with a dovetail slide rail, a dovetail slide block and a screw rod adjusting component, the dovetail slide rail is fixedly arranged on the base plate, the dovetail slide block is slidably arranged on the dovetail slide rail, the screw rod adjusting component is arranged inside the dovetail slide rail, and the screw rod adjusting component is used for adjusting the position of the dovetail slide block on the dovetail slide rail.

4. The automated pipe cutting and burr rolling storage pipe apparatus of claim 3, wherein: the right clamping and polishing mechanism is fixedly arranged on the dovetail slide block and is movably connected with the substrate through the dovetail slide block and the dovetail slide rail.

5. The automated pipe cutting and burr rolling storage pipe apparatus of claim 2, wherein: the pipe moving component comprises a pipe pushing cylinder group, a blocking cylinder group, a guide metal plate, a proximity switch, a pipe pushing metal plate and a baffle plate; the pipe pushing cylinder is erected above the side of the clamping and polishing mechanism, the guide metal plate is fixedly arranged on the burr rolling base, the side wall of the guide metal plate is provided with a proximity switch, the deburring component penetrates through the guide metal plate, the pipe pushing metal plate is arranged on a pipe pushing cylinder group, the baffle is arranged on a blocking cylinder group, and the bottom of the guide metal plate extends towards the conveying belt.

6. The automated pipe cutting and burr rolling storage pipe apparatus of claim 1, wherein: the blanking air cylinder group is installed to one side at the tail end of the conveying belt, a motor and a triangular plate are further fixedly arranged at the tail end of the conveying belt, and the triangular plate is located above the motor.

7. The automated pipe cutting and burr rolling storage pipe apparatus of claim 2, wherein: the right clamping and polishing mechanism further comprises a lifting screw and a nut, the lifting screw is used for adjusting the height of the motor base plate, the lifting screw penetrates through the motor base plate, the lifting screw is distributed around the motor base plate in a rectangular array mode, and the motor base plate is fixed on the base plate through the lifting screw and the nut.

8. The automated pipe cutting and burr rolling storage pipe apparatus of claim 2, wherein: the double-groove driven belt pulley is fixed at the output end of the asynchronous motor through a machine meter screw.

9. The automated pipe cutting and burr rolling storage pipe apparatus of claim 1, wherein: material storage device is including guide oblique panel beating, storage slide, no pole cylinder and storage case, the both sides of storage case have set firmly L type baffle, the removal end of storage slide and no pole cylinder is connected, and the storage slide sets firmly in the inside wall that the storage case is close to no pole cylinder one side, and the inside of storage slide is embedded to be equipped with photoelectric sensing ware.

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