CN210818950U - Abrasive belt type local polishing device for stainless steel pipe - Google Patents

Abstract

The utility model relates to a novel burnishing device, concretely relates to nonrust steel pipe local burnishing device of abrasive band formula. The automatic feeding and discharging device comprises a rack, a feeding mechanism, a distributing mechanism, a material ejecting mechanism, a polishing mechanism and a discharging mechanism; the utility model discloses a batch material loading of work piece, the automatic separation of equipment list piece, polishing size automatic positioning, automatic polishing, automatic functions such as the automatic blanking of polishing back work piece have realized the automatic batch production of work piece, guarantee to polish the stability of size, have saved product cost and have reduced staff's intensity of labour.

Description

Abrasive belt type local polishing device for stainless steel pipe

Technical Field

The utility model relates to a novel burnishing device, concretely relates to nonrust steel pipe local burnishing device of abrasive band formula.

Background

At present, most of the market adopts: 1. and manually rotating the stainless steel pipe, and then polishing on a polishing tool platform. 2. The stainless steel tube is taken by hand and then placed in a rotating polishing tool for polishing. Its disadvantages include unreliable operation, unstable polishing size, low precision and low efficiency. The novel device has the advantages of being simple in operation, accurate in positioning, high in polishing precision, capable of feeding in batches, low in rejection rate and capable of reducing personnel operation and reducing product cost.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome not enough among the prior art, provide a nonrust steel pipe local burnishing device of abrasive band formula.

In order to solve the technical problem, the utility model discloses a solution is:

the abrasive belt type local polishing device for the stainless steel pipe comprises a rack, a feeding mechanism, a distributing mechanism, a material ejecting mechanism, a polishing mechanism and a blanking mechanism;

the frame comprises a vertical door-shaped frame and a bottom frame, and a horizontal support frame is arranged in the middle of the front side of the door-shaped frame;

the feeding mechanism comprises a workpiece storage tank arranged in the middle of the back side of the door-shaped frame; the bottom of the workpiece storage tank is open, the rear side of the workpiece storage tank is provided with a blanking inclined slide block, and the side walls of the two ends of the workpiece storage tank are provided with a plurality of through holes; the baffle guide rod is arranged in the through hole, and an adjustable baffle is arranged at the end part of the baffle guide rod in the workpiece storage tank;

a material pushing plate is arranged below the workpiece storage groove, the bottom end of the material pushing plate is connected with a material pushing cylinder, the material pushing cylinder is connected with a material pushing cylinder mounting seat fixedly arranged on the portal frame, a vertical slide rail is arranged on the material pushing cylinder mounting seat, and the material pushing plate is connected with the material pushing cylinder mounting seat through a slide rail slide block;

the material distributing mechanism is arranged on the front side of the door-shaped frame; the automatic material distribution device comprises a material distribution rotating shaft arranged on a support frame below a blanking sliding block, wherein the end part of the material distribution rotating shaft is connected with a motor through a coupler, and a plurality of material distribution discs are arranged on the material distribution rotating shaft;

the material ejecting mechanism comprises a vertical material ejecting plate which is arranged on the support frame below the material distributing rotating shaft; two ends of the top surface of the ejector plate are provided with ejector rod supporting blocks, a plurality of transverse ejector rods are arranged in the ejector rod supporting blocks, and the middle parts of the ejector rods are fixedly arranged in the bearing mounting seats; the bearing mounting seat is internally provided with a jacking rod, two ends of the top of the bearing mounting seat are provided with bearings, a bearing rotating shaft is arranged in the bearings, and the bearing rotating shaft is provided with a V-shaped supporting block; a vertical linear slide rail is arranged on the door-shaped frame at the back side of the ejector plate, and the ejector plate is connected with the linear slide rail through a slide rail slide block; the bottom end of the ejector plate is connected with an ejection cylinder telescopic rod, and the ejection cylinder is arranged on the support frame through an ejection cylinder mounting seat;

the polishing mechanism comprises a transverse plate arranged at the top of the front side of the door-shaped frame, and a left polishing motor mounting plate and a right polishing motor mounting plate are oppositely arranged on the vertical plate surface of the transverse plate; the left polishing motor mounting plate and the right polishing motor mounting plate are symmetrical in structure, polishing motors are arranged on the outer sides of the tops of the left polishing motor mounting plate and the right polishing motor mounting plate, abrasive belt wheels are arranged in the middle and at the bottom of the inner sides of the left polishing motor mounting plate and the right polishing motor mounting plate, an output shaft of each polishing motor is connected with the abrasive belt wheel in the middle through a V-shaped belt, and the abrasive; a rotating motor is arranged on a transverse plate between the left polishing motor mounting plate and the right polishing motor mounting plate and is connected with a rotating motor reducer, and two sides of a transverse output shaft of the rotating motor reducer are connected with rotating wheels;

the blanking mechanism comprises a blanking groove arranged on the front side of the support frame, and an elastic deflector rod is arranged on the outer edge of the support frame beside the blanking groove. The top end of the elastic deflector rod is provided with a blanking inclined block.

As an improvement, the number of the material distribution discs is two, and the edge of each material distribution disc is provided with 4 material distribution grooves.

As an improvement, waist-shaped holes are formed in the left polishing motor mounting plate and the right polishing motor mounting plate, and the mounting positions can be adjusted along the transverse plate according to the length of a workpiece. And grinding wheel arms are arranged at the bottoms of the inner sides of the left polishing motor mounting plate and the right polishing motor mounting plate and used for tightening the grinding belt.

As an improvement, the rotating wheel is clamped with an O-shaped ring.

As an improvement, a guide sleeve is sleeved outside the baffle guide rod.

As an improvement, the material arranging cylinder is arranged below the workpiece storage tank and used for pushing pipes to avoid accumulation of the pipes.

As an improvement, a transverse plate on the outer side of the rotating wheel is provided with a limiting block.

As an improvement, one side of the ejector rod is connected with the positioning cylinder through a positioning cylinder mounting seat.

As an improvement, the positioning cylinder mounting seat and the bearing mounting seat can be adjusted in a left-right movement mode along the ejector rod to adapt to workpieces of different lengths.

Compared with the prior art, the utility model has the technical effects that:

the automatic polishing machine has the advantages that automatic functions of batch feeding of workpieces, automatic single-piece separation of equipment, automatic positioning of polishing sizes, automatic polishing, automatic blanking of the polished workpieces and the like are realized, automatic batch production of the workpieces is realized, the stability of the polishing sizes is guaranteed, the product cost is saved, and the labor intensity of workers is reduced.

Drawings

FIG. 1 is a schematic view of the overall structure of the device of the present invention;

fig. 2 is a schematic view of a feeding mechanism of the device of the present invention;

FIG. 3 is a schematic view of a material distributing mechanism of the device of the present invention;

FIG. 4 is a schematic view of the material ejecting mechanism of the device of the present invention;

FIG. 5 is a schematic view of the polishing mechanism of the apparatus of the present invention;

the reference signs are: 1-a frame; 2-a feeding mechanism; 3-a material distributing mechanism; 4-a material ejecting mechanism; 5-a polishing mechanism; 6-a blanking mechanism; 7-a workpiece storage tank; 8-an adjustable baffle; 9-baffle guide bar; 10-a guide sleeve; 11-a material pushing plate; 12-a material pushing cylinder; 13-pushing cylinder mounting seat; 14-a slide rail slide block; 15-a material arranging cylinder; 16-blanking inclined slide block; 17-a material distributing motor; 18-a coupling; 19-a material distributing rotating shaft; 20-material distribution disc; 21-a bearing seat; 22-a material ejecting plate; 23-a lifter bar; 24-a lifter bar support block; 25-a bearing; 26-a bearing shaft; 27-a bearing mount; 28-V shaped support blocks; 29-positioning the cylinder; 30-positioning a cylinder mounting seat; 31-a slide rail slider; 32-a connecting block of a material ejection cylinder; 33-a liftout cylinder mount; 34-a liftout cylinder; 35-a transverse plate; 36-polishing motor; 37-left polishing motor mounting plate; 38-abrasive belt wheel; a 39-V belt; 40-right polishing motor mounting plate; 41-a grinding wheel arm; 42-abrasive band; 43-O-ring; 44-a rotating electrical machine; 45-rotating machine reducer; 46-a rotating electrical machine mounting plate; 47-a rotating wheel; 48-a limiting block; 49-elastic deflector rod; 50-blanking inclined blocks; 51-chute.

Detailed Description

The invention will be further elucidated with reference to the drawings and the detailed description. Modifications of the various equivalent forms of the invention, which would occur to others skilled in the art after reading the present application, are intended to be within the scope of the appended claims.

The utility model provides a local burnishing device of abrasive band formula stainless steel pipe, includes frame 1, feed mechanism 2, feed mechanism 3, liftout mechanism 4, polishing mechanism 5 and blanking mechanism 6.

The frame 1 comprises a vertical door-shaped frame and a bottom frame, and a horizontal support frame is arranged in the middle of the front side of the door-shaped frame.

The feeding mechanism 2 comprises a workpiece storage tank 7 arranged in the middle of the back side of the portal frame. The bottom of the workpiece storage tank 7 is open, the rear side of the workpiece storage tank is provided with a blanking inclined slide block 16, and the side walls of the two ends of the workpiece storage tank are provided with a plurality of through holes. The baffle guide rod 9 is arranged in the through hole, and the end part of the baffle guide rod 9 in the workpiece storage tank 7 is provided with an adjustable baffle 8. A guide sleeve 10 is sleeved outside the baffle guide rod 9.

A material pushing plate 11 is arranged below the workpiece storage tank 7, the bottom end of the material pushing plate 11 is connected with a material pushing cylinder 12, the material pushing cylinder 12 is connected with a material pushing cylinder mounting seat 13 fixedly arranged on the portal frame, a vertical sliding rail is arranged on the material pushing cylinder mounting seat 13, and the material pushing plate 11 is connected with the material pushing cylinder mounting seat 13 through a sliding rail slider 14.

The material distributing mechanism 3 is arranged on the front side of the door-shaped frame. The automatic material distribution device comprises a material distribution rotating shaft 19 arranged on a supporting frame below a blanking sliding block, wherein the end part of the material distribution rotating shaft is connected with a material distribution motor 17 through a coupler 18, and two material distribution discs 20 are arranged on the material distribution rotating shaft 19. The edge of each distributing tray 20 is provided with 4 distributing clamping grooves.

The material ejecting mechanism 4 comprises a vertical material ejecting plate 22, and the material ejecting plate 22 is arranged on the support frame below the material distributing rotating shaft 19. Two ends of the top surface of the ejector plate 22 are provided with ejector rod supporting blocks 24, a plurality of transverse ejector rods 23 are arranged in the ejector rod supporting blocks 24, and the middle parts of the ejector rods 23 are fixedly arranged in the bearing mounting seats 27. The bearing mounting seat 27 is internally provided with an ejector rod 23, two ends of the top of the bearing mounting seat are provided with bearings 25, a bearing rotating shaft 26 is arranged in the bearings 25, and the bearing rotating shaft 26 is provided with a V-shaped supporting block 28. And a vertical linear slide rail is arranged on the door-shaped frame at the back side of the ejector plate 22, and the ejector plate 22 is connected with the linear slide rail through a slide rail slide block 31. The bottom of the ejector plate 22 is connected with an expansion rod of an ejector cylinder 34 through an ejector cylinder connecting block 32, and the ejector cylinder 34 is arranged on the door-shaped frame through an ejector cylinder mounting seat 33. One side of the ejector rod 23 is connected with a positioning cylinder 29 through a positioning cylinder mounting seat 30. The positioning cylinder mounting seat 30 and the bearing mounting seat 27 can be adjusted in a left-right movement along the ejector rod 23 to adapt to workpieces with different lengths.

Polishing mechanism 5, including locating the diaphragm 35 at door type frame front side top, perpendicular plate sets up relative left polishing motor mounting panel 37 and right polishing motor mounting panel 40 on diaphragm 35. The left polishing motor mounting plate 37 and the right polishing motor mounting plate 40 are symmetrical in structure, the polishing motor 36 is arranged on the outer side of the top, the middle part and the bottom of the inner side of the left polishing motor mounting plate are respectively provided with a grinding wheel 38, an output shaft of the polishing motor 36 is connected with the grinding wheel 38 in the middle through a V-shaped belt 39, and a grinding wheel arm 41 is connected with the right polishing motor mounting plate 40 and used for tightening a grinding belt (the left polishing motor mounting plate 37 is also provided with the same structure). The intermediate and bottom abrasive belt wheels are connected by an abrasive belt 42. A rotating motor 44 is arranged on the transverse plate 35 between the left polishing motor mounting plate 37 and the right polishing motor mounting plate 40 through a rotating motor mounting plate 46, the rotating motor 44 is connected with a rotating motor reducer 45, and two sides of a transverse output shaft of the rotating motor reducer 45 are connected with rotating wheels 47. A stop block 48 is arranged on the horizontal plate 35 at the outer side of the rotating wheel 47. The rotating wheel 47 is clamped with an O-ring 43. Waist-shaped holes are formed in the left polishing motor mounting plate 37 and the right polishing motor mounting plate 40, and the mounting positions can be adjusted along the transverse plate 35 according to the length of a workpiece.

The blanking mechanism 6 comprises a blanking groove 51 arranged at the front side of the support frame, and an elastic deflector rod 49 is arranged on the outer edge of the support frame beside the blanking groove 51. The top end of the elastic deflector rod 49 is provided with a blanking inclined block 50.

The material arranging cylinder 15 is arranged below the workpiece storage tank 7 and used for pushing pipes to avoid accumulation of the pipes.

The utility model discloses a working process does:

1. the opening width of the adjustable baffle 8 in the feeding mechanism 2 is adjusted according to the long pipe of the workpiece and is locked, and the position of the positioning cylinder 29 in the ejection mechanism 4 and the positions of the left and right polishing motor mounting plates 37 and 40 of the polishing mechanism 5 are adjusted and then locked and fixed according to the requirement of the polishing position of the workpiece.

2. After the related positioning preparation is made, batch workpieces are placed in a material storage tank 7 in a feeding mechanism 2, and a material pushing cylinder 12 pushes a material pushing plate 11 to move upwards so as to send the workpieces to a blanking inclined slide block 16;

3. the material distributing motor 17 in the material distributing mechanism 3 drives the material distributing disc 19 to rotate, the clamping groove at the edge of the material distributing disc 19 takes away the workpiece falling on the blanking inclined slide block 16, and the workpiece falls on the V-shaped supporting block 28 in the material ejecting mechanism 4.

4. The positioning cylinder 29 in the ejection mechanism 4 extends out, and after the polishing position of the workpiece is positioned, the ejection cylinder 34 pushes the ejection plate 22 upwards to convey the workpiece to the polishing mechanism 5 and contact the O-shaped ring 43 and the abrasive belt 42.

5. The workpiece is driven by the rotating wheel 47 to rotate uniformly along the axial direction, and the abrasive belt 42 rotates at a high speed under the action of the polishing motor 36 to polish the outer circular surface of the workpiece.

6. After the polishing operation of the workpiece is completed, the ejection cylinder 34 contracts to drive the ejector plate 22 to descend, the workpiece is separated from the polishing mechanism 5, and the workpiece falls to the blanking groove 51 along the blanking inclined block 50 under the action of the elastic deflector rod 49 of the blanking mechanism 6.

Finally, it is to be noted that the above-mentioned embodiments are only specific embodiments of the present invention. Obviously, the present invention is not limited to the above embodiments, and many variations are possible. All modifications which can be derived or suggested by a person skilled in the art from the disclosure of the invention should be considered as within the scope of the invention.

Claims (10)

1. A sand belt type local polishing device for stainless steel pipes is characterized by comprising a rack, a feeding mechanism, a distributing mechanism, a material ejecting mechanism, a polishing mechanism and a blanking mechanism;

the rack comprises a vertical door-shaped frame and a bottom frame, and a horizontal support frame is arranged in the middle of the front side of the door-shaped frame;

the feeding mechanism comprises a workpiece storage tank arranged in the middle of the back side of the door-shaped frame; the bottom of the workpiece storage tank is open, the rear side of the workpiece storage tank is provided with a blanking inclined slide block, and the side walls of the two ends of the workpiece storage tank are provided with a plurality of through holes; the baffle guide rod is arranged in the through hole, and an adjustable baffle is arranged at the end part of the baffle guide rod in the workpiece storage tank;

a material pushing plate is arranged below the workpiece storage groove, the bottom end of the material pushing plate is connected with a material pushing cylinder, the material pushing cylinder is connected with a material pushing cylinder mounting seat fixedly arranged on the portal frame, a vertical slide rail is arranged on the material pushing cylinder mounting seat, and the material pushing plate is connected with the material pushing cylinder mounting seat through a slide rail slide block;

the material distributing mechanism is arranged on the front side of the door-shaped frame; the automatic material distribution device comprises a material distribution rotating shaft arranged on a support frame below a blanking sliding block, wherein the end part of the material distribution rotating shaft is connected with a motor through a coupler, and a plurality of material distribution discs are arranged on the material distribution rotating shaft;

the material ejecting mechanism comprises a vertical material ejecting plate which is arranged on the support frame below the material distributing rotating shaft; two ends of the top surface of the ejector plate are provided with ejector rod supporting blocks, a plurality of transverse ejector rods are arranged in the ejector rod supporting blocks, and the middle parts of the ejector rods are fixedly arranged in the bearing mounting seats; the bearing mounting seat is internally provided with a jacking rod, two ends of the top of the bearing mounting seat are provided with bearings, a bearing rotating shaft is arranged in the bearings, and the bearing rotating shaft is provided with a V-shaped supporting block; a vertical linear slide rail is arranged on the door-shaped frame at the back side of the ejector plate, and the ejector plate is connected with the linear slide rail through a slide rail slide block; the bottom end of the ejector plate is connected with an ejection cylinder telescopic rod, and the ejection cylinder is arranged on the support frame through an ejection cylinder mounting seat;

the polishing mechanism comprises a transverse plate arranged at the top of the front side of the door-shaped frame, and a left polishing motor mounting plate and a right polishing motor mounting plate are oppositely arranged on the vertical plate surface of the transverse plate; the left polishing motor mounting plate and the right polishing motor mounting plate are symmetrical in structure, polishing motors are arranged on the outer sides of the tops of the left polishing motor mounting plate and the right polishing motor mounting plate, abrasive belt wheels are arranged in the middle and at the bottom of the inner sides of the left polishing motor mounting plate and the right polishing motor mounting plate, an output shaft of each polishing motor is connected with the abrasive belt wheel in the middle through a V-shaped belt, and the abrasive; a rotating motor is arranged on a transverse plate between the left polishing motor mounting plate and the right polishing motor mounting plate and is connected with a rotating motor reducer, and two sides of a transverse output shaft of the rotating motor reducer are connected with rotating wheels;

the blanking mechanism comprises a blanking groove arranged on the front side of the support frame, an elastic deflector rod is arranged on the outer edge of the support frame beside the blanking groove, and a blanking inclined block is arranged at the top end of the elastic deflector rod.

2. The device according to claim 1, characterized in that the material distribution disc has two, and each material distribution disc edge is provided with 4 sharing clamping grooves.

3. The device of claim 1, wherein the left polishing motor mounting plate and the right polishing motor mounting plate are provided with kidney-shaped holes, and the mounting positions of the kidney-shaped holes can be adjusted along the transverse plate according to the length of the workpiece.

4. The apparatus of claim 1, wherein the swivel wheel is snap fitted with an O-ring.

5. The apparatus of claim 1, wherein the baffle guide bar is externally sleeved with a guide sleeve.

6. The apparatus of claim 1, wherein the material arranging cylinder is disposed below the workpiece storage chute and used for pushing the pipe material to prevent the pipe material from accumulating.

7. The device as claimed in claim 1, wherein a stop block is provided on a horizontal plate outside the rotating wheel.

8. The device of claim 1, wherein one side of the ejector rod is connected with a positioning cylinder through a positioning cylinder mounting seat.

9. The apparatus of claim 8, wherein the positioning cylinder mount and the bearing mount are adjustable to move left and right along the ejector pin to accommodate workpieces of different lengths.

10. The device of claim 1, wherein the bottom of the inner sides of the left polishing motor mounting plate and the right polishing motor mounting plate are provided with abrasive wheel arms for tightening an abrasive belt.

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