CN213914383U - Workpiece surface treatment device - Google Patents

Abstract

The utility model provides a workpiece surface treatment device. The pipe workpiece rotating device comprises a rotating device, a rotating mechanism and a rotating mechanism, wherein the rotating mechanism is used for driving a pipe workpiece to rotate; the processing device comprises a first movement mechanism capable of sliding in a reciprocating mode in a first direction and a processing mechanism used for processing the outer surface of a pipe workpiece, wherein the first direction is parallel to the axis of the pipe workpiece, and the processing mechanism is driven by the first movement mechanism to align to the outer surface of the pipe workpiece and reciprocate in the first direction. The rotating mechanism in the rotating device can drive the pipe workpiece to rotate around the axis of the pipe workpiece, the processing mechanism in the processing device can process the outer surface of the pipe workpiece, and the first moving mechanism drives the processing mechanism to slide back and forth in the first direction parallel to the axis of the pipe workpiece while the pipe workpiece rotates, so that the dead angle-free processing of the outer surface of the pipe workpiece can be realized, the uniformity of processing of each part of the pipe workpiece can be ensured, and the processing quality of the pipe workpiece can be ensured.

Description

Workpiece surface treatment device

Technical Field

The utility model relates to a processing field, concretely relates to workpiece surface treatment device.

Background

Because of the particularity of the shape of the pipe workpiece, the processing of the outer surface of the pipe workpiece is always a difficult problem, and the outer surface of the pipe workpiece cannot be processed uniformly when the outer surface of the pipe workpiece is processed in the prior art, so that the quality of the pipe workpiece cannot be guaranteed.

SUMMERY OF THE UTILITY MODEL

Therefore, the technical problem to be solved by the utility model is to overcome the defect of uneven processing of the tubular workpiece in the prior art, thereby providing a workpiece surface treatment device, which comprises,

the rotating device is provided with a rotating mechanism, and the rotating mechanism is used for driving the pipe workpiece to rotate;

the processing device comprises a first movement mechanism capable of sliding in a reciprocating mode along a first direction and a processing mechanism used for processing the outer surface of the pipe workpiece, wherein the first direction is parallel to the axis of the pipe workpiece, and the processing mechanism is driven by the first movement mechanism to align with the outer surface of the pipe workpiece and move back and forth along the first direction.

Optionally, the rotating mechanism includes a first rotating mechanism and a second rotating mechanism, the first rotating mechanism and the second rotating mechanism are arranged oppositely and are respectively provided with a fixing structure for fixing the pipe workpiece, and the first rotating mechanism and the second rotating mechanism are matched to drive the pipe workpiece to rotate.

Optionally, the first rotating mechanism and the second rotating mechanism are connected through a lining core, two ends of the lining core are fixed on the fixed structure, and the pipe workpiece is sleeved on the lining core.

Optionally, the first rotating mechanism includes a first driver, a connector, and a motion steering mechanism connecting the first driver and the connector;

the second rotating mechanism comprises a second driver and a chuck connected with the driving end of the second driver; and two ends of the lining core are fixed on the connector and the chuck.

Optionally, the treatment device further comprises a second motion mechanism reciprocally slidable in a second direction;

the second motion mechanism is arranged on the first motion mechanism and is driven by the sliding of the first motion mechanism to slide along a first direction; the processing mechanism is arranged on the second motion mechanism and is driven by the sliding of the second motion mechanism to slide.

Optionally, the rotating device further includes a sliding mechanism, the sliding mechanism includes a sliding rail and a sliding plate that can slide along a rail direction of the sliding rail, and the second rotating mechanism is disposed on the sliding plate.

Optionally, the sliding plates include a first sliding plate and a second sliding plate arranged in sequence from a first rotating mechanism to a second rotating mechanism, the second rotating mechanism is disposed on the first sliding plate or the second sliding plate, and the first sliding plate and the second sliding plate are slidably disposed on the sliding rail through a sliding mechanism;

and a pull-in air cylinder is arranged on the first sliding plate or the second sliding plate and is connected with the other sliding plate through a piston rod.

Optionally, the sliding plate is provided with a guide rail locker which can fix the sliding plate on the sliding rail.

Optionally, the treatment mechanism is a spray head, the spray head comprises a connecting pipe and a nozzle which are sequentially communicated from top to bottom, and the connecting pipe is communicated with the injection pump through a conduit; or

The processing mechanism is a cutting mechanism or a grinding mechanism.

Optionally, a monitoring device is arranged on the second movement mechanism, and a lens of the monitoring device is aligned with the outer surface of the pipe workpiece and is used for monitoring the processing condition of the outer surface of the pipe workpiece sleeved on the lining core.

Optionally, the monitoring device is rotatably arranged on the second movement mechanism through a rotating mechanism, the rotating mechanism comprises a fixed part and a rotating part, the monitoring device is arranged at one end of the fixed part, and the other end of the fixed part is hinged to the rotating part.

The utility model discloses technical scheme has following advantage:

1. the utility model provides a workpiece surface treatment device, rotary mechanism among the rotary device can drive the axis rotation of tubular product work piece around the tubular product work piece, processing mechanism among the processing device can process the surface of tubular product work piece, first motion drives processing mechanism and slides reciprocating in the first direction parallel with the axis of tubular product work piece when the rotation of tubular product work piece, not only can do not have the processing at dead angle to tubular product work piece surface like this, can also ensure evenly to the processing at each position of tubular product work piece, guarantee the processingquality of tubular product work piece.

2. The utility model provides an among the workpiece surface processing apparatus, second rotary mechanism sets up on slide mechanism's sliding plate, and the sliding plate can be followed the track direction of slide rail and slided to the length of controlling first rotary mechanism and second rotary mechanism finally plays the effect of the workable length of regulation tubular product work piece, can process the tubular product work piece surface of different length.

3. The utility model provides an among the workpiece surface processing apparatus, detection device's camera lens is aimed at tubular product work piece surface, but the processing condition of real-time supervision tubular product work piece surface prevents to cause processing flaw appearance and not in time discover because of reasons such as equipment.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a perspective view of the workpiece surface treatment apparatus of the present invention;

FIG. 2 is a perspective view of the processing apparatus of FIG. 1;

FIG. 3 is a perspective view of the rotary apparatus of FIG. 1;

FIG. 4 is a schematic structural view of a first rotating mechanism in the workpiece surface treatment apparatus of the present invention;

FIG. 5 is a schematic view of a sliding mechanism of the workpiece surface treatment apparatus of the present invention;

FIG. 6 is a schematic structural view of a connecting head of the workpiece surface treatment apparatus of the present invention;

FIG. 7 is a schematic structural view of a rail locker of the workpiece surface treatment apparatus of the present invention;

fig. 8 is a block diagram of a monitoring device of the workpiece surface treatment apparatus according to the present invention.

Description of reference numerals:

10. a rotating device; 11. a first rotating mechanism; 111. a connector; 112. a first driver; 113. a first rotating member; 114. a second rotating member; 115. a rotating member; 116. fixing the connecting piece; 117. a first cover body; 12. a second rotating mechanism; 121. a chuck; 122. a second driver; 123. a second cover body; 13. a base plate; 131. a slide rail; 132. a first sliding plate; 133. a guide rail locker; 1331. a knob; 1332. a top rod; 1333. a base; 1334. a threaded seat; 134. a piston rod; 135. pulling in the cylinder; 136. a second sliding plate; 137. a blocking block; 14. a lining core; 20. a processing device; 201. a first movement mechanism; 202. a second movement mechanism; 21. a processing mechanism; 22. a fixing plate; 23. a fixed part; 24. a monitoring device; 241. a processor; 242. a lens; 243. a display; 25. a first driving section; 26. a first support; 27. a second driving section; 28. a second support; 29. a rotating part.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

Because the pipe workpiece is generally in a hollow and columnar structure, the outer surface of the pipe workpiece is difficult to process in the process of processing the pipe workpiece, in other words, the outer surface of the pipe workpiece is processed uniformly.

The utility model provides a workpiece surface treatment device, as shown in fig. 1 to 3, comprising a rotating device 10 and a treatment device 20, wherein the rotating device 10 is provided with a rotating mechanism which can be used for driving a pipe workpiece (not shown) to rotate around the axis of the pipe workpiece; the processing device 20 comprises a first moving mechanism 201 capable of sliding back and forth along a first direction and a processing mechanism 21 for processing the outer surface of the pipe workpiece, wherein the processing mechanism 21 is arranged on the first moving mechanism 201, the first direction is parallel to the axis of the pipe workpiece, and the processing mechanism 21 is driven by the first moving mechanism 201 to align with the outer surface of the pipe workpiece and reciprocate along the first direction. The processing device 20 may be located above the rotating device 10 or may be located at the side of the rotating device 10.

In the above embodiment, the pipe workpiece is driven by the rotating mechanism to rotate around the axis of the pipe workpiece, the processing mechanism 21 aligns with and processes the outer surface of the pipe workpiece, and when the pipe workpiece rotates, the processing mechanism 21 can process the outer surface of the pipe workpiece in 360 degrees without dead angle. The first moving mechanism 201 drives the processing mechanism 21 to reciprocate in the first direction, so as to process the outer surface of the whole tubular workpiece. Under the combined action of the first movement mechanism 201 and the rotation mechanism, the processing mechanism can perform uniform processing on the outer surface of the pipe workpiece, so that the uniform processing on the outer surface of the pipe workpiece is ensured. In some embodiments, the pipe workpiece can be not only cylindrical, but also prismatic, etc.

In some embodiments, as shown in fig. 3, the rotating mechanism may include a first rotating mechanism 11 and a second rotating mechanism 12, the first rotating mechanism 11 and the second rotating mechanism 12 are disposed on the bottom plate 13 at an interval, the first rotating mechanism 11 and the second rotating mechanism 12 are disposed opposite to each other, in order to ensure that the pipe workpiece can be driven by the rotating mechanisms to rotate, the first rotating mechanism 11 and the second rotating mechanism 12 are respectively provided with a fixing structure for fixing the pipe workpiece, the pipe workpiece is fixed on the rotating device 10 by the fixing structures on the first rotating mechanism 11 and the second rotating mechanism 12, and the first rotating mechanism 11 and the second rotating mechanism 12 cooperate to drive the pipe workpiece to rotate around the axis of the pipe workpiece.

In some embodiments, the first rotating mechanism 11 and the second rotating mechanism 12 may be connected by an insert core 14, one end of the insert core 14 is fixed in one of the fixed structures, then the pipe workpiece is sleeved on the insert core 14 and fixed on one of the fixed structures, and finally the other end of the insert core 14 is fixed in the other fixed structure. The provision of the core 14 enables the swivel arrangement 10 to be adapted to pipe work pieces of different lengths, the pipe work piece only requiring one end to be fixed in one of the fixed structures and the other end to be able to rest directly on the core 14.

As shown in fig. 3 and 4, in some embodiments, the first rotation mechanism 11 includes a first driver 112, a connection head 111, and a motion steering mechanism connecting the first driver 112 and the connection head 111, and the first rotation mechanism 11 is disposed on the first cover 117. The motion steering mechanism comprises a first rotating element 113, a second rotating element 114 and a rotating element 115 for connecting the first rotating element 113 and the second rotating element 114, the first rotating element 113 is fixedly connected with the driving end of the first driver 112, the second rotating element 114 is connected with the connector 111 through a fixed connecting element 116, the motion steering mechanism can be in belt transmission, correspondingly, the first rotating element 113 and the second rotating element 114 can be rotating shafts, and the rotating element 115 is a belt; the motion steering mechanism may also be a gear transmission, and accordingly, the first rotating member 113 and the second rotating member 114 may be gears, and the rotating member 115 may be a chain.

In order to make the rotating device 10 adapt to pipe workpieces with different lengths, a section of redundant lining core needs to be reserved when the lining core 14 is fixed on the connecting head 111, as shown in fig. 6, a through hole and an internal thread 1111 are arranged in the connecting head 111, the pipe workpiece is fixed with the connecting head 111 through the thread, and the lining core 14 penetrates through the through hole in the connecting head 111 and is fixed. The reserved section of the redundant lining core passes through the fixed connecting piece 116 and the second rotating piece 114 simultaneously, and when a longer lining core 14 is needed, the binding of the connector 111 to the lining core can be released, and the redundant lining core is pulled out. The first driver 112 drives the connecting head 111 and the pipe workpiece fixed on the connecting head 111 to rotate through the motion steering mechanism.

The second rotating mechanism 12 includes a second driver 122 and a chuck 121 connected to a driving end of the second driver 122, the second rotating mechanism 12 is located on the second cover 123, and the other end of the liner core 14 is fixed to the chuck 121. In other embodiments, the clamp 121 may also have a fastening structure such as an internal thread for fastening a pipe workpiece. The first driver 112 and the second driver 122 rotate synchronously to rotate the pipe workpiece. The first driver 112 and the second driver 122 may be a driving device such as a rotary motor, a hydraulic machine, or the like.

In some embodiments, as shown in fig. 2, the processing device 20 further comprises a second motion mechanism 202 reciprocally slidable in a second direction, which may be perpendicular to the first direction or at an angle to the first direction. The second moving mechanism 202 is disposed on the first moving mechanism 201 and is driven by the sliding of the first moving mechanism 201 to slide along the first direction, and the processing mechanism 21 is disposed on the second moving mechanism 202 and is driven by the sliding of the second moving mechanism 202 to slide.

The first moving mechanism 201 includes a first support 26 and a first driving portion 25 located at one end of the first support 26, the second moving mechanism 202 includes a second support 28 and a second driving portion 27 located at one end of the second support 28, the first support 26 and the second support 28 are connected by a slider, and the slider can be driven by the first driving portion 25 and the second driving portion 27 to slide back and forth on the first support 26 and the second support 28, so as to drive the processing mechanism 21 to move back and forth in the first direction and the second direction. In the second direction, the second driving portion 27 can drive the processing mechanism 21 away from or close to the pipe workpiece.

In order to accommodate more pipe workpieces with different lengths, as shown in fig. 5, in some embodiments, the rotating device 10 further includes a sliding mechanism, the sliding mechanism includes a sliding rail 131 and a sliding plate that can slide along the rail direction of the sliding rail 131, and the second rotating mechanism 12 is disposed on the sliding plate through the second cover 123. When a longer pipe workpiece needs to be processed, the second rotating mechanism 12 can be moved away from the first rotating mechanism 11 through the sliding mechanism; when it is desired to process a shorter pipe workpiece, the second rotating mechanism 12 is not moved or moved in a direction close to the first rotating mechanism 11. In order to fix the sliding plate at a specific position when the sliding plate does not need to move, a rail locker 133 for fixing the sliding plate to the sliding rail 131 is provided on the sliding plate.

As shown in fig. 7, the rail locker 133 includes a knob 1331, a stem 1332, a screw seat 1334 and a base 1333, the screw seat 1334 is fixed on the base 133, the stem is engaged with the screw seat 1334 through a screw, the knob 1331 is fixed at one end of the stem 1332, and the sliding plate can be fixed at a specific position of the sliding rail 131 by rotating the knob 1331.

As shown in fig. 5, in some embodiments, the sliding plate includes a first sliding plate 132 and a second sliding plate 136 which are sequentially spaced from each other in the direction from the first rotating mechanism 11 to the second rotating mechanism 12, the second rotating mechanism 12 and the pull-in cylinder 135 are disposed on the second sliding plate 136, and the second sliding plate 136 is connected to the first sliding plate 132 through a piston rod 134 on the pull-in cylinder 135. The slide rail 131 may be a double slide rail, and the first sliding plate 132 and the second sliding plate 136 are slidably disposed on the slide rail 131 through a sliding mechanism such as a roller or a slider. To prevent the sliding plates from sliding out of the sliding rails, a blocking block 137 may be provided at a side of the second sliding plate 136 remote from the first sliding plate 132. In other embodiments, the second rotation mechanism 12 and/or the pull-in cylinder 135 may be provided on the first sliding plate 132. When the first and second slide plates 132 and 136 are slid to approximate positions, if fine adjustment of the positions is also required, adjustment can be made by pulling in the cylinder 135.

In some embodiments, as shown in fig. 2, the processing mechanism 21 is fixed on the second moving mechanism 202 by a fixing plate 22, the processing mechanism 21 may be a spray head, the spray head includes a connecting pipe and a spray nozzle which are sequentially communicated from top to bottom, the connecting pipe is communicated with a syringe pump (not shown) through a conduit (not shown), the syringe pump is started, and a solution required for processing can be conveyed to the spray head through the conduit, and the required solution can be paint, acid solution and the like. In other embodiments, the processing mechanism 21 may also be a cutting mechanism, a sanding mechanism, or the like.

As shown in fig. 2 and 8, the second moving mechanism 202 is further provided with a detecting device 24, and the lens 242 of the detecting device 24 is aligned with the outer surface of the pipe workpiece, so that the processing condition of the outer surface of the pipe workpiece sleeved on the lining core 14 can be monitored in real time, and the processing defect is prevented from occurring during processing and not being found in time. In other embodiments, the detection device 24 further includes a processor 241 and a display 243, the display 243 and the lens 242 are both connected to the processor 241, the lens 242 transmits the monitoring signal to the processor 241, the processor 241 transmits the monitoring signal to the display 243, the processing condition of the outer surface of the pipe workpiece can be displayed on the display 243 in real time, and an operator can observe the processing condition of the outer surface of the pipe workpiece through the display.

In some embodiments, for better observing the outer surface of the tubular workpiece, a rotating mechanism is provided, the detecting device 24 is rotatably disposed on the second moving mechanism 202 through the rotating mechanism, the rotating mechanism includes a fixed portion 23 and a rotating portion 29, one end of the fixed portion 23 is fixed to the detecting device 24, the other end is hinged to the rotating portion 29, and the fixed portion 23 can adjust the monitoring direction of the lens 242 on the outer surface of the tubular workpiece by rotating around the rotating portion 29.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (11)

1. A workpiece surface treatment device is characterized by comprising,

the rotating device (10) is provided with a rotating mechanism, and the rotating mechanism is used for driving the pipe workpiece to rotate;

the processing device (20) comprises a first moving mechanism (201) capable of sliding in a reciprocating mode along a first direction and a processing mechanism (21) used for processing the outer surface of the pipe workpiece, wherein the first direction is parallel to the axis of the pipe workpiece, and the processing mechanism (21) is driven by the first moving mechanism (201) to align with the outer surface of the pipe workpiece and move back and forth along the first direction.

2. The workpiece surface treatment device according to claim 1, characterized in that the rotating mechanism comprises a first rotating mechanism (11) and a second rotating mechanism (12), the first rotating mechanism (11) and the second rotating mechanism (12) are arranged oppositely and are respectively provided with a fixing structure for fixing the pipe workpiece, and the first rotating mechanism (11) and the second rotating mechanism (12) are matched to drive the pipe workpiece to rotate.

3. The workpiece surface treatment device according to claim 2, characterized in that the first rotating mechanism (11) and the second rotating mechanism (12) are connected through a lining core (14), two ends of the lining core (14) are fixed on the fixed structure, and the pipe workpiece is sleeved on the lining core.

4. A workpiece surface treatment apparatus as claimed in claim 3, characterized in that the first rotation mechanism (11) comprises a first drive (112), a connection head (111) and a motion steering mechanism connecting the first drive (112) and the connection head (111);

the second rotating mechanism (12) comprises a second driver (122) and a chuck (121) connected with the driving end of the second driver (122); and two ends of the lining core (14) are fixed on the connecting head (111) and the chuck (121).

5. The workpiece surface treatment apparatus of claim 1, wherein the treatment apparatus (20) further comprises a second motion mechanism (202) reciprocally slidable in a second direction;

the second motion mechanism (202) is arranged on the first motion mechanism (201) and is driven by the sliding of the first motion mechanism (201) to slide along a first direction; the processing mechanism (21) is arranged on the second movement mechanism (202) and is driven by the sliding of the second movement mechanism (202) to slide.

6. The workpiece surface treatment apparatus according to any of claims 2 to 4, characterized in that the rotating device (10) further comprises a sliding mechanism comprising a slide rail (131) and a slide plate slidable in a rail direction of the slide rail (131), the second rotating mechanism (12) being provided on the slide plate.

7. The workpiece surface treatment apparatus according to claim 6, wherein the sliding plate comprises a first sliding plate (132) and a second sliding plate (136) which are sequentially arranged in a direction from a first rotating mechanism (11) to a second rotating mechanism (12), the second rotating mechanism (12) is provided on the first sliding plate (132) or the second sliding plate (136), and the first sliding plate (132) and the second sliding plate (136) are slidably provided on the slide rail (131) by a sliding mechanism;

a drawing cylinder (135) is arranged on the first sliding plate (132) or the second sliding plate (136), and the drawing cylinder (135) is connected with the other sliding plate through a piston rod (134).

8. The workpiece surface treatment apparatus of claim 6, wherein the slide plate is provided with a rail locker (133) for fixing the slide plate to the slide rail (131).

9. The workpiece surface treatment device according to any one of claims 1 to 5 and 7 to 8, wherein the treatment mechanism (21) is a spray head, the spray head comprises a connecting pipe and a spray nozzle which are sequentially communicated from top to bottom, and the connecting pipe is communicated with a syringe pump through a conduit; or

The processing mechanism (21) is a cutting mechanism or a grinding mechanism.

10. The workpiece surface treatment device according to claim 5, characterized in that the second movement mechanism (202) is provided with a monitoring device (24), and a lens (242) of the monitoring device (24) is aligned with the outer surface of the pipe workpiece and used for monitoring the treatment condition of the outer surface of the pipe workpiece sleeved on the lining core (14).

11. A workpiece surface treatment device as claimed in claim 10, characterized in that the monitoring device (24) is rotatably arranged on the second movement means (202) by means of a rotation mechanism, which rotation mechanism comprises a fixed part (23) and a rotation part (29), the monitoring device (24) being arranged at one end of the fixed part (23), the other end of the fixed part (23) being hinged to the rotation part (29).

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