CN214685906U - Automatic waxing equipment for round tubes - Google Patents

Abstract

The utility model relates to a pipe processing field specifically relates to an automatic waxing equipment of pipe includes: feed mechanism, polishing mechanism and waxing mechanism, waxing mechanism includes the translation subassembly, waxing subassembly and workstation, at first transmit the direction of the axis of pipe along the pipe through feed mechanism with the pipe, waxing subassembly through waxing mechanism is with wax stone material loading to polishing mechanism on after that, it removes along the axis direction of pipe together to drive the wax stone through the translation subassembly, thereby can be even paint the wax stone on polishing mechanism, wax and polishing to the outer wall of pipe through polishing mechanism, through the whole mechanism of waxing of workstation control, thereby it is heavy to have solved staff's operation burden, it is inhomogeneous to wax, influence the technical problem of the qualification rate of pipe.

Description

Automatic waxing equipment for round tubes

Technical Field

The utility model relates to a pipe processing field specifically relates to an automatic waxing equipment of pipe.

Background

The preparation in-process that the pipe was in, through polishing and waxing the pipe simultaneously, can increase the glossiness of pipe, among the prior art, generally carry out automatic polishing to the pipe through equipment, but wax and need the staff to carry out manual waxing, increased staff's operation burden, because the manual reason of waxing simultaneously, it is inhomogeneous to cause the waxing, influences the qualification rate of pipe.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the automatic waxing equipment for the round tube is provided.

In order to achieve the above purpose, the utility model adopts the technical scheme that:

an automatic waxing apparatus for round tubes, comprising:

the feeding mechanism is used for conveying the round pipe along the direction of the axis of the round pipe;

the polishing mechanism is positioned above the feeding mechanism and is used for waxing and polishing the outer wall of the circular tube;

the waxing mechanism is positioned above the polishing mechanism, and is used for waxing the polishing mechanism and then waxing and polishing the circular tube through the polishing mechanism;

the mechanism of waxing includes:

the translation assembly is positioned above the polishing mechanism and used for driving the wax blocks to move along the axis direction of the circular tube, so that the wax blocks can be uniformly smeared on the polishing mechanism;

the waxing assembly is positioned above the polishing mechanism and provided with a plurality of waxing assemblies, and all the waxing assemblies are used for feeding wax blocks onto the polishing mechanism;

the working table is located beside the feeding mechanism and used for controlling the whole waxing mechanism.

Preferably, polishing mechanism includes polishing wheel, rotation axis and rotary actuator, the rotation axis is the horizontality and is located feed mechanism, the quantity of polishing wheel and the quantity one-to-one of waxing subassembly, all polish the wheel and all overlap and locate on the rotation axis, the external diameter of polishing wheel is tangent with the pipe external diameter on the feed mechanism, rotary actuator is located the lateral wall of one of them side of feed mechanism, rotary actuator's output shaft runs through lateral wall and rotation axis fixed connection through feed mechanism.

Preferably, the translation subassembly includes first linear actuator, guide bar, translation frame and mounting panel, the mounting panel has two, two the mounting panel is located the both sides inner wall on feed mechanism top respectively, the guide bar has two, two the guide bar all is the horizontality and is located between two mounting panels, translation frame cover is located on two guide bars, translation frame guide bar sliding connection, first linear actuator is located the lateral wall on one of them side on feed mechanism top, first linear actuator's output shaft runs through lateral wall and translation frame fixed connection through feed mechanism, waxing subassembly fixed connection is close to one side of polishing mechanism in the translation subassembly.

Preferably, the waxing assembly comprises a mounting frame, a wax box, a sliding block and a second linear driver, the mounting frame is fixedly connected to the translation assembly, the second linear driver is fixedly connected to the mounting frame, the output direction of the second linear driver is perpendicular to the translation direction of the translation assembly, the sliding block is fixedly connected with the output shaft of the second linear driver, the wax box is fixedly connected to the sliding block, and the wax box is used for fixing the wax block.

Preferably, a sensor is further disposed on the first linear actuator of the translation assembly, and the sensor is configured to adjust a displacement distance of the first linear actuator.

Preferably, the workbench is located beside the feeding mechanism, and displacement parameters of the waxing assembly and the translation assembly are adjusted.

Preferably, feed mechanism still is equipped with a plurality of spacing wheels along the axis direction of pipe, all spacing wheel all is located the top of pipe, spacing wheel is used for carrying the axis distance that the pipe can only be followed to the pipe with the pipe, can't take place to deflect in the radial direction of pipe.

Compared with the prior art, the utility model beneficial effect who has is:

1. the utility model discloses when feed mechanism transmits the pipe to polishing mechanism along the direction of the axis of pipe, through starting rotary actuator, rotary actuator's output shaft has driven the rotation rather than fixed connection's rotation of rotation axis, the rotation of rotation axis has driven the rotation of all throwing aureola, through waxing subassembly wax stone material loading to throwing aureola, rethread translation subassembly drive wax stone together along the axis direction of pipe move even scribble the wax stone on throwing aureola, because of the external diameter of throwing aureola is tangent with the pipe external diameter on the feed mechanism, make the throwing aureola scribble wax on the pipe, drive the pipe rotation through frictional force, thereby make the wax on the pipe of throwing aureola polish, here simultaneously through the transmission of feed mechanism, all throwing aureola polish the outer wall of pipe in proper order, the technical problem of polishing for the pipe is solved;

2. the utility model discloses two mounting panels are used for fixing two guide bars, when the translation subassembly is required to carry out even waxing to polishing mechanism, through starting first linear drive ware, the output shaft of first linear drive ware has driven the removal rather than the translation frame of fixed connection, the translation frame moves along the axis direction of two guide bars, the removal of translation frame has driven the removal of waxing subassembly, thereby make the wax stone on the waxing subassembly paint the waxing along the direction of the axis of polishing wheel outer wall, carry out waxing and polishing to the pipe through the rotation of polishing wheel, the technical problem of translation subassembly evenly paint the waxing has been solved;

3. the utility model discloses a second linear actuator is fixed to the mounting bracket, when the translation subassembly will wax the subassembly and remove to the top of throwing aureola, start through second linear actuator, thereby the output shaft of second linear actuator stretches out the removal that has driven rather than fixed connection's slider, the removal of slider has driven the removal of wax box, the removal through the wax box has driven the wax stone in the wax box and has removed to the outer wall of throwing aureola, until contradicting to the outer wall of throwing aureola, make the wax stone paint to throwing aureola on through the removal of translation subassembly, wax on the wax stone passes through the friction loss after, continuation through the output shaft of second linear actuator stretches out, make the wax stone conflict with the outer wall of throwing aureola all the time, thereby can satisfy the automatic feeding to the wax stone, the automatic technical problem of waxing for throwing aureola has been solved.

Drawings

Fig. 1 is an overall perspective view of the present invention;

fig. 2 is an overall side view of the present invention;

fig. 3 is a partial side view of the present invention;

fig. 4 is a partial perspective view of the present invention;

FIG. 5 is a perspective view of the waxing mechanism of the present invention;

fig. 6 is an enlarged schematic view of the present invention at a in fig. 3;

fig. 7 is an enlarged schematic view of the present invention at B in fig. 4;

FIG. 8 is a perspective view of the waxing assembly of the present invention;

the reference numbers in the figures are:

1-a feeding mechanism; 1 a-a spacing wheel;

2-a polishing mechanism; 2 a-a polishing wheel; 2 b-a rotation axis; 2 c-a rotary drive;

3-waxing mechanism; 3 a-a translation assembly; 3a1 — first linear driver; 3a 2-sensor; 3a 3-guide bar; 3a 4-translation stage; 3a 5-mounting plate; 3 b-a waxing assembly; 3b 1-mount; 3b 2-wax box; 3b3 — slide; 3b4 — second linear drive; 3 c-the working table.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

In order to solve the technical problem of automatically waxing the circular tube, as shown in fig. 1 to 3, the following technical scheme is provided:

an automatic waxing apparatus for round tubes, comprising:

the feeding mechanism 1 is used for conveying the round pipe along the axis direction of the round pipe;

the polishing mechanism 2 is positioned above the feeding mechanism 1, and the polishing mechanism 2 is used for waxing and polishing the outer wall of the circular tube;

the waxing mechanism 3 is positioned above the polishing mechanism 2, and the waxing mechanism 3 waxes the polishing mechanism 2 and then waxes and polishes the circular tube through the polishing mechanism 2;

the waxing mechanism 3 includes:

the translation assembly 3a is positioned above the polishing mechanism 2, and the translation assembly 3a is used for driving the wax block to move along the axis direction of the circular tube, so that the wax block can be uniformly coated on the polishing mechanism 2;

the waxing assembly 3b is positioned above the polishing mechanism 2, a plurality of waxing assemblies 3b are arranged, and all the waxing assemblies 3b are used for feeding wax blocks onto the polishing mechanism 2;

workstation 3c, workstation 3c is located the side of feed mechanism 1, workstation 3c is used for controlling whole mechanism.

At first transmit the direction of the axis of pipe along the pipe through feed mechanism 1, wax stone material loading to polishing mechanism 2 is gone up to waxing subassembly 3b through waxing mechanism 3 afterwards, drives the wax stone through translation subassembly 3a and removes along the axis direction of pipe together to can be even paint the wax stone on polishing mechanism 2, wax and polish the outer wall of pipe through polishing mechanism 2, be used for controlling whole waxing mechanism 3 through workstation 3 c.

In order to solve the technical problem of polishing the circular tube, as shown in fig. 4, the following technical solutions are provided:

polishing mechanism 2 includes polishing wheel 2a, rotation axis 2b and rotary actuator 2c, rotation axis 2b is that horizontal state is located feed mechanism 1, the quantity of polishing wheel 2a and the quantity one-to-one of waxing subassembly 3b, all polish and take turns 2a all to overlap and locate on rotation axis 2b, the external diameter of polishing wheel 2a is tangent with the pipe external diameter on feed mechanism 1, rotary actuator 2c is located the lateral wall of one of them side of feed mechanism 1, rotary actuator 2 c's output shaft runs through lateral wall and rotation axis 2b fixed connection through feed mechanism 1.

When the feeding mechanism 1 transmits the circular tube to the polishing mechanism 2 along the axial direction of the circular tube, by starting the rotary driver 2c, the output shaft of the rotary driver 2c drives the rotary shaft 2b fixedly connected with the rotary driver to rotate, the rotation of the rotary shaft 2b drives all the polishing wheels 2a to rotate, the wax block is loaded on the polishing wheel 2a through the waxing component 3b, the wax block is driven by the translation component 3a to move uniformly along the axial direction of the circular tube together to be smeared on the polishing wheel 2a, the outer diameter of the polishing wheel 2a is tangent to the outer diameter of the circular tube on the loading mechanism 1, so that the polishing wheel 2a smears the wax on the circular tube, the circular tube is driven to rotate through friction, so that the polishing wheels 2a polish the wax on the circular tube, and all the polishing wheels 2a polish the outer wall of the circular tube in turn through the transmission of the feeding mechanism 1.

In order to solve the technical problem of uniform waxing of the translation assembly 3a, as shown in fig. 5-8, the following technical solutions are provided:

the translation assembly 3a comprises a first linear driver 3a1, two guide rods 3a3, two translation frames 3a4 and two mounting plates 3a5, the mounting plates 3a5 are two, the two mounting plates 3a5 are respectively located on the inner walls of the two sides of the top end of the feeding mechanism 1, the two guide rods 3a3 are provided, the two guide rods 3a3 are both located between the two mounting plates 3a5 in a horizontal state, the translation frames 3a4 are sleeved on the two guide rods 3a3, the translation frames 3a4 are connected with the guide rods 3a3 in a sliding mode, the first linear driver 3a1 is located on the outer side wall of one side of the top end of the feeding mechanism 1, the output shaft of the first linear driver 3a1 penetrates through the side wall of the feeding mechanism 1 to be fixedly connected with the translation frames 3a4, and the waxing assembly 3b is fixedly connected to one side of the translation assembly 3a close to the polishing mechanism 2.

The two mounting plates 3a5 are used for fixing the two guide rods 3a3, when the translation assembly 3a is required to uniformly coat wax blocks on the polishing mechanism 2, by starting the first linear driver 3a1, the output shaft of the first linear driver 3a1 drives the translation frame 3a4 fixedly connected with the translation frame to move, the translation frame 3a4 moves along the axial direction of the two guide rods 3a3, and the movement of the translation frame 3a4 drives the waxing assembly 3b to move, so that the wax blocks on the waxing assembly 3b are coated with wax along the axial direction of the outer wall of the polishing wheel 2a, and the circular tube is waxed and polished by the rotation of the polishing wheel 2 a.

In order to solve the technical problem of automatically waxing the polishing wheel 2a, as shown in fig. 5-8, the following technical solutions are provided:

the waxing assembly 3b comprises a mounting frame 3b1, a wax box 3b2, a sliding block 3b3 and a second linear driver 3b4, the mounting frame 3b1 is fixedly connected to the translation assembly 3a, the second linear driver 3b4 is fixedly connected to the mounting frame 3b1, the output direction of the second linear driver 3b4 is perpendicular to the translation direction of the translation assembly 3a, the sliding block 3b3 is fixedly connected with the output shaft of the second linear driver 3b4, the wax box 3b2 is fixedly connected to the sliding block 3b3, and the wax box 3b2 is used for fixing a wax block.

The mounting rack 3b1 is used for fixing the second linear driver 3b4, when the translation assembly 3a moves the waxing assembly 3b to the upper side of the polishing wheel 2a, through the start of the second linear driver 3b4, the output shaft of the second linear driver 3b4 extends out to drive the movement of the sliding block 3b3 fixedly connected with the sliding block, the movement of the sliding block 3b3 drives the movement of the wax box 3b2, the wax block in the wax box 3b2 is driven to move towards the outer wall of the polishing wheel 2a through the movement of the wax box 3b2 until abutting against the outer wall of the polishing wheel 2a, the wax block is smeared onto the polishing wheel 2a through the movement of the translation assembly 3a, after the wax on the wax block is lost through friction, the wax block continuously extends out through the output shaft of the second linear driver 3b4, so that the wax block always abuts against the outer wall of the polishing wheel 2a, and therefore the automatic wax block feeding can be satisfied.

In order to solve the technical problem of the position adjustment of the first linear driver 3a1, as shown in fig. 5-8, the following technical solutions are provided:

the first linear driver 3a1 of the translation assembly 3a is further provided with a sensor 3a2, and the sensor 3a2 is used for adjusting the displacement distance of the first linear driver 3a 1.

Through the sensing of sensor 3a2, adjust the displacement distance of first linear drive 3a1 to make translation subassembly 3a can be even scribble the waxing to polishing mechanism 2, match different job demands.

In order to solve the technical problem of adjusting the parameters of the waxing mechanism 3, as shown in fig. 1-3, the following technical solutions are provided:

the workbench 3c is located beside the feeding mechanism 1, and displacement parameters of the waxing component 3b and the translation component 3a are adjusted.

The displacement parameters of the waxing component 3b and the translation component 3a are adjusted through the workbench 3c, so that different operation requirements are matched.

In order to solve the technical problem of stable conveying of round pipes, as shown in fig. 5-8, the following technical solutions are provided:

feed mechanism 1 still is equipped with a plurality of spacing wheels 1a along the axis direction of pipe, all spacing wheel 1a all is located the top of pipe, spacing wheel 1a is used for carrying the axis distance that the pipe can only be followed to the pipe with the pipe, can't take place to deflect in the radial direction of pipe.

When feed mechanism 1 carried to polishing mechanism 2, during pipe and polishing mechanism 2, probably because polishing mechanism 2's high-speed rotation makes the pipe take place to beat, can conflict to the below of spacing round 1a when the pipe radial direction takes place to deflect, spacing round 1a makes the axis distance that the pipe can only be followed to the pipe carry, can't take place to deflect in the radial direction of pipe.

Thereby increasing the stability of conveying the round pipe and improving the working efficiency.

The utility model discloses a theory of operation:

when the feeding mechanism 1 transmits the circular tube to the polishing mechanism 2 along the axis direction of the circular tube, by starting the rotary driver 2c, the output shaft of the rotary driver 2c drives the rotary shaft 2b fixedly connected with the rotary driver to rotate, and the rotation of the rotary shaft 2b drives all the polishing wheels 2a to rotate;

the wax block is fed onto the polishing wheel 2a through the waxing component 3b, the mounting frame 3b1 is used for fixing the second linear driver 3b4, when the waxing component 3b is moved to the position above the polishing wheel 2a through the translation component 3a, through the starting of the second linear driver 3b4, the output shaft of the second linear driver 3b4 extends out to drive the slider 3b3 fixedly connected with the output shaft to move, the slider 3b3 moves to drive the wax box 3b2 to move, the wax block in the wax box 3b2 is driven to move towards the outer wall of the polishing wheel 2a through the movement of the wax box 3b2 until the wax block collides against the outer wall of the polishing wheel 2a, the wax block is smeared onto the polishing wheel 2a through the movement of the translation component 3a, when the wax on the wax block is lost through friction, the wax block continuously extends out through the output shaft of the second linear driver 3b4, so that the wax block always collides against the outer wall of the polishing wheel 2a, thereby meeting the requirement of automatic feeding of the wax block;

then the wax blocks are driven by the translation component 3a to move uniformly along the axis direction of the circular tube together, and the wax blocks are coated on the polishing wheel 2 a; the two mounting plates 3a5 are used for fixing the two guide rods 3a3, when the translation assembly 3a is required to uniformly coat wax blocks on the polishing mechanism 2, by starting the first linear driver 3a1, the output shaft of the first linear driver 3a1 drives the translation frame 3a4 fixedly connected with the translation frame to move, the translation frame 3a4 moves along the axial direction of the two guide rods 3a3, and the movement of the translation frame 3a4 drives the waxing assembly 3b to move, so that the wax blocks on the waxing assembly 3b are coated with wax along the axial direction of the outer wall of the polishing wheel 2a, and the circular tube is waxed and polished by the rotation of the polishing wheel 2 a;

when feed mechanism 1 carried to polishing mechanism 2, during pipe and polishing mechanism 2, probably because polishing mechanism 2's high-speed rotation makes the pipe take place to beat, can conflict to the below of spacing round 1a when the pipe radial direction takes place to deflect, spacing round 1a makes the axis distance that the pipe can only be followed to the pipe carry, can't take place to deflect in the radial direction of pipe.

Thereby increasing the stability of conveying the round pipe and improving the working efficiency;

because the outer diameter of the polishing wheel 2a is tangent to the outer diameter of the circular tube on the feeding mechanism 1, the polishing wheel 2a coats wax on the circular tube, the circular tube is driven to rotate by friction force, so that the polishing wheel 2a polishes the wax on the circular tube, and meanwhile, all the polishing wheels 2a sequentially polish the outer wall of the circular tube through transmission of the feeding mechanism 1;

the displacement distance of the first linear driver 3a1 is adjusted by the sensing of the sensor 3a2, so that the translation assembly 3a can uniformly paint and wax the polishing mechanism 2 to match different operation requirements;

the displacement parameters of the waxing component 3b and the translation component 3a are adjusted through the workbench 3c, so that different operation requirements are matched.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the principles of the present invention may be applied to any other embodiment without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. An automatic waxing apparatus for round tubes, comprising:

the feeding mechanism (1) is used for conveying the round pipe along the axis direction of the round pipe;

the polishing mechanism (2) is positioned above the feeding mechanism (1), and the polishing mechanism (2) is used for waxing and polishing the outer wall of the circular tube;

the waxing mechanism (3) is positioned above the polishing mechanism (2), and the waxing mechanism (3) waxes the polishing mechanism (2) and then waxes and polishes the circular tube through the polishing mechanism (2);

characterized in that, mechanism (3) of waxing includes:

the translation assembly (3a) is positioned above the polishing mechanism (2), and the translation assembly (3a) is used for driving the wax blocks to move along the axis direction of the circular tube together, so that the wax blocks can be uniformly smeared on the polishing mechanism (2);

the waxing assembly (3b) is positioned above the polishing mechanism (2), a plurality of waxing assemblies (3b) are arranged, and all the waxing assemblies (3b) are used for feeding wax blocks onto the polishing mechanism (2);

workstation (3c), workstation (3c) are located the side of feed mechanism (1), workstation (3c) are used for controlling whole mechanism (3) of waxing.

2. The automatic waxing equipment for round tubes according to claim 1, wherein the polishing mechanism (2) comprises polishing wheels (2a), a rotating shaft (2b) and a rotating driver (2c), the rotating shaft (2b) is horizontally arranged on the feeding mechanism (1), the number of the polishing wheels (2a) corresponds to the number of the waxing components (3b) one by one, all the polishing wheels (2a) are sleeved on the rotating shaft (2b), the outer diameter of each polishing wheel (2a) is tangent to the outer diameter of a round tube on the feeding mechanism (1), the rotating driver (2c) is arranged on the outer side wall of one side of the feeding mechanism (1), and the output shaft of the rotating driver (2c) penetrates through the side wall of the feeding mechanism (1) and is fixedly connected with the rotating shaft (2 b).

3. The automatic circular tube waxing device according to claim 2, wherein the translation assembly (3a) comprises a first linear actuator (3a1), two guide rods (3a3), two translation frames (3a4) and two mounting plates (3a5), two mounting plates (3a5) are respectively located on the inner walls of the two sides of the top end of the feeding mechanism (1), two guide rods (3a3) are provided, two guide rods (3a3) are horizontally located between the two mounting plates (3a5), the translation frame (3a4) is sleeved on the two guide rods (3a3), the guide rods (3a3) of the translation frame (3a4) are slidably connected, the first linear actuator (3a1) is located on the outer side wall of one side of the top end of the feeding mechanism (1), and the output shaft of the first linear actuator (3a1) penetrates through the upper side wall of the translation frame (891) and is connected with the translation frame (36 a) through the output shaft (891) of the upper side wall of the translation frame (3a 463 a) And the waxing component (3b) is fixedly connected to one side of the translation component (3a) close to the polishing mechanism (2).

4. The automatic round pipe waxing device according to claim 3, wherein said waxing assembly (3b) comprises a mounting bracket (3b1), a wax box (3b2), a sliding block (3b3) and a second linear driver (3b4), said mounting bracket (3b1) is fixedly connected to the translation assembly (3a), said second linear driver (3b4) is fixedly connected to the mounting bracket (3b1), the output direction of said second linear driver (3b4) is perpendicular to the translation direction of the translation assembly (3a), said sliding block (3b3) is fixedly connected to the output shaft of the second linear driver (3b4), said wax box (3b2) is fixedly connected to the sliding block (3b3), and said wax box (3b2) is used for fixing the wax block.

5. The automatic waxing equipment for round tubes according to claim 3, wherein the first linear driver (3a1) of the translation assembly (3a) is further provided with a sensor (3a2), and the sensor (3a2) is used for adjusting the displacement distance of the first linear driver (3a 1).

6. The automatic waxing equipment for round tubes according to claim 1, characterized in that the working table (3c) is located beside the feeding mechanism (1), and the displacement parameters of the waxing assembly (3b) and the translation assembly (3a) are adjusted.

7. The automatic waxing equipment for round tubes according to claim 1, wherein the feeding mechanism (1) is further provided with a plurality of limiting wheels (1a) along the axis direction of the round tubes, all the limiting wheels (1a) are located above the round tubes, the limiting wheels (1a) are used for conveying the round tubes along the axis distance of the round tubes, and the round tubes cannot deflect in the radial direction.

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