KR200460085Y1 - Surface grinding roller feed device - Google Patents

Abstract

The present invention relates to a structure of a carriage feeder of a roller surface polishing machine which can prevent sagging due to its own weight of the carriage to maintain accurate horizontality, and more specifically, a driving force of a motor into the carriage. Forming a pinion gear that rotates to receive, and fixed to the pinion gear geared to the rack gear in the arrangement direction of the bed, the pinion gear is rotated and geared to the rack gear is configured to move the carriage to the left, right Characterized in that; There is no effect of sagging due to the weight of the carriage so that the horizontal feed accuracy is maintained.

Description

Reciprocating feeder structure of roller surface grinding machine {Surface grinding roller feed device}

The present invention relates to a structure of a carriage transfer device of a roller surface polishing machine. In particular, the present invention relates to a carriage transfer device structure of a roller surface polishing device capable of moving and maintaining accurate horizontality by preventing sagging due to its own weight. It is about.

In general, the rollers can be classified into various types according to the use or shape. In particular, when the surface is smooth, if a scratch occurs, the rollers are ground and polished to smooth the surface.

As described above, the roller surface polishing apparatus forms a tailstock reciprocating along the bed facing the main shaft to support the other end of the roller is rotated by the power of the main shaft of the chuck bite of one end of the roller, Grinding the surface of the roller supported by the chuck and the tail stock, the processing tool for the smoothness work is fixed and forms a carriage to be moved on the bed along the feed shaft, to prevent heat generation and discharge of the chip during the processing of the roller The cutting water or cutting oil container for collecting the cutting water or the cutting oil sprayed from the nozzle is located at the bottom of the bed.

As described above, the conventional roller surface polishing apparatus has a problem that the carriage is supported on the feed shaft and reciprocated so that bending occurs in the feed shaft for a long time and the horizontal movement accuracy is lowered.

Accordingly, the present invention has been made in view of the problems of the prior art as described above, and an object of the present invention is to provide a carriage transfer device structure of a roller surface polishing device such that horizontal transfer accuracy is maintained without sagging due to the weight of the carriage. .

In addition, another object of the present invention is to ensure that the pinion, which is rotated by receiving the driving force of the motor, moves along the rack to move the carriage, so that no separate driving force is required for the movement.

In order to achieve the above object, the present invention forms a tailstock in which one end of the roller is rotated by the power of the main shaft, reciprocating along the bed while facing the main shaft to support the other end of the roller. In order to grind the surface of the roller supported by the chuck and the tailstock, the processing tool for smoothness work is fixed and forms a carriage moving on the bed along the feed shaft, and prevents heat generation and discharge of chips when processing the roller. In the roller surface polishing apparatus configured to have the cutting water or cutting oil to be ejected from the nozzle for cutting or cutting oil to be collected in the lower part of the bed, to form a pinion gear to rotate by receiving the driving force of the motor to the inside of the carriage, The pinion gear is fixedly installed in the arrangement direction of the bed by a gear that is bitten by the pinion gear. Reciprocating transfer of a roller surface polishing apparatus, comprising: a guide bed that rotates and is geared to a lex gear to move the carriage to the left and right, and a guide bed guides the movement of the carriage to the front and rear of the lex gear. Provide a device structure.

As described above, the present invention does not cause sag due to the weight of the carriage so that the horizontal feeding accuracy is maintained.

In addition, the pinion, which is rotated by receiving the driving force of the motor, moves along the rack gear to move the carriage, so that a separate driving force for movement is not required.

1 is a perspective view of a roller surface polishing apparatus according to the present invention,
2 is a perspective view of the auxiliary body of the tail stock according to the present invention;
3 is an operation diagram showing the operation of the roller member according to the position fixing-feeding-position fixing process according to the present invention,
4 is an operation diagram showing a process in which chips are collected in the cutting water or the cutting oil collection box according to the present invention and only the cutting water or the cutting oil is collected.

When described in detail based on the accompanying drawings a preferred embodiment of the present invention as described above as follows.

As shown in Figure 1 and Figure 2, relates to the tailstock feeder structure of the roller surface polishing apparatus of the present invention.

First, looking at the roller surface polishing apparatus 100 is rotated by receiving the power of the main shaft 10, the chuck 11, one end of the roller 200 is bitten.

Then, the tailstock 30 is formed to face the main shaft 10 so as to support the other end of the roller 200 and reciprocate along the bed 20.

In addition, a grinding tool for grinding and smoothing the surface of the roller 200 supported by the chuck 11 and the tail stock 30 is mounted on the bed 20 along the feed shaft to move. ).

In addition, the cutting water or cutting oil collection box 50 for collecting cutting water or cutting oil sprayed from the nozzle 51 to prevent heat generation and discharge of the chip when the roller 200 is disposed is located at the bottom of the bed 20 do.

At this time, the tailstock 30 is a tailstock body 34 is provided with a handle 33 for moving back and forth the holder 32 to which the tapered pin 31 supporting the other end of the roller 200 is inserted. It is made up.

Then, the auxiliary body 35 having one side open to the lower part of the tailstock body 34 is installed to be placed on the upper surface of the bed 20,

Meanwhile, the support plate 60 is installed below the bed 20 and the bottom plate 36 and the support plate 60 of the auxiliary body 35 are spirally coupled to the fastening bolt 61 to tighten and loosen.

At this time, in the interior of the auxiliary body 35, the bottom plate 36 is not in contact with the bed 20 when the tightening bolt 61 is released, but in contact with the movement roller 74 protruding downward to the auxiliary body 35 The roller member 70 is configured to minimize the frictional force when moving.

Here, a fixed end 38 is formed on the inner side wall 37 of the auxiliary body 35 positioned above the bed 20.

In addition, the roller member 70 is supported by the fixed end 38 by forming a through hole 36a in the bottom plate 36.

That is, it is configured to insert and protrude from the auxiliary body 35 through the through hole 36a by tightening and loosening the tightening bolt 61.

In addition, the roller member 70 forms a screw shaft 71 spirally coupled to the fixed end 38.

Meanwhile, the spring support plate 72 is fastened to the screw shaft 71 so as to be positioned below the fixed end 38.

In addition, the compression spring 73 is inserted into the lower surface of the spring support plate 72, if the elastic force of the compression spring 73 can be adjusted by rotating the screw shaft (71).

Then, the other end of the compression spring (73) is fitted to the upper and the roller support member 75 is formed to move so that the roller 74 is formed so as not to be separated through the through hole (36a).

In addition, the roller support 75 is formed so as not to be separated from the lower through the through hole 36a by forming a locking end (75a) in the upper four ends, the roller support (75) to the compression spring (73) It is configured to move up and down while being supported.

On the other hand, the pinion gear 43 which rotates by receiving the driving force of the motor 42 to the inside of the carriage 40 is formed.

Then, the rack gear 44 which is bitten by the pinion gear 43 is fixedly installed in the arrangement direction of the bed 20.

At this time, the pinion gear 43 is rotated, and the gearbox is bitten by the gear 44 to configure the carriage 40 to move left and right.

Here, the carriage 40 is engaged with the front and rear of the rack gear 44 is configured as a guide bed 45 for guiding the movement.

As shown in FIG. 4, the cutting water or cutting oil container 50 is injected from the nozzle 51 during the surface processing of the roller 200 and passes through the first collection container 52 in which cutting water or cutting oil containing chips is collected. The inner space in the longitudinal direction is bisected by a divider plate 54 in which the flow hole 55 is formed to flow through the second collection box 53.

That is, the chip is deposited on the bottom while passing through the first and second collection boxes 52 and 53 The coolant or coolant is configured to be stored for flow and reuse.

In addition, the first collection box 52 and the second collection box 53 divide the internal space into equal parts by a plurality of partition plates 56 having a flow hole 55 formed at an upper side thereof.

At this time, at one end of the first collection box 52, a plurality of flow spaces 58 are formed to the second collection box 53 to the rear of the collection space 57 in which cutting water or cutting oil is collected.

In addition, the end of the second collection box 53 on the opposite side of the collecting space 57 is configured as a storage space 59 in which the purified cutting water or cutting oil is finally stored.

Here, a pump capable of pumping and supplying cutting water or cutting oil purified by the nozzle 51 may be connected to an outer surface of the storage space 59.

Referring to the operation and operation of the present invention configured as described above are as follows.

1 to 4, the roller surface polishing apparatus 100 has both ends of the roller 200 at both ends of the chuck 11 of the main shaft 10 and the tapered pin 31 of the tail stock 30. To fit.

At this time, the tail stock 30 is moved along the bed 20 according to the length of the roller 200 to fix the position.

1. In order to fix the tailstock 30, tightening the tightening bolt 61, the bottom plate 36 and the support plate 60 of the auxiliary body 35 is close to each other in a state where the bed 20 is located between them. Finely tightened.

At this time, the roller support member 75 is inserted into the through hole 36a while the roller support member 75 compresses the compression spring 73 by the tightening force in the state in which the moving roller 74 of the roller member 70 is in contact with the bed 20. The bottom plate 36 is in contact with the bed 20 is fixed in position.

2. In order to move the tailstock 30, loosening the tightening bolt 61, the bottom plate 36 and the support plate 60 of the auxiliary body 35 is far apart from each other in a state where the bed 20 is located between Loosen finely

At this time, the roller support member 75 of the roller member 70 protrudes to the outside of the through hole 36a by the elastic force of the compression spring 73 so that the moving roller 74 contacts the bed 20.

Thereafter, when the operator simply pushes the tailstock body 34 or the auxiliary body 35, the movement roller 74 contacts the bed 20 and rotates to move the desired position, and then tightens the tightening bolt 61 to position. Fix it.

The carriage 40 is equipped with a processing tool for grinding or smoothing the surface of the roller 200.

Subsequently, when the chuck 11 is rotated by supplying electric power to the headstock 10 to drive a driving motor (not shown in the drawing), the roller 200 and the tapered pin 31 are rotated.

Next, while the roller 200 is rotated, the surface of the roller 200 may be ground or smoothed while moving the carriage 40 equipped with the processing tool in the left and right directions.

At this time, the pinion gear 43, which is rotated by receiving the driving force of the motor 42 installed inside the carriage 40, is moved by the rotational force to the gear gear 44 by the gear coupling.

That is, the carriage 40 is the pinion gear 43 is rotated, the gear is bitten by the gear 44 is moved to the left, right, so that no drooping phenomenon occurs, the accuracy of horizontal movement is improved.

In addition, the carriage 40 moves along the guide bed 45 installed at the front and the rear of the gear gear 44 so that the processing tool grinds or smoothes the surface of the roller 200.

In addition, the cutting water or the cutting oil is operated through the nozzle 51 to prevent the generation of heat and remove chips when the processing tool performs grinding or smoothing on the surface of the roller 200. Sprayed.

In this way, the injected cutting water or cutting oil is collected into the collecting space 57 of the first collection box 52 while containing chips, and the amount of the collected water is increased so that the cutting water or cutting oil exceeds the level of the flow hole 55. It flows into the flow space 58 through the hole 55.

In this manner, the cutting water or cutting oil collected in the flow space 58 moves through the flow hole 55 to the sequential flow space 58 located rearward, while the heavy chips or impurities are first precipitated and light floating The material is filtered through a plurality of flow spaces (58).

In addition, the cutting water or cutting oil purified by removing the chips or impurities is collected in the storage space 59 of the second collection box 53 and supplied to the nozzle 51 using a pump for reuse.

In the above, the present invention has been illustrated and described by way of specific preferred embodiments, but the present invention is not limited to the above-described embodiments and the general knowledge in the art to which the present invention belongs without departing from the spirit of the present invention. Various changes and modifications can be made by those who have

10: headstock 11: chuck
20: bed 30: tailstock
31: taper pin 32: holder
33: handle 34: tailstock body
35: auxiliary body 36: the bottom plate
36a: through hole 37: side wall
38: fixed end 40: shuttle
42: motor
43: Pinion Gear 44: Lex Gear
45: guide bed 50: cutting water or cutting waste container
51: nozzle 52: the first collection bin
53: Second collection box 54: Partition plate
55 flow hole 56 partition plate
57: collecting space 58: flow space
59: storage space 60: support plate
61: tightening bolt 70: roller member
71: screw shaft 72: spring support plate
73: compression spring 74: moving roller
75: roller support 100: roller surface polishing apparatus
200: roller

Claims (2)

One end of the roller 200 is rotated by the power of the main shaft 10, the chuck 11 is bitten, and the bed 20 to face the main shaft 10 to support the other end of the roller 200 A tailstock 30 reciprocating is formed along the surface of the roller 200 supported by the chuck 11 and the tailstock 30, and a processing tool for smoothness operation is fixed and a bed is formed along the feed shaft. 20) to form a carriage 40 to move up, the roller 200, the cutting water or cutting oil collection to collect the cutting water or cutting oil injected from the nozzle 51 to prevent heat generation and discharge of the chip during processing In the roller surface polishing apparatus configured to be positioned 50 below the bed 20,
The pinion gear 43 is formed to rotate by receiving the driving force of the motor 42 to the inside of the carriage 40, and the lag gear 44 which is bitten by the pinion gear 43 is of the bed 20 Fixed installation in the direction of placement,
The pinion gear 43 is rotated and is geared to the lex gear 44 to configure the carriage 40 to move left and right,
The carriage carriage structure of the roller surface polishing machine, characterized in that the guide bed (45) for guiding the movement when the carriage 40 is bitten to the front and rear of the rake gear (44).
delete

Images