CN205853113U - Cutting tool - Google Patents

Abstract

The utility model discloses a kind of cutting tool, including: cutting head, framework, workbench, guide rail and regulating part；Cutting head includes a rotating cutting member, and framework is used for installing cutting head, and workbench is for placing object to be cut, and guide rail is used for making workbench be slidingly attached to framework, and regulating part is rotating is connected to framework；Wherein, guide rail is provided with and can be conditioned the regulation through hole that part is run through, regulating part be included in regulating part rotate time by with regulation through hole hole wall contact the contact site making the position of regulation through hole relative accommodation part rotating shaft change.Wherein, by the regulation of regulating part, it is possible to make the position of guide rail opposing frame change.

Description

Cutting tool

Technical Field

The utility model relates to a cutting means, concretely relates to marble cutter.

Background

Stand-up stone cutting machines are widely appreciated by users as a cutting tool for cutting objects such as tiles, marble, and the like. Such cutting tools generally comprise: basin, cutting head, frame, workstation and support etc.. In order to enable the object to gradually approach the cutting head during the cutting process, a guide rail assembly is also included in the cutting tool, and the guide rail assembly is used for enabling the workbench to be slidably arranged above the frame. The guide rail assembly usually comprises more than one guide rail, the existing guide rail is usually directly fixed on the frame, and after long-term use, the position of the guide rail relative to the frame may be deviated, so that the relative angle between the cutting line on the workbench and the cutting piece is changed, and the cutting effect is influenced.

SUMMERY OF THE UTILITY MODEL

For solving the not enough of prior art, the utility model aims to provide a can adjust the cutting means of the relative frame's of guide rail position.

In order to achieve the above object, the utility model adopts the following technical scheme:

a cutting tool, comprising: the cutting machine comprises a cutting head, a frame, a workbench, a guide rail and an adjusting piece; the cutting head comprises a rotatable cutting piece, a frame is used for installing the cutting head, a workbench is used for placing an object to be cut, a guide rail is used for enabling the workbench to be connected to the frame in a sliding mode, and an adjusting piece is rotatably connected to the frame; the guide rail is provided with an adjusting through hole which can be penetrated by the adjusting piece, and the adjusting piece comprises a contact part which enables the position of the adjusting through hole relative to the rotating shaft of the adjusting piece to change through the contact with the hole wall of the adjusting through hole when the adjusting piece rotates.

Further, the size of the adjusting through hole in the length direction of the guide rail is larger than the maximum length of the contact part in a plane perpendicular to the rotating shaft of the adjusting piece.

Further, the adjusting through hole is a kidney-shaped hole comprising a straight line side extending along the length direction of the guide rail.

Further, in a plane perpendicular to the rotating shaft of the adjusting member, the contact portion includes a farthest portion having a first distance from the rotating shaft of the adjusting member and a closest portion having a second distance from the rotating shaft of the adjusting member, wherein the first distance is greater than the second distance.

Further, the adjusting member further includes: a rotating part; the rotating part is at least partially rotatably embedded into the frame; the contact part is arranged at one end of the rotating part far away from the frame; the outer wall of rotation portion is equipped with the external screw thread, and the contact site is the cylinder, and the central axis of contact site does not coincide with the pivot of rotation portion.

Further, the cutting tool further comprises: a positioning member connecting the guide rail and the frame; the guide rail is provided with a positioning through hole through which a positioned piece can penetrate; the positioning piece comprises a positioning part which can fix the position of the positioning through hole relative to the frame; the positioning through hole is a kidney-shaped hole which comprises a straight line edge extending along the length direction of the guide rail in a perpendicular mode.

Further, in a plane perpendicular to the length direction of the guide rail, the section of the guide rail comprises an L-shaped structure; wherein, the adjusting through hole is formed on one side of the L-shaped structure of the guide rail, which is contacted with the frame.

Furthermore, the guide rail is provided with at least two adjusting through holes, and corresponding adjusting pieces are arranged corresponding to each adjusting through hole.

Furthermore, the cutting tool comprises two guide rails, each guide rail is provided with an adjusting through hole, and a corresponding adjusting piece is arranged corresponding to each adjusting through hole; and in the direction perpendicular to the length direction of the guide rails, the positions of the corresponding adjusting through holes on the two guide rails are aligned.

Further, the cutting tool further comprises: the water basin, the bracket and the supporting arm; the water basin is used for storing water, the bracket supports the cutting tool, and the support arm enables the cutting head to be supported on the frame; wherein, the cutting head and the supporting arm form a rotary connection which can take a first axis parallel to the workbench as an axis.

In the cutting tool, the adjusting piece can adjust the position of the guide rail relative to the frame, so that the position of the guide rail can be finely adjusted, and the cutting effect is improved.

Drawings

FIG. 1 is a perspective view of a cutting tool;

FIG. 2 is a schematic view of the frame and rail assembly of FIG. 1 in an attached configuration;

FIG. 3 is an exploded view of the structure shown in FIG. 2;

FIG. 4 is an enlarged structural view of a portion of the structure shown in FIG. 3;

FIG. 5 is a schematic view of the adjustment member of FIG. 2;

fig. 6 is a plan view of a partial structure of the guide rail in fig. 2.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

The cutting tool 100 shown in fig. 1 includes: basin 11, frame 12, rail assembly 20, table 13, cutting head 14, and mount 15. The cutting tool 100 may be a stone cutting machine, and may be used to cut objects such as tiles and marble.

Basin 11 is used to store water for cooling cutting head 14, and basin 11 is formed with a water storage area for storing water for cooling. Structurally, the basin 11 is rectangular, the middle part of the basin 11 is recessed downwards to form the water storage area, and the periphery of the basin is provided with a side wall for surrounding the water storage area. Like this, cutting tool 100 is in the cutting process, and the hydroenergy of storage in basin 11 can in time dispel the heat to cutting head 14, and the water storage area can also receive the water that splashes down from cutting head 14 to can avoid making dirty ground, guarantee sanitation and hygiene, the water storage area that again basin 11 formed can also receive the sweeps that produces in the cutting process.

The frame 12 is located above the basin 11 and may be specifically mounted to the basin 11 or to the bracket 15. Frame 12 is used to support rail assembly 20 and mount cutting head 14. As shown in fig. 2 and 3, the frame 12 includes: a first mounting arm 121 and a second mounting arm 122 disposed parallel to each other, and the frame 12 further includes a first connecting arm 123 connecting the first mounting arm 121 and the second mounting arm 122 at one ends thereof and a second connecting arm 124 connecting the first mounting arm 121 and the second mounting arm 122 at the other ends thereof. The first mounting arm 121 and the second mounting arm 122 are parallel to each other, the first connecting arm 123 and the second connecting arm 124 are also substantially parallel to each other, and the first connecting arm 123 is also perpendicular to the first mounting arm 121.

It should be noted that the terms "above" and "below" in the present invention refer to the approximate position of one element or structure with respect to another element or structure, and are not limited to the vertical direction and the vertical direction in a strict sense.

As shown in fig. 1 and 2, a rail assembly 20 is mounted to the frame 12, the rail assembly 20 including: a rail 21, the rail 21 for slidably connecting the table 13 to the frame 12. The number of the guide rails 21 included in the guide rail assembly 20 may be one, two or more, and here, the guide rail assembly 20 includes two guide rails 21, which not only has a simple structure, but also ensures the stability of the sliding of the workbench 13. When the rail assembly 20 includes two rails 21, the two rails 21 are connected to the first and second mounting arms 121 and 122, respectively. Specifically, in order to enable the table 13 to slide relative to the rail assembly 20, the rail 21 extends in a direction parallel to the longitudinal direction of the first mounting arm 121, and is formed with a guide portion 211 for guiding.

The table 13 is used for placing an object to be cut, a work plane is formed above the table 13, and a lower side of the table 13 is coupled to the rail assembly 20, and specifically, the table 13 is slidably mounted to the rail assembly 20 in a first linear direction. Specifically, the guide part 211 is the guide way that extends along first linear direction, and the both sides of the below of workstation 13 are connected with the gyro wheel that can imbed into two guide ways respectively, make workstation 13 can slide along first linear direction relative guide rail assembly 20 through the combination of gyro wheel and guide way to the object of being convenient for removes towards cutting head 14, and then the user's of being convenient for cutting operation.

Cutting head 14 is disposed above table 13, and may be mounted on basin 11 or frame 12, here for example on frame 12. Cutting head 14 may include: a housing, a motor, a cutter, a shroud, and the like. The casing is used for holding structures such as motor, and the motor is used for driving the cutting piece to rotate in order to realize the cutting function, and the cutting piece can be circular saw bit, and under the drive of motor, the cutting piece can use one to pass the axis of self to rotate as the axle, and the guard shield is used for preventing that the sweeps splashes the user in cutting process, causes the injury to the user.

To mount cutting head 14, cutting tool 100 may also include a support arm 16, with support arm 16 supporting cutting head 14 on frame 12. Support arm 16 is connected at one end to cutting head 14 and at the other end to frame 12, that is, cutting head 14 is indirectly mounted to frame 12 via support arm 16, which may in particular be mounted to one of first mounting arm 121 and second mounting arm 122. Wherein the cutting head 14 is also connected with the support arm 16 in a rotatable manner about a first axis parallel to the table 13, which is further parallel to the axis about which the cutting member itself rotates, so that the cutting head 14 can be moved towards or away from the table 13 in a direction perpendicular to the table 13, and can be switched between a position in contact with the object and a position away from the object, thereby cutting the object.

The support 15 serves to support the entire cutting tool 100 such that the cutting tool 100 is stably placed on the ground.

As shown in fig. 2 to 6, the cutting tool 100 further includes: the adjusting piece 17, the adjusting piece 17 is rotatably connected to the frame 12, and the guide rail 21 is provided with an adjusting through hole 212 through which the adjusting piece 17 can pass. Here, a specific description will be given by taking an adjusting member 17 and an adjusting through hole 212 of the guide rail 21 as an example.

Specifically, for one guide rail 21 of the two guide rails 21, more specifically, for one adjustment through hole 212 on one guide rail 21 and the adjustment piece 17 corresponding to the adjustment through hole 212, the adjustment piece 17 includes the contact portion 171.

Wherein the adjusting member 17 is rotatably connected to the frame 12, when the adjusting member 17 rotates relative to the frame 12, the contact portion 171 makes the position of the adjusting through hole 212 relative to the rotating shaft 101 of the adjusting member 17 change by contacting with the wall of the adjusting through hole 212. Thus, when the user rotates the adjusting member 17, the adjusting member 17 starts to rotate, and the contact portion 171 drives the position of the adjusting through hole 212 to change, so that the position of the guide rail 21 relative to the frame 12 changes, and the fine adjustment of the position of the guide rail 21 is realized. For a guide rail 21, an adjusting member 17 can enable the guide rail 21 to rotate, and the workbench 13 is arranged on the guide rail 21, so that the angle of the workbench 13 relative to the cutting head 14 can be adjusted; for the two guide rails 21, the adjusting member 17 rotates one of the guide rails 21, so that the parallelism of the guide rail 21 with respect to the other guide rail 21 can be adjusted, and the parallelism between the two guide rails 21 can be ensured.

It is understood that two or more than two adjusting through holes 212 may be provided on one guide rail 21, and an adjusting member 17 corresponding to each adjusting through hole 212 is provided. Thus, when a user rotates the two adjusting members 17 on one guide rail 21 in the same direction and rotates the same angle, the guide rail 21 can be translated relative to the other guide rail 21, so that the distance between the two guide rails 21 can be adjusted, and the distance between the two guide rails 21 is kept unchanged. When the user rotates one adjusting member 17 on one guide rail 21 or does not rotate two adjusting members 17 in the same direction, the guide rail 21 can be rotated relative to the other guide rail 21, so that the parallelism between the two guide rails 21 can be adjusted. Similarly, for the two guide rails 21, each guide rail 21 may be provided with an adjusting through hole 212, and a corresponding adjusting member 17 may be provided corresponding to each adjusting through hole 212, in this case, in a direction perpendicular to the length direction of the guide rails 21, the positions of the corresponding adjusting through holes 212 on the two guide rails 21 may be aligned, so that a user may arbitrarily adjust one of the two guide rails 21 or may adjust the positions of the two guide rails 21 at the same time according to the operation habit.

The structure of the adjustment member 17 and the adjustment through hole 212 is described in detail below:

in a plane perpendicular to the length direction of the guide rail 21, a cross section of the guide rail 21 in the plane includes a section of the L-shaped structure 213, wherein one side of the L-shaped structure 213 of the guide rail 21 is in contact with the frame 12, and the adjustment through hole 212 is formed in the L-shaped structure 213 on the side in contact with the frame 12.

Specifically, the adjuster 17 further includes: a rotating part 172, the rotating part 172 being used to bring the adjusting member 17 into rotational connection with the frame 12.

The rotating portion 172 is rotatably embedded in the frame 12, and the outer wall of the rotating portion 172 is further provided with an external thread, so that the rotating portion 172 includes an external thread section. The frame 12 is also provided with screw holes corresponding to the positions of the adjusting pieces 17 and the adjusting through holes 212. Thus, after the rotating portion 172 of the adjusting member 17 passes through or out of the adjusting through hole 212 and extends into the threaded hole, the adjusting member 17 can rotate relative to the frame 12. The contact portion 171 is disposed at an end of the rotating portion 172 away from the frame 12, and the contact portion 171 is at least partially received in the adjustment through hole 212, which may enable the contact portion 171 to come into contact with a hole wall of the adjustment through hole 212. Wherein the dimension of the adjusting through hole 212 in the length direction of the guide rail 21 is also larger than the maximum length of the contact portion 171 in the plane perpendicular to the rotating shaft 101 of the adjusting member 17. And the contact portion 171 includes a farthest portion 171a having a first distance from the rotation shaft 101 of the adjusting member 17 and a closest portion 171b having a second distance from the rotation shaft 101 of the adjusting member 17 in a plane perpendicular to the rotation shaft 101 of the adjusting member 17, the first distance being greater than the second distance. The rotation shaft 101 of the adjuster 17 refers to a rotation axis when the rotating part 172 rotates relative to the frame 12, that is, the rotation shaft 171 of the adjuster 17 is the same axis as the rotation shaft of the rotating part 172. In this way, when the user rotates the adjusting member 17, since the position of the rotating portion 172 in the plane perpendicular to the rotating shaft 101 is fixed, when the rotating portion 172 rotates, the position of the adjusting through hole 212 is changed with respect to the frame 12 by the contact of the farthest portion 171a, the closest portion 171b, and the portion between the farthest portion 171a and the closest portion 171b with the hole wall of the adjusting through hole 212, thereby achieving the adjustment of the position of the guide rail 21.

Further, the adjusting through hole 212 is a kidney-shaped hole, which includes a pair of linear sides 212a parallel to each other, the linear sides 212a also being parallel to the length direction of the guide rail 21, and a pair of arc-shaped sides 212b, the pair of arc-shaped sides 212b respectively connecting the two linear sides 212a at both ends of the linear sides 212 a. For the adjusting member 17, the contact portion 171 is further a cylindrical body, the central axis 102 of which is not coincident with the rotation axis 101 of the rotating portion 172, so that the contact portion 171 can form a farthest portion 171a and a closest portion 171b having different distances from the rotation axis 101 of the adjusting member 17, respectively. Wherein the sidewall of the cylinder, which forms the farthest portion 171a and the nearest portion 171b, is in contact with the contact portion 171, and the position adjustment of the adjustment through-hole 212 is achieved by the contact of the sidewall of the cylinder with the contact portion 171. More specifically, for the contact portion 171 of the cylindrical structure and the adjustment through hole 212 of the kidney-shaped hole structure, the diameter of the cylindrical body may also be equal to the distance between a pair of straight sides 212a of the kidney-shaped hole, and the diameter of the cylindrical body is further smaller than the length of the straight sides 212a of the kidney-shaped hole.

It is known that after the position of the guide rail 21 is adjusted by the adjusting member 17, the position of the guide rail 21 relative to the frame 12 needs to be fixed, and for this purpose, the cutting tool 100 further includes: the positioning piece 18 and the guide rail 21 are correspondingly provided with positioning through holes 214.

The positioning member 18 is used to connect the guide rail 21 and the frame 12, and the positioning through hole 214 is penetrated by the positioning member 18. The positioning member 18 further includes a positioning portion 181 for fixing the position of the positioning through hole 214 relative to the frame 12 and a rod portion 182 extending through the positioning through hole 214, wherein the positioning portion 181 cannot pass through the positioning through hole 214 from one side to the other side. Specifically, the positioning member 18 may be a bolt, the positioning portion 181 may be a head portion of the bolt, the rod portion 182 may be a threaded rod of the bolt, and the positioning through hole 214 may be a kidney-shaped hole including a straight side extending in a direction perpendicular to the length direction of the guide rail 21. Thus, when the user rotates the adjusting member 17, the position of the adjusting through hole 212 and thus the position of the guide rail 21 can be changed because the position of the positioning through hole 214 is not fixed by the positioning member 18, and when the user needs to fix the position, the user only needs to screw the positioning member 18 to fix the position of the guide rail 21.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by adopting equivalent replacement or equivalent transformation fall within the protection scope of the present invention.

Claims (10)

1. A cutting tool, comprising:

a cutting head comprising a rotatable cutting member;

a frame for mounting the cutting head;

the worktable is used for placing an object to be cut;

a guide rail for slidably connecting the table to the frame;

the method is characterized in that:

the cutting tool further comprises:

an adjuster rotatably connected to the frame;

wherein,

the guide rail is provided with:

the adjusting through hole is penetrated by the adjusting piece;

the adjusting piece comprises a contact part which enables the position of the adjusting through hole relative to the rotating shaft of the adjusting piece to be changed through the contact with the hole wall of the adjusting through hole when the adjusting piece rotates.

2. The cutting tool of claim 1, wherein:

the size of the adjusting through hole along the length direction of the guide rail is larger than the maximum length of the contact part in a plane vertical to the rotating shaft of the adjusting piece.

3. The cutting tool of claim 2, wherein:

the adjusting through hole is a waist-shaped hole comprising a straight line edge extending along the length direction of the guide rail.

4. The cutting tool of claim 1, wherein:

in a plane perpendicular to the rotating shaft of the adjusting member, the contact portion includes a farthest portion having a first distance with the rotating shaft of the adjusting member and a closest portion having a second distance with the rotating shaft of the adjusting member, wherein the first distance is greater than the second distance.

5. The cutting tool of claim 1, wherein:

the adjusting member further includes:

the rotating part is at least partially embedded into the frame in a rotatable manner;

wherein the contact part is arranged at one end of the rotating part far away from the frame; the outer wall of rotation portion is equipped with the external screw thread, the contact site is the cylinder, the central axis of contact site with the pivot of rotation portion does not coincide.

6. The cutting tool of claim 1, wherein:

the cutting tool further comprises:

a positioning member connecting the guide rail and the frame;

the guide rail is provided with:

the positioning through hole is penetrated by the positioning piece;

the positioning piece comprises a positioning part which can fix the positioning through hole relative to the frame; the positioning through holes are waist-shaped holes which comprise straight lines extending along the length direction of the guide rail in a perpendicular mode.

7. The cutting tool of claim 1, wherein:

in a plane perpendicular to the length direction of the guide rail, the cross section of the guide rail comprises an L-shaped structure; wherein the adjusting through hole is formed at one side of the L-shaped structure of the guide rail, which is in contact with the frame.

8. The cutting tool of claim 1, wherein:

the guide rail is provided with at least two adjusting through holes, and corresponding adjusting pieces are arranged corresponding to the adjusting through holes.

9. The cutting tool of claim 1, wherein:

the cutting tool comprises two guide rails, each guide rail is provided with the adjusting through hole, and the adjusting piece corresponding to each adjusting through hole is arranged; and in the direction perpendicular to the length direction of the guide rails, the positions of the corresponding adjusting through holes on the two guide rails are aligned.

10. The cutting tool of any one of claims 1 to 9, wherein:

the cutting tool further comprises:

the water basin is used for storing water;

a holder supporting the cutting tool;

a support arm supporting the cutting head on the frame;

wherein, the cutting head also forms a rotary connection with the supporting arm by taking a first axis parallel to the workbench as an axis.