CN112792894B - Oscillation mechanism mounting structure and oscillation mechanism vertical mounting method - Google Patents

Abstract

The invention discloses an oscillating mechanism mounting structure and an oscillating mechanism vertical mounting method, and aims to solve the problem that in the prior art, the oscillating mechanism is not high in vertical mounting precision. The invention discloses an oscillating mechanism mounting structure which comprises a base, a supporting seat vertically and fixedly connected to the base, two linear sliding rails vertically and fixedly connected to the supporting seat, an oscillating mechanism arranged on the supporting seat and fixedly connected to sliding blocks of the linear sliding rails, and a first adjusting piece and a second adjusting piece used for adjusting the mounting accuracy of the linear sliding rails. The invention correspondingly discloses a vertical installation method of an oscillating mechanism, which comprises the following steps: installing the linear slide rail, installing the oscillating mechanism, installing a first adjusting piece, screwing a screw at the lower end of the linear slide rail, installing a second adjusting piece, screwing a screw at the upper end of the linear slide rail and screwing other screws on the linear slide rail. The oscillating mechanism adopting the mounting method of the invention has high vertical mounting precision and runs smoothly on the linear slide rail.

Description

Oscillation mechanism mounting structure and oscillation mechanism vertical mounting method

Technical Field

The invention relates to the technical field of an oscillating mechanism of cutting equipment, in particular to an oscillating mechanism mounting structure and an oscillating mechanism vertical mounting method.

Background

At present, an automatic cutting machine tool is used for cutting and cutting flexible sheets in various industries, the oscillation frequency of a cutting knife during high-speed cutting is up to 8000 times, and therefore the requirement on the installation precision of an oscillation mechanism is high.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an oscillating mechanism mounting structure and an oscillating mechanism vertical mounting method, which have the advantage of improving the vertical mounting precision of the oscillating mechanism.

In order to achieve the purpose, the invention provides the following technical scheme:

an oscillating mechanism mounting structure comprises a base and a supporting seat vertically and fixedly connected to the base, wherein two linear slide rails are vertically arranged on the supporting seat and fixedly connected with the supporting seat;

the adjusting device further comprises an adjusting component for adjusting the installation accuracy of the linear slide rail, the adjusting component comprises a first adjusting piece and a second adjusting piece, the first adjusting piece comprises a first adjusting cylinder, the height of the first adjusting cylinder is smaller than half of the length of the linear slide rail, a first positioning block is arranged at one axial end of the first adjusting cylinder, a positioning hole is formed in the base, the size of the first positioning block is the same as that of the positioning hole, a first inserting block is arranged at one end, away from the first positioning block, of the first adjusting cylinder, an inserting hole is formed in the oscillating mechanism, the size of the first inserting block is the same as that of the inserting hole, the second adjusting piece comprises a second adjusting cylinder, the height of the second adjusting cylinder is larger than that of the first adjusting cylinder, the height difference between the first adjusting cylinder and the second adjusting cylinder is larger than half of the linear slide rail, and a second positioning block is arranged at one axial end of the second adjusting cylinder, the size of the second positioning block is the same as that of the first positioning block, a second inserting block is arranged at one end, far away from the second positioning block, of the second adjusting column, and the size of the second inserting block is the same as that of the first inserting block.

By adopting the technical scheme, under the action of the first adjusting piece and the second adjusting piece, the precision of the vertical positions of the two linear slide rails can be improved, so that the smoothness of vertical movement and the precision of the vertical positions of the oscillating mechanism along the linear slide rails are improved.

The invention is further configured to: the side, close to the oscillating mechanism, of the supporting seat is provided with two positioning grooves for positioning the linear slide rail, the two positioning grooves are arranged in parallel, and the length of each positioning groove is the same as that of the linear slide rail.

Through adopting above-mentioned technical scheme, install linear slide rail in the constant head tank, can fix a position linear slide rail, conveniently install linear slide rail fast.

The invention is further configured to: and a stabilizing plate is arranged at one end, far away from the second splicing block, of the second adjusting cylinder body, the stabilizing plate is perpendicular to the central shaft of the second adjusting cylinder body, and the stabilizing plate is fixedly connected with the second adjusting cylinder body.

Through adopting above-mentioned technical scheme, firm board and base contact can increase the area of contact of second regulation cylinder and base to increase the stability that the cylinder was adjusted to the second.

Another object of the present invention is to provide a vertical mounting method of an oscillating mechanism, which has an advantage of improving the vertical mounting accuracy of the oscillating mechanism.

In order to realize the purpose, the invention provides the following technical scheme:

a vertical installation method of the oscillating mechanism applied to the oscillating mechanism comprises the following steps:

s1: the mounting linear slide rail is characterized in that the two linear slide rails are vertically arranged on the supporting seat, so that the linear slide rails are close to the supporting seat, the two linear slide rails are positioned by screws, when the two linear slide rails are positioned by the screws, the screws penetrate through the linear slide rails and are screwed into the supporting seat, the screws do not need to be screwed, and the screws do not protrude out of countersunk holes in the linear slide rails during screwing.

S2: and installing an oscillating mechanism, namely installing the oscillating mechanism on the sliding blocks of the linear sliding rails, and fixedly connecting the oscillating mechanism with the sliding blocks on the two linear sliding rails during installation, wherein the sliding blocks on the two linear sliding rails are at the same horizontal height.

S3: and installing a first adjusting piece, firstly sliding the oscillating mechanism upwards along the linear slide rail, then inserting the first positioning block into the positioning hole, and then sliding the oscillating mechanism downwards along the linear guide rail, so that the first inserting block is inserted into the inserting hole.

S4: and screwing down the screws at the lower ends of the two linear sliding rails after the first adjusting piece is installed, and taking down the first adjusting piece from the base after the screws at the lower ends of the two linear sliding rails are screwed down.

S5: and installing a second adjusting piece, inserting a second positioning block into the positioning hole, and sliding the oscillating mechanism downwards along the linear guide rail, so that the second inserting block is inserted into the inserting hole.

S6: and screwing the screws at the upper ends of the two linear sliding rails after the second adjusting piece is installed, and taking down the second adjusting piece from the base after the screws at the upper ends of the two linear sliding rails are screwed.

S7: and screwing other screws on the linear slide rail, slowly sliding the oscillating mechanism up and down along the linear slide rail, and sequentially screwing the screws on the two linear slide rails while slowly moving the oscillating mechanism.

By adopting the technical scheme, after the oscillating mechanism is installed on the sliding blocks of the two linear sliding rails, the position precision of the lower ends of the two linear sliding rails is adjusted through the first adjusting piece, the lower ends of the linear sliding rails are fixed through screws after the oscillating mechanism is adjusted, then the upper ends of the two linear sliding rails are adjusted through the second adjusting piece, the upper ends of the linear sliding rails are fixed through screws after the oscillating mechanism is adjusted, then other screws on the linear sliding rails are fixed in sequence, the vertical installation precision of the oscillating mechanism can be effectively improved, and the running smoothness of the mechanism is improved.

In conclusion, the beneficial technical effects of the invention are as follows:

1. through the setting of first regulating part and second regulating part, be convenient for improve linear slide rail upper and lower position precision to improve oscillating mechanism's perpendicular installation accuracy.

2. Through the setting of constant head tank, be convenient for fix a position the linear slide rail fast.

3. By adopting the vertical installation method, the position precision of the installed oscillating mechanism is higher, and the smoothness of the movement of the oscillating mechanism on the slide rail is higher.

Drawings

Fig. 1 is a first view of an overall structural schematic diagram of an oscillating mechanism mounting structure;

fig. 2 is a second view of the overall structural schematic of an oscillating mechanism mounting structure;

FIG. 3 is a schematic view of the first adjustment member;

fig. 4 is a schematic structural view of the second regulating member.

In the figure, 1, a base; 2. a supporting seat; 3. an oscillating mechanism; 4. a linear slide rail; 5. a first adjustment member; 51. a first adjustment cylinder; 52. a first positioning block; 53. a first plug-in block; 6. a second adjustment member; 61. a second adjustment cylinder; 62. a second positioning block; 63. a second insertion block; 64. a stabilizing plate; 7. and (6) positioning a groove.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example 1: referring to fig. 1 and 2, the mounting structure of the oscillation mechanism disclosed by the invention comprises a base 1, a supporting seat 2 vertically and fixedly connected to the base 1, and an adjusting assembly for adjusting the mounting accuracy of the linear slide rails 4, wherein the supporting seat 2 is vertically provided with two linear slide rails 4, the two linear slide rails 4 are fixedly connected with the supporting seat 2, the supporting seat 2 is provided with the oscillation mechanism 3, the oscillation mechanism 3 is mounted on a slide block of the linear slide rail 4, and the oscillation mechanism 3 is fixedly connected with the slide block of the linear slide rail 4.

Referring to fig. 1 and 2, in order to realize installing linear slide rail 4 in the backup pad fast, be equipped with two constant head tanks 7 that advance line location to linear slide rail 4 on the side of supporting seat 2 near oscillating mechanism 3, two constant head tanks 7 parallel arrangement, the length of two constant head tanks 7 is the same with linear slide rail 4's length, installs two linear slide rail 4 respectively in two constant head tanks 7, can advance line location and installation to linear slide rail 4 fast.

The adjusting component comprises a first adjusting part 5 and a second adjusting part 6, referring to fig. 3 and 4, the first adjusting part 5 comprises a first adjusting cylinder 51, the height of the first adjusting cylinder is less than half of the length of the linear slide rail 4, one axial end of the first adjusting cylinder 51 is provided with a first positioning block 52, the base 1 is provided with a positioning hole, the first positioning block 52 and the positioning hole have the same size, one end of the first adjusting cylinder, which is far away from the first positioning block 52, is provided with a first plugging block 53, the oscillating mechanism 3 is provided with a plugging hole, the first plugging block 53 and the plugging hole have the same size, the second adjusting part 6 comprises a second adjusting cylinder 61, the height of the second adjusting cylinder 61 is greater than the height of the first adjusting cylinder 51, the height difference between the first adjusting cylinder 51 and the second adjusting cylinder 61 is greater than half of the length of the linear slide rail 4, one axial end of the second adjusting cylinder 61 is provided with a second positioning block 62, the size of the second positioning block 62 is the same as the size of the first positioning block 52, the one end that second locating piece 62 was kept away from to the second regulation post is equipped with second plug block 63, the size of second plug block 63 is the same with the size of first plug block 53, the one end that second plug block 63 was kept away from to second regulation cylinder 61 is equipped with steadying plate 64, steadying plate 64 sets up with the center pin of second regulation cylinder 61 is perpendicular, steadying plate 64 and second regulation cylinder 61 fixed connection, steadying plate 64 can increase the area of contact of second regulation cylinder 61 and base 1, thereby increase the stability of second regulation cylinder 61.

Referring to fig. 1 and 2, the first positioning block 52 of the first adjusting member 5 is inserted into the positioning hole, and the first insertion block 53 is inserted into the insertion hole, so as to adjust the position accuracy of the lower end of the linear slide rail 4. The second positioning block 62 on the second adjusting member 6 is inserted into the positioning hole, and the second insertion block 63 is inserted into the insertion hole, so that the position accuracy of the upper end of the linear slide rail 4 is adjusted, the position accuracy of the linear slide rail 4 is improved, the vertical installation accuracy of the oscillating mechanism 3 is improved, and the smoothness of the oscillating mechanism 3 moving up and down along the linear slide rail 4 is improved.

Example 2: a vertical mounting method of an oscillating mechanism applied to the oscillating mechanism of embodiment 1, comprising the steps of:

s1: installing linear slide rail 4, at first with two vertical places of linear slide rail 4 on supporting seat 2 for linear slide rail 4 is pressed close to with supporting seat 2, then fixes a position two linear slide rail 4 with the screw, when fixing a position two linear slide rail 4 with the screw, the screw runs through linear slide rail and twists into supporting seat 2, and the screw need not be screwed up, and the screw does not bulge the counter sink on linear slide rail 4 during the twist can.

S2: installing the oscillating mechanism 3, installing the oscillating mechanism 3 on the sliding blocks of the linear sliding rails 4, and during installation, fixedly connecting the oscillating mechanism 3 with the sliding blocks on the two linear sliding rails 4, wherein the sliding blocks on the two linear sliding rails 4 are at the same horizontal height.

S3: the first adjusting part 5 is installed, the oscillating mechanism 3 slides upwards along the linear slide rail 4, then the first positioning block 52 is inserted into the positioning hole, and the oscillating mechanism 3 slides downwards along the linear guide rail, so that the first inserting block 53 is inserted into the inserting hole.

S4: and screwing the screws at the lower ends of the two linear sliding rails 4, after the first adjusting piece 5 is installed, screwing the screws at the lower ends of the two linear sliding rails 4, and taking down the first adjusting piece 5 from the base 1 after the screws are screwed.

S5: and mounting the second adjusting piece 6, inserting the second positioning block 62 into the positioning hole, and sliding the oscillating mechanism 3 downwards along the linear guide rail, so that the second inserting block 63 is inserted into the inserting hole.

S6: and screwing the screws at the upper ends of the two linear sliding rails 4, after the second adjusting piece 6 is installed, screwing the screws at the upper ends of the two linear sliding rails 4, and taking down the second adjusting piece 6 from the base 1 after the screws are screwed.

S7: and tightening other screws on the linear slide rail 4, slowly sliding the oscillating mechanism 3 up and down along the linear slide rail 4, slowly moving the oscillating mechanism 3, and simultaneously sequentially tightening the screws on the two linear slide rails 4.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (4)

1. An oscillating mechanism mounting structure characterized in that: the vibration mechanism comprises a base (1) and a supporting seat (2) vertically and fixedly connected to the base (1), wherein two linear sliding rails (4) are vertically arranged on the supporting seat (2), the two linear sliding rails (4) are fixedly connected with the supporting seat (2), an oscillation mechanism (3) is arranged on the supporting seat (2), the oscillation mechanism (3) is installed on a sliding block of each linear sliding rail (4), and the oscillation mechanism (3) is fixedly connected with the sliding block of each linear sliding rail (4);

the adjusting device is characterized by further comprising an adjusting component for adjusting the installation accuracy of the linear sliding rail (4), the adjusting component comprises a first adjusting part (5) and a second adjusting part (6), the first adjusting part (5) comprises a first adjusting cylinder (51), the height of the first adjusting cylinder is smaller than half of the length of the linear sliding rail (4), a first positioning block (52) is arranged at one axial end of the first adjusting cylinder (51), a positioning hole is formed in the base (1), the first positioning block (52) is the same as the positioning hole in size, a first inserting block (53) is arranged at one end, away from the first positioning block (52), of the first adjusting cylinder, an inserting hole is formed in the oscillating mechanism (3), the first inserting block (53) is the same as the inserting hole in size, the second adjusting part (6) comprises a second adjusting cylinder (61), the height of the second adjusting cylinder (61) is larger than the height of the first adjusting cylinder (51), the height difference of the first adjusting cylinder (51) and the second adjusting cylinder (61) is larger than a half of the linear sliding rail (4), a second positioning block (62) is arranged at one axial end of the second adjusting cylinder (61), the size of the second positioning block (62) is the same as that of the first positioning block (52), a second inserting block (63) is arranged at one end, far away from the second positioning block (62), of the second adjusting cylinder, and the size of the second inserting block (63) is the same as that of the first inserting block (53).

2. An oscillating mechanism mounting structure according to claim 1, wherein: the side face, close to the oscillating mechanism (3), of the supporting seat (2) is provided with two positioning grooves (7) for positioning the linear sliding rail (4), the two positioning grooves (7) are arranged in parallel, and the length of each positioning groove (7) is the same as that of the linear sliding rail (4).

3. An oscillating mechanism mounting structure according to claim 1, wherein: one end, far away from the second plug-in block (63), of the second adjusting column body (61) is provided with a stabilizing plate (64), the stabilizing plate (64) is perpendicular to a central shaft of the second adjusting column body (61), and the stabilizing plate (64) is fixedly connected with the second adjusting column body (61).

4. A vertical mounting method of an oscillating mechanism applied to the oscillating mechanism according to claim 1, characterized in that: the method comprises the following steps:

s1: installing linear slide rails (4), vertically placing two linear slide rails (4) on a supporting seat (2) to enable the linear slide rails (4) to be close to the supporting seat (2), then positioning the two linear slide rails (4) by using screws, wherein when the two linear slide rails (4) are positioned by using the screws, the screws penetrate through the linear slide rails and are screwed into the supporting seat (2), the screws do not need to be screwed, and the screws do not protrude out of countersunk holes in the linear slide rails (4) during screwing;

s2: installing an oscillating mechanism (3), installing the oscillating mechanism (3) on the sliding blocks of the linear sliding rails (4), and fixedly connecting the oscillating mechanism (3) with the sliding blocks on the two linear sliding rails (4) when the oscillating mechanism is installed, wherein the sliding blocks on the two linear sliding rails (4) are at the same horizontal height;

s3: installing a first adjusting piece (5), firstly sliding the oscillating mechanism (3) upwards along the linear slide rail (4), then inserting the first positioning block (52) into the positioning hole, and then sliding the oscillating mechanism (3) downwards along the linear guide rail, so that the first inserting block (53) is inserted into the inserting hole;

s4: screwing down screws at the lower ends of the linear sliding rails (4), screwing down the screws at the lower ends of the two linear sliding rails (4) after the first adjusting piece (5) is installed, and taking down the first adjusting piece (5) from the base (1) after the screws are completely screwed down;

s5: installing a second adjusting piece (6), inserting a second positioning block (62) into the positioning hole, and sliding the oscillating mechanism (3) downwards along the linear guide rail so that a second inserting block (63) is inserted into the inserting hole;

s6: screwing down screws at the upper ends of the linear sliding rails (4), screwing down the screws at the upper ends of the two linear sliding rails (4) after the second adjusting piece (6) is installed, and taking down the second adjusting piece (6) from the base (1) after the screws are screwed down;

s7: other screws on the linear sliding rail (4) are screwed, the oscillating mechanism (3) slowly slides up and down along the linear sliding rail (4), and the screws on the two linear sliding rails (4) are sequentially screwed while the oscillating mechanism (3) is slowly moved.

Images