CN210029556U - Integrated sliding table base for winding machine - Google Patents

Abstract

The utility model discloses an integral type slip table base for coiling machine, this base wholly are frame shape structure, and the horizontal position of frame shape structure is provided with the shaft hole that holds coiling machine horizontal movement mechanism, for example the shaft hole of the lead screw of X axle, and the vertical position of frame shape structure is provided with the shaft hole that holds coiling machine vertical movement mechanism, for example the shaft hole of the lead screw of Z axle. The utility model discloses in, this base is whole to be frame construction, and sets up the shaft hole that holds coiling machine horizontal movement mechanism and hold the perpendicular motion of coiling machine respectively in this frame shape structure, and simple structure can simplify manufacturing process in making, and because the base volume that simple structure made to produce can not be very big, can reduce the space that the base application took when mechanical equipment. In addition, the base is integrally formed, so that the problems caused by manual assembly are reduced, the installation is simple, and the assembly time of assembling with an external mechanism is shortened.

Description

Integrated sliding table base for winding machine

Technical Field

The utility model relates to a coiling machine technical field, in particular to a slip table base that is used for motion of coiling machine.

Background

In mechanical equipment, such as a winding machine, in order to realize the movement in two spaces of the transverse direction and the longitudinal direction, a structure with the transverse movement and the longitudinal movement must be assembled, and the structure is usually assembled by assembling a plurality of parts at present. However, the structure mounted by the method is complex, the mounting is complex, the precision is low, and the fatigue resistance is poor.

Patent CN201520179114.7 discloses a full-automatic optic fibre coiling machine moving base, including from the top down setting gradually pay off reel placement mechanism, be used for moving the z axle moving base of pay off reel up and down, be used for the y axle moving base of back-and-forth movement pay off reel and be used for moving the x axle moving base of pay off reel about. The z-axis moving base comprises a z-axis motor, a z-axis lead screw, a z-axis guide rail and a lifting base plate. The y-axis moving base comprises a y-axis motor, a y-axis lead screw, a y-axis guide rail and a front-back moving base plate. The x-axis moving base comprises an x-axis motor, an x-axis lead screw, an x-axis guide rail and a left-right moving base plate. The moving base in this patent can place the drawing drum on the carousel of the main shaft of optic fibre coiling machine or vice main shaft automatically to can take off the drawing drum from the carousel of the main shaft of optic fibre coiling machine or vice main shaft, this not only improved optic fibre coiling machine's wire winding speed and work efficiency greatly, still eliminated the potential safety hazard. However, the moving base of the full-automatic optical fiber winding machine in the patent is complex in structure, and is installed in a mode of assembling a plurality of parts, so that the installation is complex.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model aims to provide an integral type slip table base for coiling machine that simple structure, installation are simple.

Another object of the present invention is to provide an integrated sliding table base for a winding machine, which adopts an integrated structure, thereby reducing the problems caused by manual assembly, improving the precision of the moving mechanism when applied to the moving mechanism, and shortening the assembly time; in addition, the structure of the base enhances the fatigue resistance and reduces the installation space.

In order to achieve the above object, the technical solution of the present invention is as follows.

The utility model provides an integral type slip table base for coiling machine, this base of its characterized in that is whole to be frame shape structure, the horizontal position of frame shape structure is provided with the shaft hole that holds coiling machine horizontal movement mechanism (for example the lead screw of X axle), the vertical position of frame shape structure is provided with the shaft hole that holds coiling machine vertical movement mechanism (for example the lead screw of Z axle). The utility model discloses in, this base is whole to be frame construction, and sets up the shaft hole that holds coiling machine horizontal movement mechanism and hold the perpendicular motion of coiling machine respectively in this frame shape structure, and simple structure can simplify manufacturing process in making, and because the base volume that simple structure made to produce can not be very big, can reduce the space that the base application took when mechanical equipment. In addition, the base is integrally formed, so that the problems caused by manual assembly are reduced, the installation is simple, and the assembly time of assembling with an external mechanism is shortened. In practice, the base may be provided with a plurality of screw holes for easy assembly with external mechanisms.

The shaft hole at the horizontal position of the frame-shaped structure is an X-axis shaft hole and is arranged at the upper part of the base; the shaft hole at the vertical position of the frame-shaped structure is a Z-axis shaft hole which is arranged at the lower part of the base. The X-axis shaft hole and the Z-axis shaft hole are respectively positioned at the upper part and the lower part of the base, and the installation is simple.

The horizontal movement mechanism of the winding machine comprises an X-axis lead screw, and an X-axis shaft hole is used for mounting the X-axis lead screw; the vertical movement mechanism of the winding machine comprises a Y-axis lead screw, and a Z-axis shaft hole is used for installing the Y-axis lead screw.

Specifically, the base comprises a first mounting part, a second mounting part and a connecting part which are integrally formed; the first mounting part and the second mounting part are parallel, and the upper parts of the first mounting part and the second mounting part are connected by the connecting part and enclose a first through hole; the X axle hole is at least 1, and is located the upper portion of first installation department or the upper portion of second installation department, and with first through-hole switches on.

In practice, the number of the X-axis holes may be 2, and the X-axis holes are respectively located at the upper part of the first mounting portion and the upper part of the second mounting portion and are communicated with the first through hole; the 2X-axis shaft holes are positioned on the same central axis. In addition, first through-hole can design and be squarely, makes X axle lead screw have sufficient installation space, also can be easy to assemble X axle lead screw, and X axle lead screw can be ball.

Specifically, the first mounting part and the second mounting part are both provided with first transverse shaft holes for allowing external transverse shafts to pass through, and the first transverse shaft holes are positioned on two sides of the X-axis shaft hole; a second transverse shaft hole which is stacked with the first transverse shaft hole and is used for allowing an external transverse shaft to pass through is formed in the connecting part, and the first transverse shaft hole and the second transverse shaft hole are communicated and are positioned on the same horizontal central axis; the central axis of the first transverse shaft hole and the central axis of the second transverse shaft hole are parallel to the central axis of the X-axis shaft hole. First horizontal shaft hole with seting up in second horizontal shaft hole does benefit to the installation outside horizontal axle, makes after the installation X axle screw, base upper portion keep balance, strengthens the stable in structure performance of whole base.

Specifically, the middle parts of the first mounting part and the second mounting part are respectively provided with a first lightening hole and a second lightening hole; the bottoms of the first lightening holes and the second lightening holes are level; and the bottoms of the first lightening hole and the second lightening hole extend inwards to form a third mounting part which is integrally formed and used for mounting an external vertical movement motor, a motor mounting hole used for mounting the external vertical movement motor is formed in the third mounting part, and the motor mounting hole is positioned above the Z-axis shaft hole and is positioned on the same central axis with the Z-axis shaft hole. The first lightening holes and the second lightening holes can lighten the weight of the base, the base is convenient to assemble with other external mechanisms, the weight of the base is lightened, the force required for pushing the base is reduced, and power is saved. In addition, the Z-axis hole and the motor mounting hole are positioned on the same central axis, so that the mounting operation can be simplified when an external vertical motion motor and a Y-axis screw are conveniently mounted. The Z-axis lead screw may also be a ball screw.

Specifically, the lower parts of the first installation part and the second installation part respectively extend inwards to form a fourth installation part which is used for installing an external winding machine vertical movement mechanism and is parallel to the third installation part, and the Z-axis shaft hole is located in the middle of the fourth installation part. The Z-axis shaft hole is positioned in the center of the fourth mounting part, so that when the Y-axis lead screw is mounted, the base keeps balance and stability, and meanwhile, the precision of the moving mechanism of the winding machine is improved.

Specifically, a first longitudinal shaft hole and a second longitudinal shaft hole which are used for allowing the external longitudinal shaft to vertically penetrate through are respectively formed in two sides of the first through hole and are parallel to each other. In practice, the X-axis hole is designed to be located at the center of the horizontal connecting line of the first longitudinal axis hole and the second longitudinal axis hole, and the X-axis hole is perpendicular to the first longitudinal axis hole and the second longitudinal axis hole respectively but not located in the same plane.

In a specific implementation, it is possible to design: the distance between the first transverse shaft hole and the X-axis shaft hole is larger than the distance between the first longitudinal shaft hole and the X-axis shaft hole, and the distance between the second longitudinal shaft hole and the X-axis shaft hole enables the X-axis lead screw to be installed in the X-axis shaft hole in a stable horizontal motion mode.

Specifically, the bottom sides of the first lightening hole and the second lightening hole are respectively provided with a third longitudinal shaft hole and a fourth longitudinal shaft hole for allowing an external longitudinal shaft to pass through, and the third longitudinal shaft hole and the fourth longitudinal shaft hole are respectively laminated with the first longitudinal shaft hole and the second longitudinal shaft hole; the external longitudinal shaft penetrates through the first longitudinal shaft hole and the third longitudinal shaft hole in sequence, and penetrates through the second longitudinal shaft hole and the fourth longitudinal shaft hole in sequence. The first longitudinal shaft hole, the second longitudinal shaft hole, the third longitudinal shaft hole and the fourth longitudinal shaft hole are convenient for installing an external longitudinal shaft, so that the external longitudinal shaft provides support for the base, and the external longitudinal shaft is parallel to the Z-axis lead screw; in addition, the fatigue resistance of the base is also enhanced.

Specifically, the first longitudinal shaft hole, the second longitudinal shaft hole, the third longitudinal shaft hole, the fourth longitudinal shaft hole and the first transverse shaft hole are all provided with adaptive bearing seat holes. The bearing seat hole is convenient for install external bearing, makes external bearing play the effect of supporting protection outside horizontal axis and outside longitudinal axis, and then keeps this base when X axle lead screw or Z axle lead screw carry out horizontal or vertical motion, keeps stable, improves motion's precision simultaneously.

Specifically, an upper lightening hole and a lower lightening hole are formed above and below the first lightening hole and the second lightening hole, the lower lightening hole is located above the fourth mounting portion, and the upper lightening hole is located below the X-axis hole; the first mounting portion and the second mounting portion are identical in shape and configuration. The upper lightening holes and the lower lightening holes are also used for lightening the weight of the base; the first installation part and the second installation part are the same in shape and structure, so that the manufacturing process is simplified, and the overall structure of the base is simple.

In practice, upper and lower lightening holes may not be provided.

Compared with the prior art, the utility model, simple structure, because the base volume that simple structure made manufacturing can not be very big, can reduce the space that the base application took when mechanical equipment. In addition, the base is integrally formed, so that the problems caused by manual assembly are reduced, the installation is simple, and the assembly time of assembling with an external mechanism is shortened.

The base adopts an integrally formed structural form, the precision of the motion mechanism can be improved when the base is applied to the motion mechanism, and the fatigue resistance is enhanced by the structure of the base.

Drawings

Fig. 1 is a schematic structural view of an integrated sliding table base implemented by the present invention.

Fig. 2 is a schematic structural view of an integrated sliding table base implemented by the present invention at another angle.

FIG. 3 is a schematic view of an assembly structure of the integrated sliding table base and the external components

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In order to achieve the above object, the technical solution of the present invention is as follows.

Referring to fig. 1 to 3, the base 1 of the integrated sliding table for a winding machine is a frame-shaped structure, wherein an X-axis shaft hole 11 for accommodating a horizontal movement mechanism (not shown) of the winding machine (such as a lead screw of an X-axis) is arranged at a horizontal position of the frame-shaped structure, and a Z-axis shaft hole 12 for accommodating a vertical movement mechanism (not shown) of the winding machine (such as a lead screw of a Z-axis) is arranged at a vertical position of the frame-shaped structure. The utility model discloses in, this base 1 wholly is frame construction, and sets up the shaft hole that holds coiling machine horizontal movement mechanism and hold the perpendicular motion of coiling machine mechanism respectively in this frame shape structure, and simple structure can simplify manufacturing process in making, and because 1 volumes of base that simple structure made manufacture can not be very big, can reduce the space that base 1 application took when mechanical equipment. In addition, the base 1 is integrally formed, so that the problems caused by manual assembly are reduced, the installation is simple, and the assembly time of assembling with an external mechanism is shortened. In practice, the base may be provided with a plurality of screw holes (not shown) for facilitating assembly with external mechanisms.

In the present embodiment, an X-axis shaft hole 11 of a frame-shaped structure, which is horizontally disposed at an upper portion of the base 1; a vertically positioned Z-axis hole 12 of the frame-shaped structure, which is provided in the lower part of the base 1. The X-axis shaft hole 11 and the Z-axis shaft hole 12 are respectively positioned at the upper part and the lower part of the base 1, and the installation is simple.

The horizontal movement mechanism of the winding machine comprises an X-axis lead screw 2, and an X-axis shaft hole 11 is used for mounting the X-axis lead screw 2; the vertical movement mechanism of the winding machine comprises a Z-axis lead screw 3, and a Z-axis shaft hole 12 is used for installing the Z-axis lead screw 3.

In the present embodiment, the base 1 includes a first mounting portion 13, a second mounting portion 14, and a connecting portion 15 that are integrally formed; the first mounting part 13 and the second mounting part 14 are parallel, and the upper parts of the first mounting part and the second mounting part are connected by a connecting part 15 and enclose a first through hole 16; the X-axis shaft holes 11 are at least 1, are positioned on the upper part of the first mounting part 13 or the upper part of the second mounting part 14, and are communicated with the first through holes 16.

In practice, the number of the X-axis holes 11 may be 2, and the X-axis holes are respectively located at the upper part of the first mounting portion 13 and the upper part of the second mounting portion 14 and are communicated with the first through hole 16; the 2X-axis shaft holes 11 are on the same central axis. In addition, the first through hole 16 can be designed to be square, so that the X-axis lead screw 2 has enough installation space, the X-axis lead screw 2 can be conveniently installed, and the X-axis lead screw 2 can be a ball screw.

In this embodiment, the first mounting portion 13 and the second mounting portion 14 are further provided with first horizontal shaft holes 131 for the external horizontal shaft 4 to pass through, and the first horizontal shaft holes 131 are located at two sides of the X-axis shaft hole 11; a second transverse shaft hole (not shown) which is laminated with the first transverse shaft hole 131 and allows the external transverse shaft 4 to pass through is formed in the connecting part 15, and the first transverse shaft hole 131 and the second transverse shaft hole are communicated and are positioned on the same horizontal central axis; the central axes of the first transverse shaft hole 131 and the second transverse shaft hole are parallel to the central axis of the X-axis shaft hole 11. The first transverse shaft hole 131 and the second transverse shaft hole are formed to be beneficial to installation of the external transverse shaft 4, so that after the X-axis lead screw 2 is installed, the upper part of the base 1 is kept balanced, and the structural stability of the whole base 1 is enhanced.

In the present embodiment, the first and second mounting portions 13 and 14 are respectively provided with a first lightening hole 132 and a second lightening hole 141 in the middle; the bottoms of the first lightening holes 132 and the second lightening holes 141 are level; the bottom parts of the first lightening hole 132 and the second lightening hole 141 extend inwards to form a third mounting part 17 which is integrally formed and used for mounting the external vertical movement motor 5, a motor mounting hole 171 used for mounting the external vertical movement motor is formed in the third mounting part 17, and the motor mounting hole 171 is located above the Z-axis shaft hole 12 and is located on the same central axis with the Z-axis shaft hole 12. The first lightening holes 132 and the second lightening holes 141 can lighten the weight of the base 1, so that the base 1 can be conveniently assembled with other external mechanisms, the weight of the base 1 is lightened, the force required for pushing the base 1 is reduced, and power is saved. In addition, the Z-axis hole 12 and the motor mounting hole 171 are located on the same central axis, so that the mounting operation can be simplified when the external vertical movement motor 5 and the Z-axis screw 3 are mounted. The Z-axis screw 3 may be a ball screw.

In this embodiment, the lower portions of the first mounting portion 13 and the second mounting portion 14 are respectively extended inward to form integrally formed fourth mounting portions 18 for mounting the vertical movement mechanism of the external winding machine and parallel to the third mounting portion 17, and the Z-axis hole 12 is located in the middle of the fourth mounting portions 17. The Z-axis hole 12 is located at the center of the fourth mounting portion 17, so that when the Z-axis lead screw 3 is mounted, the base 1 keeps balance and stability, and the precision of the moving mechanism of the winding machine is improved.

In this embodiment, the first through hole 16 has a first longitudinal axis hole 161 and a second longitudinal axis hole 162 formed on two sides thereof for allowing the external longitudinal axis 6 to vertically pass through, and the two holes are parallel to each other. In practice, the X-axis hole 11 is designed to be located at the center of the horizontal connecting line of the first vertical-axis hole 161 and the second vertical-axis hole 162, and the X-axis hole 11 is perpendicular to the first vertical-axis hole 161 and the second vertical-axis hole 162, but not located in the same plane.

In a specific implementation, it is possible to design: the distance between the first transverse shaft hole 131 and the X-axis shaft hole 11 is larger than the distance between the first longitudinal shaft hole 161 and the X-axis shaft hole 11 and the distance between the second longitudinal shaft hole 162 and the X-axis shaft hole 11, so that the horizontal motion of the X-axis lead screw 2 installed in the X-axis shaft hole 11 is smooth.

In the present embodiment, the bottom sides of the first lightening hole 132 and the second lightening hole 141 are respectively provided with a third longitudinal axis hole 1321 and a fourth longitudinal axis hole 1411 for the external longitudinal axis 6 to pass through, and the third longitudinal axis hole 1321 and the fourth longitudinal axis hole 1411 are respectively stacked with the first longitudinal axis hole 161 and the second longitudinal axis hole 162; the outer longitudinal shaft 6 extends through the first longitudinal shaft hole 161 and the third longitudinal shaft hole 1321 in this order, and through the second longitudinal shaft hole 162 and the fourth longitudinal shaft hole 1411 in this order. The first, second, third and fourth longitudinal shaft holes 161, 162, 1321 and 1411 facilitate mounting of the outer longitudinal shaft 6 such that the outer longitudinal shaft 6 provides support for the base 1, the outer longitudinal shaft 6 being parallel to the Z-axis screw 3; in addition, the fatigue resistance of the base 1 is also enhanced.

In this embodiment, the first longitudinal shaft hole 161, the second longitudinal shaft hole 162, the third longitudinal shaft hole 1321, the fourth longitudinal shaft hole 1411 and the first transverse shaft hole 131 are all provided with adaptive bearing seat holes 19. The bearing seat hole 19 is convenient for installing the external bearing 7, so that the external bearing 7 plays a role in supporting and protecting the external transverse shaft 4 and the external longitudinal shaft 6, and further the base 1 is kept stable when the X-axis lead screw 2 or the Z-axis lead screw 3 moves horizontally or vertically, and meanwhile, the precision of a movement mechanism is improved.

In the present embodiment, the upper lightening holes 133 and the lower lightening holes 134 are formed above and below the first lightening holes 132 and the second lightening holes 141, the lower lightening holes 134 are located above the fourth mounting portion 18, and the upper lightening holes 133 are located below the X-axis hole 11; the first mounting portion 13 and the second mounting portion 14 are identical in shape and configuration. The upper lightening holes 133 and the lower lightening holes 134 are also used for lightening the weight of the base 1; the first mounting portion 13 and the second mounting portion 14 have the same shape and structure, which is beneficial to simplifying the manufacturing process and simplifying the overall structure of the base 1.

In practice, the upper lightening holes 133 and the lower lightening holes 134 may not be provided.

Compared with the prior art, the utility model, simple structure, because the base volume that simple structure made manufacturing can not be very big, can reduce the space that the base application took when mechanical equipment. In addition, the base is integrally formed, so that the problems caused by manual assembly are reduced, the installation is simple, and the assembly time of assembling with an external mechanism is shortened.

The base adopts an integrally formed structural form, the precision of the motion mechanism can be improved when the base is applied to the motion mechanism, and the fatigue resistance is enhanced by the structure of the base.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides an integral type slip table base for coiling machine which characterized in that, this base is whole to be frame-shaped structure, the horizontal position of frame-shaped structure is provided with the shaft hole that holds coiling machine horizontal movement mechanism, the vertical position of frame-shaped structure is provided with the shaft hole that holds coiling machine vertical movement mechanism.

2. The integrated slide base for a winding machine according to claim 1, wherein the shaft hole of the frame-shaped structure in the horizontal position is an X-axis shaft hole provided in an upper portion of the base; the shaft hole at the vertical position of the frame-shaped structure is a Z-axis shaft hole which is arranged at the lower part of the base.

3. The integrated slide base for a winding machine according to claim 2, wherein the base includes a first mounting portion, a second mounting portion, and a connecting portion; the first mounting part and the second mounting part are parallel, and the upper parts of the first mounting part and the second mounting part are connected by the connecting part and enclose a first through hole; the X-axis shaft hole is at least 1 and is located on the upper portion of the first installation portion or the upper portion of the second installation portion, and is communicated with the first through hole.

4. The integrated sliding table base for the winding machine according to claim 3, wherein the first mounting portion and the second mounting portion are further provided with first transverse shaft holes for allowing external transverse shafts to pass through, and the first transverse shaft holes are located on two sides of the X-axis shaft hole; a second transverse shaft hole which is stacked with the first transverse shaft hole and is used for allowing an external transverse shaft to pass through is formed in the connecting part, and the first transverse shaft hole and the second transverse shaft hole are communicated and are positioned on the same horizontal central axis; the central axis of the first transverse shaft hole and the central axis of the second transverse shaft hole are parallel to the central axis of the X-axis shaft hole.

5. The integrated sliding table base for the winding machine according to claim 4, wherein the first mounting portion and the second mounting portion are respectively provided with a first lightening hole and a second lightening hole in the middle; the bottoms of the first lightening holes and the second lightening holes are level; and the bottom parts of the first lightening hole and the second lightening hole extend inwards to form a third mounting part which is integrally formed and used for mounting an external longitudinal movement motor, a motor mounting hole used for mounting the external longitudinal movement motor is formed in the third mounting part, and the motor mounting hole is positioned above the Z-axis shaft hole and is positioned on the same central axis with the Z-axis shaft hole.

6. The integrated sliding table base for the winding machine according to claim 5, wherein the lower parts of the first mounting part and the second mounting part respectively extend inwards to form an integrally formed fourth mounting part which is used for mounting a vertical movement mechanism of an external winding machine and is parallel to the third mounting part, and the Z-axis hole is located in the middle of the fourth mounting part.

7. The integrated sliding table base for the winding machine according to claim 5, wherein a first longitudinal shaft hole and a second longitudinal shaft hole for allowing the external longitudinal shaft to vertically pass through are respectively formed on both sides of the first through hole and are parallel to each other.

8. The integrated sliding table base for the winding machine according to claim 7, wherein a third longitudinal shaft hole and a fourth longitudinal shaft hole through which an external longitudinal shaft passes are formed in bottom sides of the first lightening hole and the second lightening hole respectively, and the third longitudinal shaft hole and the fourth longitudinal shaft hole are stacked with the first longitudinal shaft hole and the second longitudinal shaft hole respectively; the external longitudinal shaft penetrates through the first longitudinal shaft hole and the third longitudinal shaft hole in sequence, and penetrates through the second longitudinal shaft hole and the fourth longitudinal shaft hole in sequence.

9. The integrated sliding table base for the winding machine according to claim 8, wherein bearing seat holes matched with the first longitudinal shaft hole, the second longitudinal shaft hole, the third longitudinal shaft hole, the fourth longitudinal shaft hole and the first transverse shaft hole are formed in the periphery of the first longitudinal shaft hole, the second longitudinal shaft hole, the third longitudinal shaft hole, the fourth longitudinal shaft hole and the first transverse shaft hole.

10. The integrated sliding table base for the winding machine according to claim 6, wherein upper lightening holes and lower lightening holes are formed above and below the first lightening hole and the second lightening hole, the lower lightening holes are located above the fourth mounting portion, and the upper lightening holes are located below the X-axis hole; the first mounting portion and the second mounting portion are identical in shape and configuration.

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