CN111156300A

CN111156300A - Novel screw-nut pair

Info

Publication number: CN111156300A
Application number: CN202010013669.XA
Authority: CN
Inventors: 吴传利; 何家兵; 黄新林
Original assignee: Lishui Yingte Bearing Co Ltd
Current assignee: Lishui Yingte Bearing Co Ltd
Priority date: 2020-01-07
Filing date: 2020-01-07
Publication date: 2020-05-15
Also published as: WO2021139460A1

Abstract

The invention discloses a novel screw rod nut pair which comprises a guide rail and round holes, wherein the round holes are formed in the upper part and the lower part of the front end surface of the guide rail, and the guide rail comprises a power device. The output shaft through the motor drives the pivot and rotates, drive first helical gear through the pivot and rotate, first helical gear drives the second helical gear and rotates, it rotates to make the second helical gear drive the threaded rod, it rotates to make the threaded rod drive the nut seat through the ball, the nut seat drives the slider and rotates, nut seat drives the gasket and carries out synchronous rotation simultaneously, the problem that the long-time operation of prior art independent screw-nut can produce the clearance has been solved, it removes to drive the stock through the handle, it removes to make the stock drive first connecting rod and second connecting rod, it removes to drive the spill pole through first connecting rod, fix the spill pole through the second screw simultaneously, it is too single problem to have solved prior art to fix the nut.

Description

Novel screw-nut pair

Technical Field

The invention relates to the technical field of feed screw nuts, in particular to a novel feed screw nut pair.

Background

The screw-nut transmission is widely applied to mechanical equipment such as a plurality of machine tools, and because the processing error of the screw rod and the nut and the abrasion after long-term operation can cause the matching of the screw rod and the nut to generate a gap, the gap can be gradually increased along with the use, not only the stability of the feeding motion is directly influenced, but also the machine tool and the props can be damaged, so that the friction force is reduced, and a novel screw-nut pair is provided, which is very important, for example, a numerical control machine tool screw nut with the patent number of CN 108167410A, so that any auxiliary device is not required to be added, the size of the nut is not increased, the structure is simple, safe and reliable, the service life of the screw rod and the nut can be prolonged, although the screw-nut can be moved by the prior art, the screw rod and the nut are fixed only by fixing a screw hole, because only one screw-nut operates, meanwhile, the method for fixing the screw rod nut in the prior art is too single, and a good effect cannot be achieved.

Disclosure of Invention

The invention aims to provide a novel screw-nut pair, which aims to solve the problems that although the prior art can realize the movement of a screw-nut, the screw and the nut are fixed only by a fixing screw hole, a gap is generated even after a long time because only one screw-nut operates independently, and meanwhile, the method for fixing the screw-nut in the prior art is too single to achieve a good effect.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a novel screw-nut is vice, includes guide rail and round hole, the round hole has all been seted up from top to bottom to the preceding terminal surface of guide rail, the guide rail includes power device. The friction force to the sliding block can be reduced through the round hole.

The power device comprises a first square block, a motor, a rotating shaft, a first bearing and a first helical gear.

The lower surface of the first square block is fixedly connected with the left side of the upper surface of the guide rail, a motor is fixedly connected to the inner portion of the first square block, a rotating shaft is fixedly connected to an output shaft of the motor, the rotating shaft is rotatably connected with the guide rail through a first bearing, and a first helical gear is fixedly connected to the lower portion of the first rotating shaft. The motor drives the threaded rod to rotate, so that the sliding block can always run in the best state.

Preferably, the output shaft of the motor is consistent with the axis position of the rotating shaft. This makes the rotation of the rotary shaft more stable.

Preferably, a moving device is installed in the middle of the front end surface of the guide rail.

The moving device comprises a vertical plate, a threaded rod, a second bearing, a second bevel gear, a nut seat, a ball, a sliding block, a first screw and a gasket.

The rear end face of the vertical plate is fixedly connected with the left side of the front end face of the guide rail, a threaded rod is mounted inside the vertical plate, the left outer wall of the threaded rod is connected with the vertical plate through a second bearing in a rotating mode, a second helical gear is fixedly connected to the left side of the threaded rod and is meshed with the first helical gear, a plurality of nut seats are mounted on the middle outer wall of the threaded rod, semicircular grooves are formed in the left nut seat and the right nut seat, balls are mounted in the semicircular grooves in the left nut seat and the right nut seat, the left nut seat and the right nut seat are in threaded fit with the threaded rod through the balls, a sliding block is fixedly connected to the rear end face of the left nut seat and the right nut seat, the left nut seat and the right nut seat are in threaded connection with the sliding block through first screws, grooves are formed in the upper portion and the lower portion, the gasket is in clearance fit with the threaded rod. This reduces the play between the threaded rod and the nut seat during operation.

Preferably, the meshing ratio of the second bevel gear to the first bevel gear is 1: 1. thus, the rotating shaft and the threaded rod can rotate synchronously.

Preferably, the gasket and the nut seat are parallel to each other. This prevents the gap between the left and right nut holders from becoming excessively large.

Preferably, a fastening device is installed above the guide rail.

The fastening device comprises an arc-shaped plate, a second square block, a concave rod, a second screw, a first connecting rod, a pin shaft, a long rod, a second connecting rod and a handle.

The arc plate is positioned above the guide rail, the left side and the right side of the upper surface of the arc plate are fixedly connected with second square blocks, the inner wall of the left side and the right side of the second square blocks are provided with through holes, concave rods are arranged at the through holes of the left side and the right side of the second square blocks, the outer wall of the upper part of the left side and the right side of each concave rod is in clearance fit with the through holes of the second square blocks, the lower surfaces of the left side and the right side of each concave rod are fixedly connected with the upper surface of a nut seat, second screws are arranged between the left side and the right side of the concave rods, the outer wall of each second screw is in threaded fit with the through grooves of the concave rods, first connecting rods are arranged on the inner sides above the front end surfaces of the left side and the right side of the concave rods, the left side and the right side of each first connecting rod are movably connected with the concave rods through, the inner side of the front end face of the left and right second connecting rods is movably connected with the first connecting rod through a pin shaft, the outer side of the left and right second connecting rods is movably connected with the front end face of the arc-shaped plate through a pin shaft, and a handle is fixedly connected to the middle of the upper surface of the long rod. The size of the gap between the spindle nuts can thus be determined by pulling on the handle.

Preferably, the outer wall of the handle is machined with friction grains. Thus, the friction between the hand and the handle can be increased, and the hand can be prevented from slipping.

Preferably, the left concave rod and the right concave rod are symmetrically distributed by taking the middle point of the arc-shaped plate as the center. This makes the female lever more effective in fastening.

Compared with the prior art, the invention has the beneficial effects that: this novel screw-nut is vice, which comprises a motor, the apparatus further comprises a rotating shaft, first helical gear, the second helical gear, the threaded rod, the ball, the nut seat, cooperation between slider and the gasket, the external power supply of switch-on motor, the starter motor, the output shaft through the motor drives the pivot and rotates, drive first helical gear through the pivot and rotate, first helical gear drives the second helical gear and rotates, it rotates to make the second helical gear drive the threaded rod, it rotates to make the threaded rod drive the nut seat through the ball, the nut seat drives the slider and rotates, the nut seat drives the gasket and rotates in step simultaneously, the problem that the long-time operation of prior art independent screw-nut can produce the clearance has been solved.

Through the cooperation between spill pole, second screw, first connecting rod, second connecting rod, stock and the handle, the pulling handle drives the stock through the handle and removes, makes the stock drive first connecting rod and second connecting rod and removes, drives the spill pole through first connecting rod and removes, fixes the spill pole through the second screw simultaneously, has solved prior art and has fixed too single problem to the nut.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of the first bevel gear, the second bevel gear and the rotating shaft in FIG. 1;

FIG. 3 is a schematic view of the ball, nut seat and threaded rod of FIG. 1;

fig. 4 is a schematic structural diagram of the first connecting rod, the second connecting rod and the second square block in fig. 1.

In the figure: 1. guide rail, 2, round hole, 3, power device, 301, first square block, 302, motor, 303, rotating shaft, 304, first bearing, 305, first helical gear, 4, moving device, 401, vertical plate, 402, threaded rod, 403, second bearing, 404, second helical gear, 405, nut seat, 406, ball, 407, slider, 408, first screw, 409, gasket, 5, fastening device, 501, arc plate, 502, second square block, 503, concave rod, 504, second screw, 505, first connecting rod, 506, pin shaft, 507, long rod, 508, second connecting rod, 509, handle.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a novel screw nut pair comprises a guide rail 1 and a round hole 2, the round hole 2 is arranged on the upper and lower parts of the front end face of the guide rail 1, a ball in a sliding block 407 can rotate at the round hole 2, the guide rail 1 comprises a power device 3, the power device 3 comprises a first square block 301, a motor 302, a rotating shaft 303, a first bearing 304 and a first bevel gear 305, the lower surface of the first square block 301 is fixedly connected with the left side of the upper surface of the guide rail 1, the motor 302 is fixedly connected inside the first square block 301, the model of the motor 302 is ECMA-E11320RS, the rotating shaft 303 is fixedly connected with the output shaft of the motor 302, the rotating shaft 303 can be driven by the output shaft of the motor 302 to rotate, the rotating shaft 303 is rotatably connected with the guide rail 1 through the first bearing 304, the rotating shaft 303 can rotate at the guide rail 1 through the first bearing 304, the first bevel gear 305 is fixedly connected with the lower part of the first rotating shaft, the output shaft of the motor 302 coincides with the axial position of the rotating shaft 303.

The middle of the front end face of the guide rail 1 is provided with a moving device 4, the moving device 4 comprises a vertical plate 401, a threaded rod 402, a second bearing 403, a second bevel gear 404, a nut seat 405, a ball 406, a sliding block 407, a first screw 408 and a gasket 409, the rear end face of the vertical plate 401 is fixedly connected with the left side of the front end face of the guide rail 1, the threaded rod 402 is arranged inside the vertical plate 401, the outer wall of the left side of the threaded rod 402 is rotatably connected with the vertical plate 401 through the second bearing 403, the threaded rod 402 can rotate at the vertical plate 401 through the second bearing 403, the left side of the threaded rod 402 is fixedly connected with the second bevel gear 404, the second bevel gear 404 can drive the threaded rod 402 to rotate, the second bevel gear 404 is meshed with the first bevel gear 305, the first bevel gear 305 can drive the second bevel gear 404 to rotate, the middle outer wall of the threaded rod, a ball 406 is installed at the inner semicircular groove of a left nut seat 405 and a right nut seat 405, the ball 405 can roll at the semicircular groove of the nut seat 405, the left nut seat 405 and the right nut seat 405 are in threaded fit with a threaded rod 402 through the ball 406, the threaded rod 402 can drive the nut seat 405 to move through the ball 406, a sliding block 407 is fixedly connected to the rear end surface of the left nut seat 405 and the right nut seat 405, the left nut seat 405 and the right nut seat 405 are in threaded connection with the sliding block 407 through a first screw 408, the nut seat 405 can be fixed on the sliding block 407 through the first screw 408, grooves are formed in the upper and lower parts of the rear end surface of the left sliding block 407 and the right sliding block 407, the sliding block 407 can move at the position of a guide rail 1, a gasket 409 is installed in the middle of the threaded rod 402, the gasket 409 is in clearance fit with the threaded rod 402, the gasket 409 can move at the: 1, the washer 409 and the nut seat 405 are parallel to each other.

The fastening device 5 is arranged above the guide rail 1, the fastening device 5 comprises an arc plate 501, a second square block 502, a concave rod 503, a second screw 504, a first connecting rod 505, a pin shaft 506, a long rod 507, a second connecting rod 508 and a handle 509, the arc plate 501 is arranged above the guide rail 1, the second square block 502 is fixedly connected on the left and right of the upper surface of the arc plate 501, through holes are arranged on the inner walls of the left and right second square blocks 502, the concave rod 503 is arranged at the through holes of the left and right second square blocks 502, the upper outer walls of the left and right concave rods 503 are in clearance fit with the through holes of the second square blocks 502, the outer wall of the concave rod 503 can move at the through hole of the second square block 502, the lower surfaces of the left and right concave rods 503 are fixedly connected with the upper surface of the nut seat 405, the second screw 504 is arranged between the left and right concave rods 503, the outer wall of the second screw 504 is in threaded fit with the through hole of the concave rod 503, a first connecting rod 505 is arranged on the inner side above the front end surface of the left and right concave rod 503, the left and right first connecting rods 505 are movably connected with the concave rod 503 through a pin shaft 506, the first connecting rod 505 can rotate at the concave rod 503 through the pin shaft 506, the upper surfaces of the left and right second square blocks 502 are provided with long rods 507, the front end surfaces of the left and right long rods 507 are provided with second connecting rods 508, the inner sides of the left and right second connecting rods 508 are movably connected with the long rods 507 through the pin shaft 506, the inner sides of the second connecting rods 508 can rotate at the long rods 507 through the pin shaft 506, the inner sides of the front end surfaces of the left and right second connecting rods 508 are movably connected with the first connecting rod 505 through the pin shaft 506, the first connecting rod 505 can rotate at the inner side of the second connecting rod 508 through the pin shaft 506, the outer sides of the left and right second connecting rods 508 are movably connected with the front end surface of the arc plate 501, the middle of the upper surface of the long rod 507 is fixedly connected with a handle 509, the outer wall of the handle 509 is processed with friction grains, and the left concave rod 503 and the right concave rod 503 are symmetrically distributed by taking the middle point of the arc-shaped plate 501 as the center.

When an operator needs to use the novel screw nut pair, firstly, the operator pulls the handle 509, the handle 509 drives the long rod 507 to move, the long rod 507 drives the first connecting rod 505 and the second connecting rod 508 to move, meanwhile, the first connecting rod 505 drives the concave rod 503 to move, the concave rod 503 drives the nut seat 405 to move inwards, the second screw 504 is screwed, the concave rod 503 is fixed through the second screw 504, the purpose of fixing the screw nut is achieved, an external power supply of the motor 302 is switched on, the motor 302 is started, the output shaft of the motor 302 drives the rotating shaft 303 to rotate, the rotating shaft 303 drives the first helical gear 305 to rotate, the first helical gear 305 drives the second helical gear 404 to rotate, the second helical gear 404 drives the threaded rod 402 to rotate, and the threaded rod 402 drives the nut seat 405 to rotate through the ball 406, the nut seat 405 drives the sliding block 407 to rotate, and meanwhile, the left and right nut seats 405 clamp the gasket 409, so that the purpose of reducing the gap between the feed screw and the nut is achieved.

In the description of the present invention, it is to be understood that the terms "coaxial", "bottom", "one end", "top", "middle", "other end", "upper", "one side", "top", "inner", "front", "center", "both ends", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "disposed," "connected," "secured," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a novel screw-nut is vice, includes guide rail (1) and round hole (2), its characterized in that have all been seted up from top to bottom to the preceding terminal surface of guide rail (1): the guide rail (1) comprises a power device (3);

the power device (3) comprises a first square block (301), a motor (302), a rotating shaft (303), a first bearing (304) and a first bevel gear (305);

the lower surface of first square block (301) and the upper surface left side of guide rail (1) are fixed and link to each other, the inside rigid coupling of first square block (301) has motor (302), the output shaft rigid coupling of motor (302) has pivot (303), pivot (303) rotate with guide rail (1) through first bearing (304) and link to each other, the below rigid coupling of first pivot (303) has first helical gear (305).

2. The novel feed screw nut pair as claimed in claim 1, wherein: the output shaft of the motor (302) is consistent with the axis position of the rotating shaft (303).

3. The novel feed screw nut pair as claimed in claim 1, wherein: a moving device (4) is arranged in the middle of the front end surface of the guide rail (1);

the moving device (4) comprises a vertical plate (401), a threaded rod (402), a second bearing (403), a second bevel gear (404), a nut seat (405), a ball (406), a sliding block (407), a first screw (408) and a gasket (409);

the rear end face of the vertical plate (401) is fixedly connected with the left side of the front end face of the guide rail (1), a threaded rod (402) is installed inside the vertical plate (401), the outer wall of the left side of the threaded rod (402) is rotatably connected with the vertical plate (401) through a second bearing (403), a second helical gear (404) is fixedly connected to the left side of the threaded rod (402), the second helical gear (404) is meshed with a first helical gear (305), a plurality of nut seats (405) are installed on the outer wall of the middle of the threaded rod (402), semicircular grooves are formed in the left nut seat (405) and the right nut seat (405), balls (406) are installed at the inner semicircular grooves of the left nut seat (405) and the right nut seat (405), the left nut seat (405) and the right nut seat (405) are in threaded fit with the threaded rod (402) through the balls (406), a sliding block (407) is fixedly connected to the rear end face of the left nut seat (405) and the, the left and right sides all set up flutedly from top to bottom the rear end face of slider (407), control the recess of slider (407) is in the preceding terminal surface of guide rail (1) joint that slides from top to bottom, gasket (409) are installed to the centre of threaded rod (402), gasket (409) with threaded rod (402) clearance fit.

4. The new screw-nut pair as claimed in claim 3, wherein: the meshing ratio of the second bevel gear (404) to the first bevel gear (305) is 1: 1.

5. the new screw-nut pair as claimed in claim 3, wherein: the gasket (409) and the nut seat (405) are parallel to each other.

6. The novel feed screw nut pair as claimed in claim 1, wherein: a fastening device (5) is arranged above the guide rail (1);

the fastening device (5) comprises an arc-shaped plate (501), a second square block (502), a concave rod (503), a second screw (504), a first connecting rod (505), a pin shaft (506), a long rod (507), a second connecting rod (508) and a handle (509);

the arc-shaped plate (501) is positioned above the guide rail (1), a second square block (502) is fixedly connected to the left and right sides of the upper surface of the arc-shaped plate (501), through holes are formed in the inner walls of the left and right second square blocks (502), a concave rod (503) is installed at the through hole of the left and right second square blocks (502), the upper outer wall of the left and right concave rod (503) is in clearance fit with the through hole of the second square block (502), the lower surface of the left and right concave rod (503) is fixedly connected with the upper surface of a nut seat (405), a second screw (504) is installed in the middle of the left and right concave rod (503), the outer wall of the second screw (504) is in threaded fit with the through groove of the concave rod (503), a first connecting rod (505) is installed on the inner side above the front end surface of the left and right concave rod (503), the left and right first connecting rods (505) are movably connected with the concave rod (503) through a, control the last surface mounting of the square piece of second (502) has stock (507), controls second connecting rod (508) is installed to the preceding terminal surface of stock (507), controls the inboard of second connecting rod (508) links to each other with stock (507) activity through round pin axle (506), controls the preceding terminal surface inboard of second connecting rod (508) links to each other with first connecting rod (505) activity through round pin axle (506), controls the outside of second connecting rod (508) is passed through round pin axle (506) and is linked to each other with the preceding terminal surface activity of arc (501), the rigid coupling has handle (509) in the middle of the upper surface of stock (507).

7. The new screw-nut pair as claimed in claim 6, wherein: the outer wall of the handle (509) is machined with friction grains.

8. The new screw-nut pair as claimed in claim 6, wherein: the left concave rod (503) and the right concave rod (503) are symmetrically distributed by taking the middle point of the arc-shaped plate (501) as the center.