CN211550434U - Screw rod transmission device in sine mechanism - Google Patents

Abstract

The utility model relates to a screw rod transmission among sinusoidal mechanism, install bearing frame, two guide pillars, nut slider and the lead screw before the fixing base, rear end respectively including fixing base, two. The two ends of the screw rod are mounted on the two bearing blocks, the nut sliding block is in threaded connection with the screw rod, the nut sliding block is provided with a splitting groove, the nut sliding block is provided with adjusting screws for connecting the front end face and the rear end face of the splitting groove, the nut sliding block is further provided with guide pillar holes located on the two sides of the inner threaded hole, the guide pillars are mounted in the guide pillar holes, the guide pillars and the guide pillar holes are in sliding fit, one end of each guide pillar is matched with one bearing block through a shaft hole and then locked through a set screw mounted at the top of the bearing block, and the top of the other end of. The utility model provides a grating monochromator's wavelength location repeatability not good technical defect, effectively improved the detection index of atomic absorption spectrophotometer complete machine.

Description

Screw rod transmission device in sine mechanism

Technical Field

The utility model relates to a screw drive in sinusoidal mechanism, concretely relates to screw drive in sinusoidal mechanism of grating monochromator belongs to analysis and inspection instrument technical field.

Background

The atomic absorption spectrophotometer is widely applied to the fields of medicine, biology, pharmacy and the like as an instrument for analyzing and detecting environment, metal semiconductors and petrochemical high polymer materials. The monochromator is used as a core component of the atomic absorption spectrophotometer, and the performance of the monochromator directly influences the detection index of the atomic absorption spectrophotometer.

The sine mechanism is a transmission mechanism for converting the sine relationship between the wavelength of light at the outlet slit of the grating monochromator and the rotation angle of the grating into a linear relationship. With the improvement of the detection index of the atomic absorption spectrophotometer, the requirement on the light splitting of the grating monochromator is higher and higher, after the screw rod is driven to rotate by the stepping motor, the wavelength change quantity at the outlet slit of the grating monochromator, which is caused after the stepping motor receives one stepping pulse to rotate, is usually required to be 0.01nm, the extremely high requirement on the transmission precision of the screw rod is provided, and the accumulated error of the transmission screw rod in the total length range is generally required not to exceed 10 mu m. If all the degrees of freedom of the nut and slide block along the axial direction of the screw rod are not completely limited, the atomic absorption spectrophotometer cannot accurately search the maximum value of optical energy absorption, or the consistency of wavelength positioning in a certain small wavelength range is poor. In addition, the fit clearance between the screw rod and the nut sliding block needs to be reasonably eliminated to ensure the transmission precision of the screw rod, so a feasible scheme for improving the performance index of the grating monochrometer is tried to be found by the screw rod transmission device which can eliminate the transmission clearance of the screw rod, can completely limit all degrees of freedom of the sliding block in the screw rod device except along the axial direction and cannot cause the excessive increase of the driving torque of the stepping motor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a lead screw transmission in sinusoidal mechanism is provided can effectively reduce the fit clearance between lead screw and the nut slider to can restrict all degrees of freedom beyond the nut slider edge axial in the lead screw device completely.

In order to solve the above problem, the utility model discloses a technical scheme as follows:

a screw rod transmission device in a sine mechanism, which comprises a fixed seat, two bearing seats respectively arranged at the front end and the rear end of the fixed seat, two guide posts, a nut slide block and a screw rod,

two ends of the screw rod are respectively arranged on two bearing blocks through bearings, the nut sliding block is screwed on the screw rod, the nut sliding block is provided with a subdivision groove which penetrates through the cross section of the internal thread hole, the nut sliding block is provided with an adjusting screw which is connected with the front end surface and the rear end surface of the subdivision groove, the adjusting screw is positioned above the internal thread hole,

the nut slider is further provided with guide pillar holes located on two sides of the internal thread hole, the guide pillars are mounted in the corresponding guide pillar holes, the guide pillars are in sliding fit with the guide pillar holes, one end of each guide pillar is matched with one bearing seat through a shaft hole and then locked through a set screw mounted at the top of the bearing seat, and the end face of the other end of each guide pillar is connected with a screw horizontally mounted on the other bearing seat.

In the screw rod transmission device of the sine mechanism, the split groove divides the internal thread hole of the nut slider into a front part and a rear part, and the width of the split groove along the axial direction is adjusted by rotating the adjusting screw so as to eliminate the fit clearance between the screw rod and the nut slider and ensure the transmission precision of the screw rod; the guide post hole is in sliding fit with the guide post and used for limiting all degrees of freedom except the axial movement of the slider nut along the guide post. The parallelism of the two guide columns in the whole stroke range can be finely adjusted by connecting the screw with one end of the guide column, so that the transmission precision of the whole stroke is ensured.

Furthermore, two positioning screws are further installed above the inner threaded holes of the nut and the sliding block and symmetrically arranged on two sides below the adjusting screws, and the positioning screws penetrate through the splitting grooves from outside to inside and are pressed on the end faces of the inner sides of the splitting grooves in an abutting mode. Through set screw cooperation adjusting screw, prevent that the lead screw from rotating the width of in-process subdivision groove and taking place slight change, make the transmission precision of lead screw further improve.

Further, preferably, the axes of the two guide post holes are equal in height to the axis of the female screw hole. Therefore, the parallelism between the two guide posts and the screw rod can be observed more conveniently.

Furthermore, the two ends of the bearing seat are arranged on the fixed seat through a fixing screw, a flat washer and an elastic washer.

Furthermore, according to the experimental requirement, the nut sliding block is T-shaped.

To sum up, compare with prior art, the beneficial effects of the utility model reside in that:

the utility model provides a screw rod transmission in sinusoidal mechanism not only can eliminate the screw rod transmission clearance, restricts all degrees of freedom beyond the nut slider edge axial in the screw rod device completely, can guarantee the depth of parallelism of guide pillar in whole stroke range moreover. The technical defect of poor wavelength positioning repeatability of the grating monochromator is overcome, and the detection index of the whole atomic absorption spectrophotometer is effectively improved.

Drawings

Fig. 1 is a schematic diagram of an explosion structure according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a nut slider according to an embodiment of the present invention.

Fig. 3 is a cross-sectional view taken at a-a in fig. 2.

Fig. 4 is a partial cross-sectional view of the top view of fig. 2.

Fig. 5 is an assembly diagram of an embodiment of the present invention.

Fig. 6 is a schematic view illustrating an installation of the guide post and the bearing seat according to an embodiment of the present invention.

Fig. 7 is a schematic position diagram of the nut slider during adjustment of the parallelism of the guide post according to an embodiment of the present invention.

In the figure: 11a is an adjusting screw mounting hole, and 12a is a set screw mounting hole.

Detailed Description

The present invention will be described in further detail with reference to the following drawings and specific embodiments. The objects, aspects and advantages of the present invention will become more apparent from the following description. It should be understood that the described embodiments are presently preferred, but not all embodiments of the invention.

Examples

Referring to fig. 1 to 4, a screw transmission device in a sine mechanism includes a fixed seat 1, two bearing seats 2 respectively installed at the front and rear ends of the fixed seat 1, two guide posts 4, a nut slider 5 and a screw 6. Two ends of the bearing seat are arranged on the fixed seat 1 through a fixing screw 8, a flat washer 9 and an elastic washer 10.

The two ends of the screw rod 6 are respectively installed on the bearing seats 2 at the two ends through bearings 7, the nut sliding block 5 is in threaded connection with the screw rod 6, the nut sliding block 5 is provided with a split groove 5b which penetrates through the cross section of the internal threaded hole 5a, and the split groove 5b divides the internal threaded hole of the nut sliding block 5 into a front part and a rear part along the axial direction. The nut slider 5 is provided with an adjusting screw 11 which is connected with the front end surface and the rear end surface of the split groove 5b, and the position of the adjusting screw 11 is positioned above the internal thread hole 5 a. The width of the splitting groove 5b along the axial direction is adjusted by rotating the adjusting screw 11, so that the fit clearance between the screw rod 6 and the nut sliding block 5 is eliminated, and the transmission precision of the screw rod is ensured.

Preferably, two positioning screws 12 are further installed above the internal threaded hole 5a of the nut slider 5, the two positioning screws 12 are symmetrically arranged on two sides below the adjusting screw 11, and the positioning screws 12 penetrate through the split groove 5b from outside to inside and are pressed against the end face on the inner side of the split groove 5 b. The positioning screw 12 is matched with the adjusting screw 11, so that the width of the split groove 5b is prevented from being slightly changed in the rotating process of the screw rod 6, and the transmission precision of the screw rod is further improved.

The nut slider 5 is also provided with guide post holes 5c positioned at two sides of the internal thread hole 5a, and the axes of the two guide post holes 5c are equal to the axis of the internal thread hole 5a in height. The guide posts 4 are installed in the corresponding guide post holes 5c, and the guide posts 4 are in sliding fit with the guide post holes 5c to limit all degrees of freedom except the axial movement of the slider nut along the guide posts. Referring to fig. 5 and 6, one end of the guide post 4 is engaged with one of the bearing seats through a shaft hole and then locked by a set screw 14 mounted on top of the bearing seat. The other end of the guide post 4 is connected to another bearing block by a screw 13, which screw 13 is screwed into the end of the guide post 4 from the top in the horizontal direction. The parallelism of the two guide columns 4 in the whole stroke range can be finely adjusted by connecting the screw 13 with one end of the guide column, so that the parallelism of the guide columns in the whole stroke range is ensured.

The utility model discloses an accommodation process as follows:

when the fit clearance of the nut slider 5 and the lead screw 6 is too large, the positioning screw 12 is loosened counterclockwise first, then the adjusting screw 11 is screwed clockwise, at this time, the width of the split groove 5b on the nut slider is reduced, so that the fit clearance of the nut slider 5 and the lead screw 6 is eliminated, and then the positioning screw 12 is screwed to fix the size of the split groove. When the fit clearance between the nut slider 5 and the screw rod 6 is too small, the screw rod is difficult to rotate because the nut slider 5 and the screw rod 6 are pressed by the tension of the adjusting screw 11, the adjusting screw 11 can be loosened slightly, and then the positioning screw 12 is screwed clockwise to enable the split groove 5b to generate a small deformation so as to unload a part of pressure until the motion damping between the nut slider 5 and the screw rod 6 is proper.

Referring to fig. 7, when the torque required by the nut-slide 5 to rotate the lead screw at the two ends of the guide post is different, the screws on the bearing seats 2 at the front and rear ends are loosened, the slide nut 5 is rotated to the position shown in fig. 7, the set screw 14 on the bearing seat 3 at the rear end is tightened, the screw 13 in front of the bearing seat 2 at the front end is tightened, and the parallelism of the guide post is adjusted.

The above description is only for the purpose of illustration of the preferred embodiments of the present invention, and it is not intended to limit the scope of the present invention, and it is obvious that any person skilled in the art can easily conceive of alterations and modifications to obtain other embodiments based on the above embodiments, and these should be covered by the scope of the present invention.

Claims (5)

1. The utility model provides a screw rod transmission among sinusoidal mechanism which characterized in that: comprises a fixed seat, two bearing seats respectively arranged at the front end and the rear end of the fixed seat, two guide posts, a nut slide block and a screw rod,

two ends of the screw rod are respectively arranged on two bearing blocks through bearings, the nut sliding block is screwed on the screw rod, the nut sliding block is provided with a subdivision groove which penetrates through the cross section of the internal thread hole, the nut sliding block is provided with an adjusting screw which is connected with the front end surface and the rear end surface of the subdivision groove, the adjusting screw is positioned above the internal thread hole,

the nut slider is further provided with guide pillar holes located on two sides of the internal thread hole, the guide pillars are mounted in the corresponding guide pillar holes, the guide pillars are in sliding fit with the guide pillar holes, one end of each guide pillar is matched with one bearing seat through a shaft hole and then locked through a set screw mounted at the top of the bearing seat, and the end face of the other end of each guide pillar is connected with a screw horizontally mounted on the other bearing seat.

2. The screw transmission device in a sinusoidal mechanism according to claim 1, wherein:

two positioning screws are further installed above the inner threaded holes of the nut sliding block and symmetrically arranged on two sides of the lower portion of the adjusting screw, and the positioning screws penetrate through the splitting grooves from outside to inside and are jacked on the end faces of the inner sides of the splitting grooves.

3. The screw transmission device in a sinusoidal mechanism according to claim 1, wherein:

the axes of the two guide pillar holes are equal to the axis of the internal thread hole in height.

4. The screw transmission device in a sinusoidal mechanism according to claim 1, wherein:

two ends of the bearing seat are arranged on the fixed seat through a fixing screw, a flat washer and an elastic washer.

5. The screw transmission device in a sinusoidal mechanism according to claim 1, wherein:

the nut slider is T-shaped.

Images