CN219705072U - Adjustable support for manufacturing rotary equipment - Google Patents

Abstract

The utility model provides an adjustable support for manufacturing rotary equipment in the field of machinery. Comprises a sliding mechanism, a supporting frame, a transverse adjusting mechanism, a longitudinal adjusting structure and a main shaft support; the sliding mechanism is used for moving in the equipment cylinder; the support frame is of a detachable structure, the lower part of the support frame is in threaded connection with the sliding mechanism to form a movable frame, and the upper part of the support frame is in threaded connection with the transverse adjusting mechanism and is used for supporting the transverse adjusting mechanism, the longitudinal adjusting mechanism and the main shaft support; the upper part of the longitudinal adjusting mechanism is in threaded connection with the main shaft support, and the two sides of the longitudinal adjusting mechanism realize the vertical adjustment of the main shaft of the rotary equipment through longitudinal adjusting jackscrews; the bottom of the transverse adjusting mechanism is in threaded connection with the supporting frame, the longitudinal adjusting mechanism is located at the top of the transverse adjusting mechanism, and the longitudinal adjusting mechanism is adjusted through a transverse adjusting jackscrew, so that the horizontal direction adjustment of the main shaft of the rotary equipment is realized; the main shaft support is in threaded connection with the longitudinal adjusting mechanism and is used for lifting the main shaft of the rotary equipment. The adjustable support is suitable for being used as an adjustable support.

Description

Adjustable support for manufacturing rotary equipment

Technical Field

The utility model relates to a tool in the field of rotary equipment, in particular to an adjustable support for manufacturing rotary equipment.

Background

At present, with the progress of the times and the innovation of the technology, the rotary equipment gradually develops to the energy conservation, automation and large-scale. In the past, the production and the manufacture of the rotary equipment are all completed in a factory, and the equipment can be integrally transported to an installation site after being manufactured, but with the development of the large-scale equipment, corresponding tests are provided for the manufacture, the transportation and the installation of the equipment.

Therefore, the equipment can be assembled only in site construction, and especially, the novel technical problem is brought forward for ensuring the manufacturing precision of the main shaft of the equipment, and an adjustable support with simple working procedure, convenient construction and high safety is urgently needed to ensure the whole manufacturing precision of the equipment and realize the long-period and stable operation of the rotary equipment.

Disclosure of Invention

In order to solve the above problems in the prior art, the present utility model provides an adjustable support for manufacturing a slewing device. The support realizes quick assembly through fastening connection, realizes smooth penetration of the main shaft by utilizing the sliding mechanism, realizes adjustment of the installation precision of the main shaft by the longitudinal and transverse adjusting mechanisms, and solves the technical problem of field manufacturing of the rotary equipment.

The utility model solves the technical problems by adopting the scheme that:

an adjustable support for manufacturing rotary equipment comprises a sliding mechanism, a supporting frame, a transverse adjusting mechanism, a longitudinal adjusting mechanism and a main shaft support;

the sliding mechanism is used for bearing the adjustable support to move in the equipment cylinder;

the support frame is of a detachable structure, the lower part of the support frame is in threaded connection with the sliding mechanism to form a movable frame, and the upper part of the support frame is in threaded connection with the transverse adjusting mechanism and is used for supporting the transverse adjusting mechanism, the longitudinal adjusting mechanism and the main shaft support;

the upper part of the longitudinal adjusting mechanism is in threaded connection with the main shaft support, and the two sides of the longitudinal adjusting mechanism realize the vertical adjustment of the main shaft of the rotary equipment through longitudinal adjusting jackscrews;

the bottom of the transverse adjusting mechanism is in threaded connection with the supporting frame, the longitudinal adjusting mechanism is located at the top of the transverse adjusting mechanism, and the longitudinal adjusting mechanism is adjusted through a transverse adjusting jackscrew, so that the horizontal direction adjustment of the main shaft of the rotary equipment is realized;

the main shaft support is in threaded connection with the longitudinal adjusting mechanism and is used for lifting the main shaft of the rotary equipment.

In order to further solve the technical problem to be solved, the support frame provided by the utility model comprises a beam frame, a cross beam and an inclined beam; the beam frames are of T-shaped structures, two beam frames opposite to each other in the T shape are connected through a cross beam, and the lower parts of the beam frames are in threaded connection through sliding brackets to form a frame whole; the whole frame is internally provided with an oblique beam for enhancing the structural rigidity;

the beam frame comprises a longitudinal beam, a connecting beam, a longitudinal beam upper connecting plate and a longitudinal beam lower connecting plate; the side part of the longitudinal beam is provided with a connecting beam, and a cross beam is connected between the two connecting beams; the lower part of the longitudinal beam is provided with a longitudinal beam lower connecting plate which is in threaded connection with the sliding support, and the upper part of the longitudinal beam is provided with a longitudinal beam upper connecting plate which is used for being in threaded connection with the transverse adjusting mechanism.

Further, the transverse adjusting mechanism comprises a transverse adjusting jackscrew, a transverse adjusting jackscrew seat and a transverse adjusting seat; the transverse adjusting seat is a rectangular frame, two sides of the transverse adjusting seat are provided with transverse adjusting jackscrew seats, and the transverse adjusting jackscrew seats are provided with transverse adjusting jackscrew adjusting longitudinal adjusting mechanisms so as to adjust the main shaft of the rotary equipment on the main shaft support;

the transverse adjusting jackscrew seat comprises a side plate, a lining plate, a transverse screw seat and a transverse screw; side plates are assembled on two sides of the lower part of the transverse screw seat, the end parts of the side plates are provided with lining plates which are connected into an integrated structure, and the transverse adjusting screw seat is assembled on the transverse adjusting seat through the lining plates; a transverse screw nut is arranged at the upper part of the transverse screw nut seat and used for assembling a transverse adjusting jackscrew;

the transverse adjusting seat comprises a transverse support, a supporting base plate and a connecting base plate; the transverse support is a rectangular frame and is formed by assembling four sectional materials, sealing plates are arranged at two ends of the transverse support, and the transverse support is in threaded connection with the sealing plates to form a frame; a connecting base plate is arranged around the lower part of the transverse support and is used for being in threaded connection with the supporting frame; the upper part of the transverse support is close to the end part of the transverse adjusting jackscrew seat, and is provided with a supporting base plate, and the longitudinal adjusting jackscrew is pressed on the supporting base plate.

Further, the longitudinal adjusting mechanism comprises a longitudinal adjusting jackscrew and a longitudinal adjusting seat; the longitudinal adjusting seat is of a box structure and comprises a longitudinal support, a vertical plate, a longitudinal nut seat and a longitudinal nut; the longitudinal support consists of an upper plate and a lower plate, and a framework reinforcement is arranged between the upper plate and the lower plate; vertical plates are arranged on two sides of the longitudinal support, longitudinal nut seats are arranged on the outer sides of the vertical plates, and longitudinal nuts used for assembling longitudinal adjusting jackscrews are arranged on the longitudinal nut seats.

The utility model has the advantages that as the fastening connection is adopted among all mechanisms, the assembly structure is detachable and can be repeatedly utilized while the installation and use requirements are met, and the utility model has simple working procedure, convenient construction, high construction speed and high safety and has higher practicability. The adjustable support is suitable for being used as an adjustable support for manufacturing rotary equipment.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the related art, the drawings that are required to be used in the embodiments or the related technical descriptions will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort to those skilled in the art.

FIG. 1 is a front view of an embodiment of the present utility model;

FIG. 2 is a side view of an embodiment of the present utility model;

FIG. 3 is a side view of a beam;

FIG. 4 is a front view of the beam;

FIG. 5 is a side view of the lateral adjustment mechanism;

FIG. 6 is a side view of the lateral adjustment mechanism;

FIG. 7 is a front view of the lateral adjustment mechanism;

FIG. 8 is a front view of the spindle carrier;

FIG. 9 is a side view of a spindle carrier;

FIG. 10 is a front view of the longitudinal adjustment mechanism;

FIG. 11 is a top view of the longitudinal adjustment mechanism;

fig. 12 is a side view of the longitudinal adjustment mechanism.

In the figure:

100. the sliding mechanism, the riding wheel 110 and the sliding bracket 120;

200. the support frame 210, the beam frame 211, the longitudinal beam 212, the connecting beam 213, the upper connecting plate of the longitudinal beam 214, the lower connecting plate of the longitudinal beam 220, the cross beam 230 and the diagonal beam;

300. the device comprises a transverse adjusting mechanism 310, a transverse adjusting jackscrew 320, a transverse adjusting jackscrew seat 321, side plates 322, a lining plate 323, a transverse screw seat 324, a transverse screw 330, a transverse adjusting seat 331, a transverse support 332, a sealing plate 333, a supporting base plate 334 and a connecting base plate;

400. the longitudinal adjusting mechanism 410 is used for longitudinally adjusting jackscrews 420 is used for longitudinally adjusting seats 421 is used for longitudinally supporting seats 422 is used for vertically supporting plates 423 is used for longitudinally supporting nuts 424;

500. the main shaft support, 510, bottom plate, 520, arc board, 530, extension board, 540, rib plate, 550, connecting rib plate.

Description of the embodiments

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

1-2, an adjustable support for manufacturing a swing apparatus includes a sliding mechanism 100, a support frame 200, a lateral adjustment mechanism 300, a longitudinal adjustment mechanism 400, and a spindle support 500;

the sliding mechanism 100 is used for carrying the adjustable support to move in the device cylinder;

the supporting frame 200 is a detachable structure, the lower part of the supporting frame is in threaded connection with the sliding mechanism 100 to form a moving frame, and the upper part of the supporting frame is in threaded connection with the transverse adjusting mechanism 300 and is used for supporting the transverse adjusting mechanism 300, the longitudinal adjusting mechanism 400 and the main shaft support 500;

the upper part of the longitudinal adjusting mechanism 400 is in threaded connection with the main shaft support 500, and the two sides of the longitudinal adjusting mechanism realize the vertical adjustment of the main shaft of the rotary equipment through the longitudinal adjusting jackscrews 410;

the bottom of the transverse adjusting mechanism 300 is in threaded connection with the supporting frame 200, the longitudinal adjusting mechanism 400 is located at the top of the transverse adjusting mechanism 300, and the longitudinal adjusting mechanism 400 is adjusted through the transverse adjusting jackscrews 310, so that the horizontal direction adjustment of the main shaft of the rotary equipment is realized;

the spindle support 500 is screw-coupled to the longitudinal adjustment mechanism 400 for lifting the spindle of the rotary apparatus.

In this embodiment, the sliding mechanism 100, the supporting frame 200, the lateral adjustment mechanism 300, the longitudinal adjustment mechanism 400 and the spindle support 500 are fastened by screw connection, so that the assembly structure can be detached and reused while the installation and use requirements are met, and the method has the advantages of simple procedure, convenient construction, high construction speed and high safety.

In order to secure the stability of the structure of the present utility model, the sliding mechanism 100 includes a riding wheel 110 and a sliding bracket 120; the riding wheels 110 are arranged at the two ends of the sliding bracket 120, the sliding mechanism 100 is symmetrically arranged at the bottom of the supporting frame 200, and the safe and stable movement of the support in the equipment cylinder is realized while the requirement of the installation strength is met; in this embodiment, the sliding brackets 120 are two groups, and the riding wheels 110 are four pieces.

As shown in fig. 3 to 4, in order to further secure the stability of the structure of the present utility model, the support frame 200 includes a beam 210, a cross beam 220, and an inclined beam 230; the beam frames 210 are of T-shaped structures, two beam frames 210 opposite to each other in the T shape are connected through a cross beam 220, and the lower parts of the beam frames 210 are in threaded connection through the sliding brackets 120 to form a frame whole; the diagonal beams 230 are arranged in the whole frame to strengthen the structural rigidity;

the beam 210 includes a side member 211, a connecting beam 212, a side member upper connecting plate 213, and a side member lower connecting plate 214; a connecting beam 212 is arranged at the side part of the longitudinal beam 211, and a cross beam 220 is connected between the two connecting beams 212; a lower longitudinal beam connecting plate 214 is arranged at the lower part of the longitudinal beam 211 and is in threaded connection with the sliding bracket 120, and an upper longitudinal beam connecting plate 213 is arranged at the upper part of the longitudinal beam 211 and is used for being in threaded connection with the transverse adjusting mechanism 300.

As shown in fig. 5-7, to optimize the structure of the present utility model, the lateral adjustment mechanism 300 includes a lateral adjustment jack 310, a lateral adjustment jack 320, and a lateral adjustment jack 330; the transverse adjusting seat 330 is a rectangular frame, two sides of the transverse adjusting seat 330 are provided with transverse adjusting jackscrew seats 320, and the transverse adjusting jackscrew seats 320 are provided with transverse adjusting jackscrews 310 for adjusting the longitudinal adjusting mechanism 400 so as to adjust the main shaft of the rotary equipment on the main shaft support 500;

the transverse adjusting jackscrew seat 320 comprises a side plate 321, a lining plate 322, a transverse screw seat 323 and a transverse screw 324; side plates 321 are assembled on two sides of the lower part of the transverse screw seat 323, the end parts of the side plates 321 are provided with lining plates 322 which are connected into an integrated structure, and the transverse adjusting screw seat 320 is assembled on the transverse adjusting seat 330 through the lining plates 322; a transverse screw 324 is provided on the upper portion of the transverse screw seat 323 for assembling the transverse adjusting top screw 310;

the lateral adjustment seat 330 includes a lateral support 331, a support pad 333, and a connection pad 334; the transverse support 331 is a rectangular frame and is formed by assembling four sections, in the embodiment, the transverse support is made of channel steel, two ends of the transverse support are provided with sealing plates 332, and the sealing plates 332 are in threaded connection to form a frame; a connecting pad 334 is arranged around the lower part of the transverse support 331 and is used for being screwed with the supporting frame 200; the upper end of the transverse support 331, which is close to the transverse adjusting screw seat 320, is provided with a supporting pad 333, and the longitudinal adjusting screw 410 is pressed against the supporting pad 333.

10-12, to further optimize the structure of the present utility model, the longitudinal adjustment mechanism 400 includes a longitudinal adjustment top wire 410 and a longitudinal adjustment seat 420; the longitudinal adjustment seat 420 is a box structure and comprises a longitudinal support 421, a vertical plate 422, a longitudinal nut seat 423 and a longitudinal nut 424; the longitudinal support 421 is composed of an upper plate and a lower plate, and a framework reinforcement is arranged between the upper plate and the lower plate; vertical plates 422 are arranged on two sides of the longitudinal support 421, a longitudinal screw seat 423 is arranged on the outer side of the vertical plates 422, and a longitudinal screw 424 is arranged on the longitudinal screw seat 423 for assembling the longitudinal adjusting jackscrew 410.

In this embodiment, a group of longitudinal nuts 424 are arranged on the longitudinal nut seat 423, so that the longitudinal nuts 424 are uniformly distributed on two sides of the longitudinal adjustment seat 420, and the four longitudinal adjustment top threads 410 are matched with the longitudinal nuts 424 to keep the balance of the longitudinal adjustment seat 420 stable.

8-9, to further optimize the structure of the present utility model, the spindle support 500 includes a base plate 510, an arc plate 520, a support plate 530, a rib 540, and a connecting rib 550; the main shaft support 500 is formed by assembling two 1/4 circular arcs into a 1/2 circular arc, the bottom plate 510 is a long slat, and the main shaft support 500 is screwed on the longitudinal adjustment seat 420 through the bottom plate 510; a support plate 530 is arranged on the bottom plate 510, and the support plate 530 lifts an arc plate 520, wherein the arc of the arc plate 520 is 1/4 of the arc; the two sides of the support plate 530 are provided with rib plates 540 for reinforcing the support of the arc plate 520, the lower end of the arc plate 520 is provided with connecting rib plates 550, the connecting rib plates 550 are used for plugging the bottom plate 510 and the support plate 530, the two main shaft supports 500 are in threaded connection through the connecting rib plates 550, and the two 1/4 circular arcs are assembled to form a main shaft of the 1/2 circular arc supporting rotary equipment.

As a conventional technical option, the transverse adjustment jackscrew 310 and the longitudinal adjustment jackscrew 410 are bolts, and a pillow block is machined at the end of each bolt, so that external threads of the bolts are prevented from being damaged when the transverse adjustment jackscrew 310 and the longitudinal adjustment jackscrew 410 are adjusted.

The working process of the utility model comprises the following steps:

when the device is installed, firstly, each component of the support is respectively conveyed into the equipment cylinder, and the sliding mechanism 100, the supporting frame 200, the longitudinal adjusting mechanism 300, the transverse adjusting mechanism 400 and the main shaft support 500 are sequentially connected into a whole through fasteners;

secondly, the longitudinal adjustment seat 420 is preliminarily adjusted to ensure the level of the main shaft support 500, and the main shaft of the rotary equipment is stabilized on the main shaft support 500 after penetrating; by adjusting the lateral adjustment threads 310 and the longitudinal adjustment threads 410

The installation precision of the main shaft is ensured;

finally, after the main shaft of the rotary equipment is fixed, all the parts can be detached in sequence, the support is disassembled and taken out, and the quick assembly and disassembly can be realized, so that the rotary equipment is convenient to use.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (10)

1. An adjustable support for manufacturing rotary equipment, which is characterized in that: comprising the following steps:

a sliding mechanism (100), the sliding mechanism (100) being configured to carry the adjustable support for movement within the device housing;

the support frame (200) is of a detachable structure, the lower part of the support frame (200) is in threaded connection with the sliding mechanism (100) to form a moving frame, and the upper part of the support frame is in threaded connection with the transverse adjusting mechanism (300) and is used for supporting the transverse adjusting mechanism (300), the longitudinal adjusting mechanism (400) and the main shaft support (500);

the upper part of the longitudinal adjusting mechanism (400) is in threaded connection with the main shaft support (500), and the two sides of the longitudinal adjusting mechanism are adjusted in the vertical direction of the main shaft of the rotary equipment through longitudinal adjusting jackscrews (410);

the bottom of the transverse adjusting mechanism (300) is in threaded connection with the supporting frame (200), the longitudinal adjusting mechanism (400) is located at the top of the transverse adjusting mechanism (300), and the longitudinal adjusting mechanism (400) is adjusted through a transverse adjusting jackscrew (310), so that the horizontal direction adjustment of the main shaft of the rotary equipment is realized; and

and the main shaft support (500) is in threaded connection with the longitudinal adjusting mechanism (400) and is used for lifting a main shaft of the rotary equipment.

2. An adjustable mount for use in the manufacture of rotary equipment as claimed in claim 1, wherein:

the sliding mechanism (100) comprises a riding wheel (110) and a sliding bracket (120);

the riding wheels (110) are arranged at two ends of the sliding support (120), and the sliding mechanism (100) is symmetrically arranged at the bottom of the supporting frame (200).

3. An adjustable mount for use in the manufacture of swivel equipment as claimed in claim 2, wherein:

the support frame (200) comprises a beam frame (210), a cross beam (220) and an oblique beam (230);

the beam frames (210) are of T-shaped structures, two beam frames (210) opposite to each other in the T shape are connected through the cross beam (220), and the lower parts of the beam frames (210) are in screw connection through the sliding brackets (120) to form a frame whole; the diagonal beams (230) are provided in the frame as a whole to enhance structural rigidity.

4. An adjustable mount for use in the manufacture of swivel equipment as claimed in claim 3, wherein:

the beam frame (210) comprises a longitudinal beam (211), a connecting beam (212), a longitudinal beam upper connecting plate (213) and a longitudinal beam lower connecting plate (214);

the side parts of the longitudinal beams (211) are provided with the connecting beams (212), and the cross beams (220) are connected between the two connecting beams (212); the lower part of the longitudinal beam (211) is provided with the lower longitudinal beam connecting plate (214) which is in threaded connection with the sliding support (120), and the upper part of the longitudinal beam (211) is provided with the upper longitudinal beam connecting plate (213) which is used for being in threaded connection with the transverse adjusting mechanism (300).

5. An adjustable mount for use in the manufacture of rotary equipment as claimed in claim 1, wherein:

the transverse adjusting mechanism (300) comprises a transverse adjusting jackscrew (310), a transverse adjusting jackscrew seat (320) and a transverse adjusting seat (330);

the transverse adjusting seat (330) is a rectangular frame, two sides of the transverse adjusting seat (330) are provided with transverse adjusting jackscrew seats (320), the transverse adjusting jackscrew seats (320) are provided with transverse adjusting jackscrews (310) for adjusting the longitudinal adjusting mechanism (400), and then the main shaft of the rotary equipment on the main shaft support (500) is adjusted.

6. An adjustable mount for use in manufacturing a swivel device according to claim 5, wherein:

the transverse adjusting jackscrew seat (320) comprises a side plate (321), a lining plate (322), a transverse screw seat (323) and a transverse screw (324);

the two sides of the lower part of the transverse screw seat (323) are provided with the side plates (321), the end parts of the side plates (321) are provided with the lining plates (322) which are connected into an integrated structure, and the transverse adjusting screw seat (320) is assembled on the transverse adjusting seat (330) through the lining plates (322); the upper part of the transverse screw seat (323) is provided with the transverse screw (324) for assembling the transverse adjusting jackscrew (310).

7. An adjustable mount for use in manufacturing a swivel device according to claim 5, wherein:

the transverse adjusting seat (330) comprises a transverse support (331), a supporting base plate (333) and a connecting base plate (334); the transverse support (331) is a rectangular frame and is formed by assembling four sectional materials, sealing plates (332) are arranged at two ends of each sectional material, and the frame is formed by screwing the sealing plates (332); the periphery of the lower part of the transverse support (331) is provided with a connecting base plate (334) for being screwed with the supporting frame (200); the upper part of the transverse support (331) is close to the end part of the transverse adjusting jackscrew seat (320), the support base plate (333) is arranged, and the longitudinal adjusting jackscrews (410) are pressed on the support base plate (333).

8. An adjustable mount for use in the manufacture of rotary equipment as claimed in claim 1, wherein:

the longitudinal adjustment mechanism (400) comprises a longitudinal adjustment jackscrew (410) and a longitudinal adjustment seat (420); the longitudinal adjusting seat (420) is of a box structure and comprises a longitudinal support (421), a vertical plate (422), a longitudinal nut seat (423) and a longitudinal nut (424);

the longitudinal support (421) consists of an upper plate and a lower plate, and a framework reinforcement is arranged between the upper plate and the lower plate; the two sides of the longitudinal support (421) are provided with vertical plates (422), the outer sides of the vertical plates (422) are provided with longitudinal screw bases (423), and the longitudinal screw bases (423) are provided with longitudinal screws (424) for assembling the longitudinal adjusting jackscrews (410).

9. An adjustable mount for use in manufacturing a swivel device according to claim 8, wherein:

the main shaft support (500) comprises a bottom plate (510), an arc plate (520), a support plate (530), rib plates (540) and connecting rib plates (550);

the main shaft support (500) is formed by assembling two 1/4 circular arcs into a 1/2 circular arc, the bottom plate (510) is a long strip plate, and the main shaft support (500) is in threaded connection with the longitudinal adjustment seat (420) through the bottom plate (510); the support plate (530) is arranged on the bottom plate (510), and the support plate (530) lifts the arc plate (520), wherein the arc of the arc plate (520) is 1/4 of the arc; the two sides of the support plate (530) are provided with the rib plates (540) for reinforcing the support of the arc plate (520), the lower end of the arc plate (520) is provided with the connecting rib plates (550), the connecting rib plates (550) are used for plugging the bottom plate (510) and the support plate (530), the two main shaft supports (500) are in threaded connection through the connecting rib plates (550), and the two 1/4 circular arcs are assembled to form a main shaft of the 1/2 circular arc support rotary equipment.

10. An adjustable mount for use in the manufacture of rotary equipment as claimed in claim 1, wherein:

the transverse adjusting jackscrews (310) and the longitudinal adjusting jackscrews (410) are bolts, and pillow blocks are machined at the ends of the bolts.