CN112139249A - Nut bidirectional locking device and combined roller - Google Patents

Abstract

The invention provides a nut bidirectional locking device and a combined roller, wherein the nut bidirectional locking device is used for clamping an accessory on a shaft and comprises a shaft shoulder, a locking nut, a driving mechanism and a fixing mechanism; the shaft shoulder is arranged in the middle of the shaft, and the two ends of the shaft are provided with locking nuts; the driving mechanism is used for driving the locking nut to be sleeved on the shaft on two sides of the shaft shoulder in a locking manner; the fixing mechanism is connected with the shaft shoulder. Compared with the prior art, the locking device has the characteristics of high efficiency, simple and reliable structure, long service life and low cost, and is particularly suitable for application occasions with narrow locking space of multi-segmentation rolling of bars and wires; the axial jacking force of the combined roller is shared by adopting bidirectional locking, so that the unilateral minimum jacking force is reduced by 40%, the assembling reliability of the combined roller is greatly improved, and the working capacity of the combined roller under the condition of narrow design locking space is improved.

Description

Nut bidirectional locking device and combined roller

Cross Reference to Related Applications

The present application claims priority from chinese patent application CN202010849062.5 entitled "a nut bi-directional locking device and combination roll" filed 21/08/2020, which is incorporated herein by reference in its entirety.

Technical Field

The invention relates to the technical field of roll shaft machining, in particular to a nut bidirectional locking device and a combined roll.

Background

The hard alloy combined roller is usually applied to rolling round rods and deformed steel bars made of high-strength, shock-resistant and special steel materials. The hard alloy is developed to be used as the material of the outer layer of the roller by utilizing the characteristics of good heat conduction performance, good red hardness, good thermal fatigue resistance, good wear resistance, high strength and the like of the hard alloy. The mode of combining the hard alloy outer layer and the high-toughness roll core not only keeps the excellent characteristics of high hardness, high wear resistance, thermal cracking resistance and the like of the outer layer, but also can fully play the roles of high strength and high toughness of the roll core, thereby realizing the good combination of double materials, improving the comprehensive performance of the roll, ensuring the service life and high reliability of the roll and improving the quality of rolled materials. The common combination form of the hard alloy outer layer and the high-toughness roll core is that the core shaft and the hard alloy roll collar are subjected to adhesive bonding, interference fit assembly, hydraulic nut locking, CIC key locking and the like. A composite cemented carbide roll is disclosed in patent application No. 201520589816.2. Patent ZL201220292180.1 discloses a pre-tensioned locking device for clamping a part on a shaft. However, the devices in chinese patent ZL201220292180.1 and the patent application No. 201110107442.2 are complicated to assemble and disassemble, the assembling pressure is not constant, and the design space is insufficient, so that the assembling reliability is low, the overall strength and quality of the product are reduced, the abnormal working condition resistance and the working capacity under heavy rolling of the product are reduced, the combined connection strength is reduced, the service life is reduced, and the production cost is increased.

Disclosure of Invention

In view of the above-mentioned disadvantages of the prior art, including complicated disassembling operation of the roller shaft and inconstant assembling pressure, the present invention provides a bidirectional nut locking device, which can be used for assembling a roller shaft for bidirectional nut locking and has good stability of the assembling pressure.

The invention provides a nut bidirectional locking device which is used for clamping an accessory on a shaft and comprises a shaft shoulder, a locking nut, a driving mechanism and a fixing mechanism; the shaft shoulder is arranged in the middle of the shaft, and the two ends of the shaft are provided with locking nuts; the driving mechanism is used for driving the locking nut to be sleeved on the shaft on two sides of the shaft shoulder in a locking manner; the fixing mechanism is connected with the shaft shoulder.

Preferably, the driving mechanism comprises a hydraulic torque wrench and a transition sleeve, one end of the hydraulic torque wrench is connected with the hydraulic station, and the other end of the hydraulic torque wrench is connected with the locking nut through the transition sleeve.

Preferably, the shape of the inner wall of the transition sleeve corresponds to the shape of the outer wall of the locking nut.

Preferably, a plurality of planes parallel to the axis of the shaft are arranged on the side surface of the shaft shoulder, and the fixing mechanism is tightly propped against the planes to form fastening connection with the shaft shoulder.

Preferably, the fixing mechanism comprises a base and a plurality of groups of tightly-pushing mechanisms arranged on the base, and the plurality of groups of tightly-pushing mechanisms are used for tightly pushing the shaft shoulder.

Preferably, each group of the jacking mechanism comprises a jacking rod and a jacking rod sleeve, the jacking rod sleeve is arranged on the base, and one end of the jacking rod penetrates through the sleeve to jack the shaft shoulder tightly.

Preferably, the device further comprises a supporting plate which can be fixedly arranged, and the base is arranged on the supporting plate.

The invention adopts the frictional force locking principle, key components, namely the hard alloy roll collar and the mandrel are connected without a key, and all components are locked by the frictional force between end surfaces. The middle of the mandrel is manufactured into a shaft shoulder integrated with the mandrel, a plurality of planes are symmetrically arranged on the side surface of the shaft shoulder and used as reaction force application points, locking nuts are respectively screwed from two ends of the mandrel, and the hydraulic wrench is used for applying enough axial tightening force to lock each component on the mandrel from two ends. The device has the characteristics of high efficiency, simple and reliable structure, long service life and low cost, and is particularly suitable for application occasions with narrow locking space in multi-segmentation rolling of bars and wires.

The invention also provides a combined roller which comprises a mandrel, accessories and a locking nut, wherein a shaft shoulder is arranged in the middle of the mandrel, the accessories are sleeved on the mandrel on two sides of the shaft shoulder, and the accessories comprise a roller ring and a spacing ring which are arranged at intervals; both ends of the mandrel are provided with external threads and locking nuts, and the locking nuts and the shaft shoulders clamp the accessories on the mandrel.

Preferably, the inner ring surface of the spacer ring is connected with the outer wall of the mandrel through a key and a key slot.

Preferably, the roller ring is free of a bond with the outer wall of the mandrel.

Preferably, the roll collar is made of cemented carbide material and the spacer ring is made of wrought alloy structural steel.

The combined roller adopts bidirectional locking to solve the problem of locking failure caused by insufficient thread strength due to short screwing length of the threads, axial jacking force is shared by the bidirectional locking, so that the unilateral minimum jacking force is reduced by 40%, the assembling reliability of the combined roller is greatly improved, and the working capacity of the combined roller under the condition of narrow design locking space is improved. And under the condition of the same screwing length, the axial locking force is reduced by 40 percent, so that the thread strength meets the use requirement. Under the condition that the design space is narrowed by 20%, the purpose of axially locking a plurality of hard alloy roll collars is achieved through bidirectional locking.

Compared with the prior art, the nut bidirectional locking device and the combined roller provided by the invention have the following advantages:

1. the nut bidirectional locking device has high combination and connection strength and is widely applied to application occasions with narrow design space (multi-segmentation rolling);

2. the locking nut has high strength, so that the locking nut can be prevented from cracking and crossing, the reliability of assembly is greatly improved, and the strength and the quality of the product in abnormal working condition resistance are improved;

3. the combined roller has high combined connection strength, convenient assembly and disassembly, simple structure and constant assembly pressure;

4. the design space of the combined roller is increased by more than 20 percent, the problems of the reduction of the overall strength and the quality of the product caused by the insufficient design space can be solved, and the service life of the combined roller is prolonged;

5. the combined roller adopts bidirectional locking to solve the problem that the locking failure is caused by insufficient thread strength due to short screwing length of the threads, axial jacking force is shared by the bidirectional locking, so that the unilateral minimum jacking force is reduced by 40%, the reliability of the assembly of the combined roller is greatly improved, and the working capacity of the combined roller under the condition of narrow design locking space is improved.

The features mentioned above can be combined in various suitable ways or replaced by equivalent features as long as the object of the invention is achieved.

Drawings

The invention will be described in more detail hereinafter on the basis of non-limiting examples only and with reference to the accompanying drawings. Wherein:

FIG. 1 is a schematic structural view of a nut bi-directional locking device equipped with a spindle and a fitting according to an embodiment of the present invention;

FIG. 2 is a top view of the bi-directional nut locking device;

FIG. 3 is a cross-sectional view of the shoulder;

FIG. 4 is a schematic view of a lock nut;

FIG. 5 is a schematic view of a combination roll provided in an embodiment of the present invention;

fig. 6 is a partial cross-sectional view of the combination roll.

Description of reference numerals:

1. a hydraulic wrench; 2. a mandrel; 3. locking the nut; 4. a key; 5. a cemented carbide roll collar; 6. a slider; 7. a spacer ring; 8. a jack rod sleeve; 9. a shaft shoulder; 10. a slide block backing plate; 11. a top rod; 12. a base; 13. A support plate; 14. an accommodating space; 15. a lower lock nut; 16. a reaction force support surface; 17. the side of the shaft shoulder; 18. a transition sleeve.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and more complete, the following technical solutions of the present invention will be described in detail, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the specific embodiments of the present invention belong to the protection scope of the present invention.

FIG. 1 is a schematic view of a nut bi-directional locking device; fig. 2 is a top view of the nut bi-directional locking device, with the drive mechanism and shoulder not shown in fig. 2. As shown in fig. 1 and 2, the present embodiment provides a nut bidirectional locking device (hereinafter referred to as locking device) for clamping a fitting on a shaft, the locking device includes a shoulder 9, a lock nut, a driving mechanism and a fixing mechanism. The shaft shoulder 9 is arranged in the middle of the shaft, external threads matched with the locking nuts are respectively arranged at two ends of the shaft, and the locking nuts are respectively arranged at two ends of the shaft; the number of the accessories needing to be clamped on the shaft can be multiple, the multiple accessories are respectively sleeved on the shafts on the two sides of the shaft shoulder 9, and the accessories are positioned between the shaft shoulder 9 and the locking nut; the driving mechanism is used for driving the locking nut to lock the accessory; the fixing mechanism is connected to the shoulder 9, and fixes the shaft by fixing the shoulder 9.

The drive mechanism includes a hydraulic torque wrench and a transition sleeve 18. The first end of the hydraulic torque wrench is connected with the hydraulic station through an oil pipe; the second end of the hydraulic torque wrench is connected to the transition sleeve 18 and then connected to the locking nut through the transition sleeve 18. The shape and size of the inner wall of the transition sleeve 18 corresponds to the shape and size of the outer wall of the lock nut. As shown in fig. 4, the locking nut is a dodecagonal nut, and correspondingly, the inner wall of the transition sleeve 18 is shaped like a dodecagonal structure, and the size of the dodecagonal nut is matched with that of the dodecagonal nut. The external shape of the locking nut can be set into a polygon such as a hexagon, an octagon, a decagon, a dodecagon, a decagon and the like according to actual needs. The inner wall of the corresponding transition sleeve 18 may also be arranged in a polygon such as a hexagon, an octagon, a decagon, a dodecagon, a decagon, etc.

The fastening means are intended to fasten a shoulder 9 on the shaft for transmitting torque. The fixing mechanism comprises a base 12 and a plurality of groups of jacking mechanisms arranged on the base 12, each group of jacking mechanisms comprises a jacking rod sleeve 8 and a jacking rod 11, wherein an internal thread is arranged in the jacking rod sleeve 8, a corresponding external thread is arranged on the jacking rod 11, the jacking rod 11 is arranged in the jacking rod sleeve 8, the jacking rod sleeve 8 can be penetrated by one end of the jacking rod 11 through rotating the jacking rod 11, and a jacking shaft shoulder 9 can be jacked tightly. In order to improve the applicability of the device, a slide block 6 can be arranged in the tightening mechanism, the slide block 6 is arranged between a top rod 11 and a shaft shoulder 9 with a fixing function, and the top rod 11 is selected to push the corresponding slide block 6 to tightly press a side surface 17 of the shaft shoulder, so that the fixing mechanism and the shaft shoulder 9 form a fastening connection. The shape and size of the sliding block 6 can be determined according to the shape and size of the shaft shoulder 9, for example, when the side surface 17 of the shaft shoulder is a circumferential surface, the end surface of the sliding block 6 connected with the ejector rod 11 is a plane, and the end surface of the sliding block 6 connected with the shaft shoulder 9 is an arc surface corresponding to the circumferential surface, so that the stress area of the shaft shoulder 9 is increased, and the connection stability of the shaft shoulder 9 and the fixing device is improved. And when the radial height of the accessories arranged on the two sides of the shaft shoulder 9 is higher than that of the shaft shoulder 9, the accessories on the two opposite sides of the shaft shoulder 9 are sunken, at the moment, the sliding block 6 can be arranged into a convex block shape, and the smaller end of the convex block can smoothly stretch into the sunken shaft shoulder 9 to tightly push against the shaft shoulder 9. In another embodiment, a slide pad 10 may be provided under the slide 6 for flexible adjustment of the height of the slide 6.

As shown in fig. 2, the base 12 is a square structure, and the middle part of the base 12 is provided with an accommodating space 14 into which the accommodating shaft and the shaft shoulder 9 extend, in this embodiment, the accommodating space 14 is a stepped hole which penetrates through the base 12 from top to bottom, wherein the upper hole is larger than the lower hole, and a step is formed in the stepped hole; four through holes which horizontally penetrate through the base 12 are symmetrically formed in the wall of the upper stepped hole, four groups of jacking mechanisms are arranged, and a jacking rod sleeve 8 is fixedly arranged in each through hole. The ejector rod 11 is inserted into the ejector rod sleeve 8, and the ejector rod 11 is rotated to enable one end of the ejector rod 11 to penetrate through the ejector rod sleeve 8 and extend into the stepped hole; the shaft to be assembled extends into a stepped hole in the middle of the base 12 and enables the shaft shoulder 9 to be located in an upper hole of the stepped hole, the sliding block 6 is placed on a step of the stepped hole and located between the ejector rods 11 and the shaft shoulder 9, and the ejector rods 11 are adjusted to respectively push the corresponding sliding blocks 6 to tightly push the side faces 17 of the shaft shoulder, so that the fixing mechanism and the shaft shoulder 9 are tightly connected.

In the orientation of fig. 1, two surfaces of the shoulder 9 perpendicular to the axis are referred to as end surfaces of the shoulder 9, and an outer circumferential surface of the shoulder 9 parallel to the axis is referred to as a side surface 17 of the shoulder, and in another embodiment, in order to improve the stability of the connection of the fixing mechanism and the shoulder 9, it is preferable that, as shown in fig. 3, a plurality of planes parallel to the axis of the shaft are provided on the side surface 17 of the shoulder, the plurality of planes are symmetrically distributed with respect to the axis, so that the shoulder 9 has a square flat shape, and the planes are reaction force supporting surfaces 16 of the shoulder 9, and the number of the planes is the same as the number of groups of the tightening mechanism. The slide block 6 is pushed by the ejector rod 11 to tightly push against the reaction force supporting surface 16 on the shaft shoulder 9, so that the fixing mechanism and the shaft shoulder 9 form a fastening connection, at the moment, one end of the slide block 6 is connected with the ejector rod 11, and the other end of the slide block is connected with the reaction force supporting surface 16 of the shaft shoulder 9.

In order to facilitate the fixing of the base 12, the base further comprises a support plate 13 which can be fixedly arranged, and the base 12 is arranged on the support plate 13. As shown in fig. 1, the outer wall of the lower portion of the base 12 is provided with a step boss, the step boss is of a non-circular structure with a large top and a small bottom, correspondingly, the support plate 13 is provided with a through hole penetrating through the plate body of the support plate from top to bottom, the shape and the size of the through hole are matched with the lower portion of the step boss, the lower drawing of the step boss is inserted into the through hole, and due to the structural limitation of the inner wall of the through hole, the base 12 can be kept static without rotating under the action of the torque applied by.

The shaft referred to in the above embodiments may be the roll mandrel 2 and the fittings may be the cemented carbide roll rings 5 and the spacer rings 7.

As shown in fig. 1 and 2, when the nut bidirectional locking device of the present invention clamps a component on a shaft, first, the mandrel 2 is vertically inserted into the receiving space 14 of the base 12, and the mandrel 2 is pressed against the reaction force supporting surface 16 on the shoulder 9 by the top rod 11 and the slide block 6 to fix the mandrel 2 on the base 12. And then sequentially installing a hard alloy roll collar 5 and a spacer ring 7, screwing an upper locking nut 3, installing a transition sleeve 18 on the upper locking nut 3, hoisting a hydraulic torque wrench on the transition sleeve 18, connecting the hydraulic torque wrench with a hydraulic station through an oil pipe, setting the highest pressure value of the hydraulic station as a required pressure value, and generating a constant required torsional moment according to the set pressure value by the hydraulic torque wrench to act on the locking nut through the transition sleeve 18. And then a hydraulic station is started to supply pressure oil, a hydraulic torque wrench applies proper torque to tighten the upper lock nut 3, the mandrel 2 is stretched by axial tension or the thread of the mandrel 2 is elastically deformed, so that the hard alloy roller ring 5 and the spacer ring 7 of the fitting are subjected to enough axial jacking force, and the hard alloy roller ring 5 and the spacer ring 7 are mutually static by means of the friction force between the hard alloy roller ring 5 and the spacer ring 7 so as to be fixed on the mandrel 2. The upper end hard alloy roll collar 5 spacer ring 7 is assembled. And (3) turning the mandrel 2 around and erecting, and repeating the assembling steps to complete the assembly of the lower-end hard alloy roll collar 5 and the spacer ring 7. When the mandrel 2 with the nut locking device needs to be disassembled, the upper locking nut 3 or the lower locking nut 15 can be disassembled by reversely rotating the hydraulic torque wrench to provide reverse torque, and then the hard alloy roll collar 5 and the spacer ring 7 are sequentially disassembled.

The invention also provides a combined roller, which comprises a mandrel 2, accessories and a locking nut, wherein the middle part of the mandrel 2 is provided with a shaft shoulder 9, the accessories are sleeved on the mandrel 2 at two sides of the shaft shoulder 9, and the accessories comprise hard alloy roller rings 5 and spacing rings 7 which are arranged at intervals so that at least one end surface of each hard alloy roller ring 5 is tightly attached to the end surface of the spacing ring 7; the both ends of dabber 2 set up and all have external screw thread and lock nut, screw up lock nut and make carbide collars 5 and spacer ring 7 receive the axial top tight power that is enough big to make the accessory by lock nut and the centre gripping of shaft shoulder 9 on dabber 2. The number of the hard alloy roll rings 5 and the number of the spacing rings 7 are at least two, and the hard alloy roll rings and the spacing rings can be specifically arranged according to actual needs. As shown in fig. 5 and 6, four cemented carbide roll collars 5 and two spacer rings 7 are provided, and two cemented carbide roll collars 5 and one spacer ring 7 are respectively sleeved on both sides of the shaft shoulder 9. On one side of the shaft shoulder 9, the spacer ring 7 is arranged between the two hard alloy roll rings 5, the hard alloy roll ring 5 close to the shaft shoulder 9 is positioned between the shaft shoulder 9 and the spacer ring 7, and two end surfaces of the hard alloy roll ring 5 are respectively connected with one end surface of the shaft shoulder 9 and one end surface of the spacer ring 7; and the other hard alloy roller ring 5 far away from the shaft shoulder 9 is positioned between the spacer ring 7 and the lock nut, and two end surfaces of the hard alloy roller ring 5 are respectively connected with the other end surface of the spacer ring 7 and the end surface of the lock nut. The inner ring surface of the spacer ring 7 is provided with a key groove, a key 4 is arranged at the position, corresponding to the spacer ring 7, on the mandrel 2, and the spacer ring 7 is connected with the outer wall of the mandrel 2 through the key 4 and the key groove. The hard alloy roller ring 5 and the spacer ring 7 are subjected to enough axial jacking force by tightening the locking nut, and the hard alloy roller ring 5 and the spacer ring 7 are mutually static and fixed on the shaft by means of the friction force between the hard alloy roller ring 5 and the spacer ring 7.

In a preferred embodiment, the cemented carbide collar 5 is keyless-connected to the outer wall of the mandrel 2; the inner side surface of the hard alloy roll collar 5 connected with the outer wall of the mandrel 2 is a smooth surface.

In the above embodiments, the cemented carbide roller ring 5 is made of a cemented carbide material; the spacer ring 7 can be made of quenched and tempered alloy structural steel, and the quenched and tempered alloy structural steel has the advantages of machinability, high strength and good toughness.

In the scheme, as the bidirectional locking is adopted, the axial locking force is reduced by 40 percent under the condition of the same screwing length of the threads, so that the thread strength meets the use requirement. Under the condition that the design space is narrowed by 20%, the purpose of axially locking a plurality of hard alloy roll collars 5 is achieved through bidirectional locking.

Finally, it should be noted that: the above embodiments and examples are only used to illustrate the technical solution of the present invention, but not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments and examples, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments or examples may still be modified, or some of the technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments or examples of the present invention.

Claims (10)

1. A nut bidirectional locking device is used for clamping an accessory on a shaft and is characterized by comprising a shaft shoulder, a locking nut, a driving mechanism and a fixing mechanism; the shaft shoulder is arranged in the middle of the shaft, and the two ends of the shaft are provided with locking nuts; the driving mechanism is used for driving the locking nut to be sleeved on the shaft on two sides of the shaft shoulder in a locking manner; the fixing mechanism is connected with the shaft shoulder.

2. The bi-directional nut locking device as claimed in claim 1, wherein said driving mechanism includes a hydraulic torque wrench and a transition sleeve, one end of said hydraulic torque wrench is connected to a hydraulic station, and the other end of said hydraulic torque wrench is connected to said locking nut through said transition sleeve.

3. The bi-directional nut locking apparatus as claimed in claim 2, wherein the inner wall of the transition sleeve has a shape corresponding to the outer wall of the lock nut.

4. The bi-directional nut locking device as claimed in claim 1, wherein said shoulder has a plurality of flat surfaces disposed on its side surface parallel to the axis of said shaft, and said fastening means is fastened to said shoulder by pressing said flat surfaces against said shoulder.

5. The bidirectional locking device for nuts as claimed in any one of claims 1 to 4, wherein said fixing mechanism includes a base and a plurality of sets of tightening mechanisms disposed on said base, said plurality of sets of tightening mechanisms being configured to tighten said shoulders.

6. The bi-directional nut locking device as claimed in claim 5, wherein each set of tightening mechanisms includes a pin and a pin sleeve, the pin sleeve is disposed on the base, and one end of the pin penetrates the sleeve to tighten the shoulder.

7. The bi-directional nut locking apparatus as claimed in claim 5, further comprising a support plate capable of being fixedly disposed, wherein the base is disposed on the support plate.

8. The combined roller is characterized by comprising a mandrel, accessories and a locking nut, wherein a shaft shoulder is arranged in the middle of the mandrel, the accessories are sleeved on the mandrel on two sides of the shaft shoulder, and the accessories comprise a roller ring and a spacing ring which are arranged at intervals; both ends of the mandrel are provided with external threads and locking nuts, and the locking nuts and the shaft shoulders clamp the accessories on the mandrel.

9. The compound roll of claim 8, characterized in that the inner annular surface of the spacer ring is connected to the outer wall of the mandrel by a key and keyway.

10. The compound roll of claim 8 wherein the collars are keyless in connection with the outer wall of the mandrel.

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