阅读说明：本技术 一种外球面轴承装配系统 (Insert bearing assembly system ) 是由 陈燕丽 梁斌 于 2020-02-19 设计创作，主要内容包括：本发明公开了一种外球面轴承装配系统,所述系统包括滚子输送装置和装配装置,所述系统还包括混合管和润滑脂输送装置,所述混合管的一端与所述润滑脂输送装置相连通,所述混合管的中部与所述滚子输送装置相连通,所述混合管的另外一端与所述装配装置相连通。本发明的外球面轴承装配系统,装配效率更高,并且方便装配好的外球面轴承的包装和运输。(The invention discloses an assembly system of an outer spherical bearing, which comprises a roller conveying device and an assembly device, and further comprises a mixing pipe and a lubricating grease conveying device, wherein one end of the mixing pipe is communicated with the lubricating grease conveying device, the middle part of the mixing pipe is communicated with the roller conveying device, and the other end of the mixing pipe is communicated with the assembly device. The assembly system of the outer spherical bearing has higher assembly efficiency and is convenient for packaging and transporting the assembled outer spherical bearing.)

1. An insert bearing assembly system comprising a roller conveyor (4) and an assembly device (7), characterized in that: the system also comprises a mixing pipe (3) and a lubricating grease conveying device, wherein one end of the mixing pipe (3) is communicated with the lubricating grease conveying device, the middle part of the mixing pipe (3) is communicated with the roller conveying device (4), and the other end of the mixing pipe (3) is communicated with the assembling device (7);

the lubricating grease conveying device comprises a lubricating grease storage tank (1), the lubricating grease storage tank (1) is communicated with an output pump (2), and the output end of the output pump (2) is communicated with the mixing pipe (3);

the roller conveying device (4) is communicated with a roller conveying pipe (5), a gap is formed in the middle of the mixing pipe (3), the roller conveying pipe (5) is inserted into the gap, an expanding part is formed in the inner wall of one end, communicated with the mixing pipe (3), of the roller conveying pipe (5), a soft blocking piece (8) is fixedly arranged in the expanding part, and a through hole (9) is formed in the middle of the soft blocking piece (8);

the assembly device (7) is internally provided with a conveyor belt, and the conveyor belt is fixedly provided with a plurality of outer ring containers.

2. An insert bearing assembly system as claimed in claim 1, wherein: the inner diameter of the through hole (9) is smaller than the diameter of the roller (10).

3. An insert bearing assembly system as claimed in claim 2, wherein: the roller conveying pipe (5) is positioned below the mixing pipe (3).

4. An insert bearing assembly system according to claim 3, wherein: the mixing pipe (3) is communicated with the assembling device (7) through a flexible guide pipe (6).

5. An insert bearing assembly system as claimed in claim 1, wherein: the outer lane container includes tray (17) and can dismantle bottom plate (13) of setting on tray (17), a through-hole has been seted up at the middle part of bottom plate (13), fixed canning (12) and spacing ring (14) of being provided with on bottom plate (13), the clearance that is used for holding the outer lane is left between canning (12) and the spacing ring (14) in the week side that canning (12) are located spacing ring (14), the internal diameter of spacing ring (14) equals with the aperture of through-hole, the inboard fixedly connected with of spacing ring (14) a plurality of is along radially extending's bracing piece (16), and all bracing pieces (16) are connected jointly on a connection pad (15) with the coaxial setting of spacing ring (14).

Technical Field

The invention relates to the field of an outer spherical bearing, in particular to an outer spherical bearing assembling system.

Background

The outer spherical ball bearing is a kind of deep groove ball bearing and features that its outer ring has spherical outer surface and may be fitted into the corresponding concave spherical surface of bearing seat to regulate the center. The spherical outer bearing is mainly used for bearing radial and axial combined loads mainly comprising radial loads, and is generally not suitable for bearing axial loads independently. Although its basic performance is similar to that of deep groove ball bearing, because the bearing is mostly used in the rough machinery, the installation and positioning are not accurate enough, the shaft and the axis of the seat hole are poor in centering performance, or the shaft is long and the deflection is large, and the bearing itself is not high enough in precision, and some structures are rough, the actual performance is rather discounted than that of the deep groove ball bearing with the same specification.

As a modification of the deep groove ball bearing, the grease lubrication is a common lubrication method for the outer spherical bearing because the grease lubrication is not required to be continuously supplied because the precision requirement for the outer spherical bearing is not high in practical use, which is the same as that for the deep groove ball bearing. In the prior art, the grease lubricated outer spherical bearing is mostly assembled in a mode of firstly assembling the outer spherical bearing and then filling lubricating grease, so that on one hand, the process steps mostly cause lower assembly efficiency, and on the other hand, the lubricating grease is easily left outside the outer spherical bearing, thereby causing inconvenience to subsequent packaging and transportation.

Disclosure of Invention

In order to solve the defects in the prior art, the invention provides the assembly system of the outer spherical bearing, which has higher assembly efficiency and is convenient for the packaging and transportation of the assembled outer spherical bearing.

In order to achieve the purpose, the invention adopts the specific scheme that:

an assembly system for an insert bearing comprises a roller conveying device and an assembly device, and further comprises a mixing pipe and a lubricating grease conveying device, wherein one end of the mixing pipe is communicated with the lubricating grease conveying device, the middle of the mixing pipe is communicated with the roller conveying device, the other end of the mixing pipe is communicated with the assembly device, the lubricating grease conveying device comprises a lubricating grease storage tank, the lubricating grease storage tank is communicated with an output pump, the output end of the output pump is communicated with the mixing pipe, the roller conveying device is communicated with a roller conveying pipe, the middle of the mixing pipe is provided with a notch, the roller conveying pipe is inserted into the notch, the inner wall of one end, communicated with the mixing pipe, of the roller conveying pipe is provided with an expanding part, a soft separation blade is fixedly arranged in the expanding part, and the middle of the soft separation blade is provided with a through hole, the assembly device (7) is internally provided with a conveyor belt, and the conveyor belt is fixedly provided with a plurality of outer ring containers.

Preferably, the inner diameter of the through hole is smaller than the diameter of the roller.

Preferably, the roller delivery tube is located below the mixing tube.

Preferably, the mixing tube is in communication with the fitting device via a flexible conduit.

Preferably, the outer lane container includes the tray and can dismantle the bottom plate that sets up on the tray, a through-hole has been seted up at the middle part of bottom plate, fixed canning and the spacing ring of being provided with on the bottom plate, the canning is located the week side of spacing ring and leaves the clearance that is used for holding the outer lane between canning and the spacing ring, the internal diameter of spacing ring equals with the aperture of through-hole, the inboard fixedly connected with a plurality of spacing ring is along the bracing piece of radial extension, and all bracing pieces are connected jointly on a connection pad with the coaxial setting of spacing ring.

The invention can make the roller and the lubricating grease enter the raceway of the outer ring synchronously when the outer spherical bearing is assembled, and the lubricating grease does not need to be refilled after the retainer is installed, thereby simplifying the assembly process and reducing the assembly cost on one hand, and avoiding the lubricating grease from generating residue on the outer wall of the outer spherical bearing on the other hand, and being convenient for packaging and transportation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an assembly system according to an embodiment of the present invention.

FIG. 2 is a schematic view showing the connection of the mixing tube and the roller duct.

FIG. 3 is a schematic view of the shape of the flexible baffles of the roller during entry into the mixing tube.

Fig. 4 is a schematic illustration of the mixture of the roller and grease in the mixing tube.

Fig. 5 is a schematic structural view of the outer ring container.

Reference numerals: 1-lubricating grease storage tank, 2-output pump, 3-mixing pipe, 4-roller conveying device, 5-roller conveying pipe, 6-flexible guide pipe, 7-assembling device, 8-flexible baffle, 9-through hole, 10-roller, 11-lubricating grease, 12-sheath, 13-bottom plate, 14-limiting ring, 15-connecting disc, 16-supporting rod, 17-tray and 18-inserted rod.

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 to 4, fig. 1 is a schematic structural diagram of an assembly system according to an embodiment of the present invention, fig. 2 is a schematic structural diagram of a connection manner of a mixing tube and a roller delivery tube, fig. 3 is a schematic structural diagram of a flexible baffle in a process of a roller entering the mixing tube, fig. 4 is a schematic structural diagram of a mixture of the roller and grease in the mixing tube, and fig. 5 is a schematic structural diagram of an outer ring container.

The utility model provides an insert bearing assembly system, includes roller conveyor 4 and assembly quality 7, and the system still includes hybrid tube 3 and lubricating grease conveyor, and the one end of hybrid tube 3 is linked together with lubricating grease conveyor, and the middle part of hybrid tube 3 is linked together with roller conveyor 4, and the other end of hybrid tube 3 is linked together with assembly quality 7.

In the use of the embodiment, the grease 11 is conveyed into the mixing pipe 3 by the grease conveying device, the rollers 10 are conveyed into the mixing pipe 3 by the roller conveying device 4, the grease 11 and the rollers 10 are mixed in the mixing pipe 3, the rollers 10 are uniformly distributed along the axial direction of the mixing pipe 3 after mixing, the grease 11 is filled between two adjacent rollers 10, because the grease 11 is thick, the subsequent grease 11 is able to push the mixture of roller 10 and grease 11 into the fitting device 7, the rollers 10 and the grease 11 enter the raceway of the outer ring simultaneously when the spherical outer bearing is assembled, does not need to be refilled with lubricating grease after the retainer is installed, simplifies the assembly process, reduces the assembly cost on one hand, in addition, the grease 11 can be prevented from remaining on the outer wall of the outer spherical bearing, and the packaging and transportation are facilitated.

It should be noted that, the outer spherical bearing is a variant of the deep groove ball bearing, and the overall structure is not very different, so the roller conveying device 4 and the assembling device 7 in this embodiment can both adopt devices adopted for assembling the deep groove ball bearing in the prior art, which are mature prior art, and are not described herein again.

In this embodiment, the grease feeding device includes a grease storage tank 1, the grease storage tank 1 is communicated with an output pump 2, and an output end of the output pump 2 is communicated with a mixing pipe 3. The output pump 2 needs to be a pump capable of adjusting the output speed so as to be able to control the filling amount of the grease 11 between the adjacent two rollers 10.

In this embodiment, the roller conveying device 4 is communicated with a roller conveying pipe 5, a gap is formed in the middle of the mixing pipe 3, the roller conveying pipe 5 is inserted into the gap, an expanding portion is formed on the inner wall of one end of the roller conveying pipe 5, which is communicated with the mixing pipe 3, a flexible baffle 8 is fixedly arranged in the expanding portion, and a through hole 9 is formed in the middle of the flexible baffle 8. Because the roller conveying pipe 5 is communicated with the mixing pipe 3, and the mixing pipe 3 contains a large amount of grease 11, although the grease 11 will not flow into the roller conveying pipe 5, but will cause the grease 11 to adhere to the surface when the roller 10 is output from the roller conveying pipe 5, which causes the amount of the grease 11 filled between two adjacent rollers 10 to be not controlled well, the present embodiment adopts the way of providing the soft baffle 8 at the communication position of the roller conveying pipe 5 and the mixing pipe 3, the through hole 9 is used as the passage of the roller 10, which ensures that the roller 10 can smoothly enter the mixing pipe 3, and the soft baffle 8 can deform to fit the surface of the roller 10 when the roller 10 passes through the through hole 9, which prevents the grease 11 from entering the roller conveying pipe 5 from between the roller 10 and the hole wall of the through hole 9, and when one roller 10 enters the mixing pipe 3, a portion of the subsequent roller 10 can enter the recovered through hole 9 to close it, continuing to avoid grease 11 entering the roller duct 5.

In this embodiment, the inner diameter of the through-hole 9 is smaller than the diameter of the roller 10. The smaller internal diameter of the through bore 9 ensures that a portion of the roller 10 can extend into the through bore 9 to close the through bore 9 and prevent grease 11 from entering the roller tube 5.

In this embodiment, the roller feed pipe 5 is located below the mixing pipe 3. Because the gravity borne by the roller 10 is greater than the gravity borne by the grease 11 under the same volume, the roller conveying pipe 5 is arranged below the mixing pipe 3, so that the roller 10 in the roller conveying pipe 5 can be prevented from extruding the soft baffle 8 under the action of gravity, and the interference on the flow of the grease 11 in the mixing pipe 3 can be avoided.

In this embodiment, mixing tube 3 communicates with fitting device 7 via flexible conduit 6. The flexible conduit 6 can control the flow direction of the mixture of the roller 10 and the grease 11, so that the flow direction is not limited by space, and the layout and the assembly of field equipment are more convenient.

In this embodiment, considering that the mixture of the roller 10 and the grease 11 is liable to leave residues on the work platform, the conventional way of transporting the bearing by means of a conveyor belt is liable to cause a large amount of grease to adhere to the conveyor belt, the present embodiment modifies the conveyor belt in the assembly device 7, the conveying belt is fixedly provided with a plurality of outer ring containers, each outer ring container comprises a tray 17 and a bottom plate 13 detachably arranged on the tray 17, a through hole is formed in the middle of the bottom plate 13, a sheath 12 and a limiting ring 14 are fixedly arranged on the bottom plate 13, the sheath 12 is positioned on the peripheral side of the limiting ring 14, a gap used for accommodating the outer ring is reserved between the sheath 12 and the limiting ring 14, the inner diameter of the limiting ring 14 is equal to the aperture of the through hole, a plurality of supporting rods 16 extending along the radial direction are fixedly connected to the inner side of the limiting ring 14, and all the supporting rods 16 are commonly connected to a connecting disc 15 coaxially arranged with the limiting ring 14. During assembly, the outer ring is placed in the gap and the inner ring is placed on the support bar 16, and when the mixture of the roller 10 and the grease 11 is fed between the inner and outer rings, some of the grease 11 may fall down through the gap and through-holes between the support bar 16 into the tray 17, thereby avoiding contamination of the conveyor belt and the worktop, and after a certain period of use, the bottom plate 13 and the tray 17 may be separated to clean the grease 11 in the tray 17. In fact, because the grease 11 has poor fluidity, the grease 11 that falls down is very little in practice, and therefore the tray 17 can be used for a long time after a single cleaning, without the need for frequent cleaning of the tray 17.

The assembling method of the present assembling system includes the following steps S1 to S4:

s1, the grease feeding device feeds the grease 11 into the mixing tube 3.

S2, after the part of the mixing tube 3 corresponding to the roller conveyor 4 is filled with the grease 11, the roller conveyor 4 conveys the roller 10 into the mixing tube 3.

S3, the grease transfer device continuously transfers the grease 11 into the mixing tube 3, and the grease 11 transfers the mixture of the roller 10 and the grease 11 in the mixing tube 3 to the flexible guide tube 6.

S4, the mixture of roller 10 and grease 11 in flexible conduit 6, is pushed into fitting device 7 by the subsequent grease 11 in mixing tube 3.

In the present embodiment, the specific method of step S1 includes steps S1.1 to S1.5.

With the above method, it is possible to directly fill the grease 11 at the time of filling the roller 10, thereby quickly assembling the spherical outer bearing.

S1.1, determining the diameter of the rollers 10 and the number of rollers 10 in each spherical outer bearing.

S1.2, determining the distance between two adjacent rollers 10 according to the diameters of the rollers 10 and the number of the rollers 10.

S1.3, determining the amount of the lubricating grease between two adjacent rollers 10 according to the distance between two adjacent rollers 10.

S1.4, determining the conveying speed of the grease 11 according to the amount of the grease between two adjacent rollers 10 and the conveying speed of the roller conveying device 4.

S1.5, the grease conveying device conveys the grease 11 to the mixing pipe 3 according to the conveying speed of the grease 11.

Because the sizes of different spherical bearings are different, the required amount of the lubricating grease 11 is also different, so the method firstly controls the conveying speed of the lubricating grease 11 according to the actual parameters of the spherical bearings, and indirectly controls the using amount of the lubricating grease 11, so as to ensure that the filled lubricating grease 11 can meet the use requirements of the spherical bearings.

In this embodiment, in step S2, when the roller 10 enters the mixing tube 3 from the roller feed tube 5, it passes through the through hole 9, and the soft flap 8 is pressed to make the soft flap 8 closely fit to the roller 10.

In this embodiment, in step S2, after one roller 10 enters the mixing tube 3, a part of the subsequent roller 10 protrudes into the through hole 9 to close the through hole 9.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.