CN109015555B - Device for producing rolling bearing - Google Patents

Abstract

The invention discloses a device for manufacturing a rolling bearing, which structurally comprises a power supply box, a movable wheel, a heating control line, a turnover device, a heating roller, a rolling bearing, a host and a control button, wherein the power supply box is of a rectangular structure and is arranged in the middle of the bottom surface of the host in an embedded mode, and the movable wheel is arranged at the rear end of the bottom surface of the host. The utility model provides a turning device who is equipped with is when using, in advance through the height of elevating gear control shell, make it be close to with the laminating of antifriction bearing bottom surface, drive transmission again by actuating mechanism and drive turnover control mechanism, just can through a trolley, No. two trolleys, No. three trolleys overturn antifriction bearing, and can carry out rotation angle observation measurement through measuring device, the whole use is got up, all can be operated by turning device integration, need not with bearing direct contact, avoid causing the risk of scald, and the control accuracy of rotation angle has been improved, the manufacturing quality has been promoted.

Description

Device for producing rolling bearing

Technical Field

The invention relates to the field of rolling bearing manufacturing, in particular to a device for manufacturing a rolling bearing.

Background

A rolling bearing is a precise mechanical element that reduces friction loss by changing sliding friction between a running shaft and a shaft seat into rolling friction. The rolling bearing generally comprises four parts, namely an inner ring, an outer ring, a rolling body and a retainer, wherein the inner ring is used for being matched with a shaft and rotating together with the shaft; the outer ring is matched with the bearing seat to play a supporting role; the rolling bodies are uniformly distributed between the inner ring and the outer ring by virtue of the retainer, and the shape, size and number of the rolling bodies directly influence the service performance and service life of the rolling bearing; the retainer can enable the rolling bodies to be uniformly distributed and guide the rolling bodies to rotate to play a lubricating role. The bearing heater is mainly used for heating various metal pieces such as a bearing, a gear, a bushing, a shaft sleeve, a diameter ring, a pulley, a contraction ring and a connector, and the bearing heater expands through heating to meet the requirement of interference assembly. The functions include: rapid temperature setting, real-time temperature display, automatic overtemperature protection, automatic heat preservation and the like. When the rolling bearing is heated in the prior art, the bearing needs to be turned, but the heated bearing is too high in temperature, so that a palm is easily scalded, the judgment of a worker on a turning angle is influenced, the precision is not high, and the manufacturing quality is influenced.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: the device for manufacturing the rolling bearing structurally comprises a power box, moving wheels, a heating control line, a turnover device, a heating roller, rolling bearings, a host and a control button, wherein the power box is of a rectangular structure and is installed in the middle of the bottom surface of the host in an embedding mode, the moving wheels are arranged at the rear end of the bottom surface of the host, the two ends of the heating roller are installed at the top of the rear end of the host in a buckling mode, the rolling bearings are installed in the middle of the heating roller in a sleeving mode, the bottom of the turnover device is installed at the rear end of the host in an embedding mode, the top of the turnover device is attached to the bottom surface of the rolling bearings, the control button is provided with two control buttons and is installed at the right lower end of the upper surface of the host, the heating control line is arranged at the left end of, The top of the lifting device is installed at the rear end of the bottom of the shell in an embedding mode, the lower right end of the shell is provided with a driving mechanism, the turnover control mechanism is arranged at the upper end of the shell, the bottom of the turnover control mechanism is connected with the driving mechanism through a transmission device, the measuring device is arranged in the middle of the right end of the shell, the lower end of the measurement device is connected with the driving mechanism and runs through the right end of the bottom of the shell, the upper end of the orientation mechanism is connected with the upper left end of the shell in a buckling mode, the lower right end of the orientation mechanism is buckled with the left side of the transmission device, the left end of the reset mechanism is.

As a further optimization of the technical scheme, the lifting device comprises a meshing rack, a transmission screw, a transmission main shaft, two transmission helical teeth, a lifting knob and a device main body, the device main body is of a rectangular structure, the top of the device main body is sleeved with the rear end of the bottom of the shell, the number of the meshing racks is two, the two meshing racks are oppositely arranged at the upper end of the device main body, the upper end of the transmission screw is meshed with the inner side of the meshing rack and is connected with the transmission main shaft in a sleeved mode, the bottom of the transmission main shaft is meshed with the upper end of the back of the lifting knob through the transmission helical teeth, the lifting knob is of a circular structure and is arranged at one quarter.

As a further optimization of the technical scheme, the reset mechanism comprises a reset pull buckle, a movable guide rail and a reset pull rod, the movable guide rail is of a rectangular structure, the left end of the movable guide rail is arranged at the left lower end of the shell, the right end of the reset pull rod penetrates through the shell and is matched with the movable guide rail, the reset pull buckle is arranged at the right end of the reset pull rod, and the right end of the reset pull buckle is connected with the orientation mechanism.

As a further optimization of the technical scheme, the orientation mechanism comprises a positioning support, an orientation tooth buckle and a reset spring, the top of the positioning support is installed at the upper end of the left side of the shell in a welding mode, the orientation tooth buckle is arranged at the lower right end of the shell and is connected with the transmission device, the back of the orientation tooth buckle is connected with the middle of the lower end of the positioning support through the reset spring, and the middle of the orientation tooth buckle is movably buckled with the reset pull buckle.

As the further optimization of this technical scheme, transmission includes fixed plate, fixing bolt, transfer chain, well runner, final drive chain, single gear, gear shaft, gear support, shell lower extreme middle part is located through gear support to the single gear bottom, and the middle part is equipped with gear shaft, the fixed plate is the rectangle structure, and both ends are fixed in the half department of shell middle part upper end through fixing bolt, well runner is located the fixed plate middle part, and is connected through transfer chain and upset control mechanism meshing, the transfer wheel surface is connected through final drive chain and gear shaft meshing, gear shaft is connected with actuating mechanism, the terminal lock is detained with directional tooth to one-way gear outer lane sawtooth surface.

As the further optimization of this technical scheme, turnover control mechanism includes a feeler wheel, bearing die joint, No. two feeler wheels, feeler wheel belt, No. three feeler wheels, the bearing die joint is the arc structure, and locates the shell top, uniform equidistance installation is followed along bearing die joint surface on a feeler wheel, No. two feeler wheels, No. three feeler wheels, the feeler wheel belt is connected with a feeler wheel, No. two feeler wheels, No. three feeler wheel meshing, No. two feeler wheel backs and transfer chain upper end meshing mutually, a feeler wheel, No. two feeler wheels, No. three feeler wheel upper surfaces laminate with the antifriction bearing lower surface mutually.

As the further optimization of this technical scheme, measuring device includes angle rope, automatic reset shaft, axle bed, serving frame, the axle bed right-hand member passes through the lock mode and installs in shell right side middle part, and the left end is equipped with the automatic reset shaft, serving frame middle part and automatic reset shaft registrate be connected, angle rope upper end and serving frame are in coordination, and the lower extreme is walked around actuating mechanism and is run through shell bottom right-hand member.

As a further optimization of the technical scheme, the driving mechanism comprises a driving belt, a driving knob, a driving shaft and a linkage shaft, the driving shaft is arranged at the lower end of the right side of the shell, the back surface of the driving shaft is meshed with the linkage shaft, the linkage shaft is meshed with the gear rotating shaft through the driving belt, and the middle part of the driving knob is connected with the driving shaft in a sleeving manner.

Advantageous effects

The invention relates to a device for manufacturing a rolling bearing, which uses a power box to provide computer supply for a host, then uses a control button to operate a heating roller to heat the rolling bearing, and can be controlled by a turnover device when the heating area needs to be turned over; in addition, the main transmission chain that is equipped with meshes the transfer wheel rotatory to through transfer chain and No. two touch multitouch meshing, No. two touch multitouch drive touch multitouch through the touch multitouch belt in step finally, No. three touch multitouch rotate, just can be through touch multitouch, No. two touch multitouch, No. three touch multitouch surface and antifriction bearing laminating control, realize the upset operation, and drive knob pivoted in-process, the automatic angle rope that drives descends, thereby make things convenient for the staff to judge flip angle, when reversing, the serving frame that is equipped with is through the drive of automatic reset shaft, contract the angle rope automatically.

Based on the prior art, when the turnover device provided by the invention is used, the height of the shell is controlled in advance through the lifting device to enable the shell to be attached to the bottom surface of the rolling bearing and be close to the bottom surface of the rolling bearing, the driving mechanism drives the transmission device to drive the turnover control mechanism, the rolling bearing can be turned over through the first contact wheel, the second contact wheel and the third contact wheel, the turnover angle can be observed and measured through the measuring device, the turnover device can be integrally operated when the turnover device is integrally used, the turnover device does not need to be in direct contact with the bearing, the risk of scalding is avoided, the control precision of the turnover angle is improved, and the manufacturing quality is improved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of an apparatus for manufacturing a rolling bearing according to the present invention.

Fig. 2 is a schematic view of the internal structure of the turning device of the present invention.

Fig. 3 is a schematic view of a second embodiment of the turning device of the present invention.

Fig. 4 is an enlarged schematic view of a in fig. 3.

In the figure: a power supply box-1, a moving wheel-2, a heating control line-3, a turnover device-4, a heating roller-5, a rolling bearing-6, a host computer-7, a control button-8, a lifting device-401, a reset mechanism-402, an orientation mechanism-403, a transmission device-404, a turnover control mechanism-405, a shell-406, a measurement device-407, a drive mechanism-408, a meshing rack-4011, a drive screw-4012, a drive main shaft-4013, a drive oblique tooth-4014, a lifting knob-4015, a device main body-4016, a positioning bracket-4031, an orientation tooth buckle-4032, a reset spring-4033, a fixing plate-4041, a fixing bolt-4042, a transfer chain-4043, a transfer wheel-4044, a main drive chain-4045, a main drive chain-4031, a transfer chain-40343, The automatic control device comprises a one-way gear-4046, a gear rotating shaft-4047, a gear support-4048, a first trolley-4051, a bearing parting surface-4052, a second trolley-4053, a trolley belt-4054, a third trolley-4055, an angle rope-4071, an automatic reset shaft-4072, a shaft seat-4073, a rope winding frame-4074, a driving belt-4081, a driving knob-4082, a driving shaft-4083 and a linkage shaft-4084.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Examples

Referring to fig. 1 to 4, the present invention provides a rolling bearing manufacturing apparatus, which includes a power box 1, a movable wheel 2, a heating control line 3, a turnover device 4, a heating roller 5, a rolling bearing 6, a host 7, and a control button 8, wherein the power box 1 is rectangular and is installed in the middle of the bottom of the host 7 in an embedded manner, the movable wheel 2 is installed at the rear end of the bottom of the host 7, two ends of the heating roller 5 are installed at the top of the rear end of the host 7 in a buckling manner, the rolling bearing 6 is installed in the middle of the heating roller 5 in a sleeving manner, the bottom of the turnover device 4 is installed at the rear end of the host 7 in an embedded manner, the top of the turnover device is attached to the bottom of the rolling bearing 6, the control button 8 is provided in two numbers and is installed at the right lower end of the upper surface of the host 7, the left, The lifting device 401 comprises a resetting mechanism 402, an orienting mechanism 403, a transmission device 404, a turnover control mechanism 405, a shell 406, a measuring device 407 and a driving mechanism 408, wherein the top of the lifting device 401 is installed at the rear end of the bottom of the shell 406 in an embedded mode, the driving mechanism 408 is arranged at the right lower end of the shell 406, the turnover control mechanism 405 is arranged at the upper end of the shell 406, the bottom of the turnover control mechanism is connected with the driving mechanism 408 through the transmission device 404, the measuring device 407 is arranged in the middle of the right end of the shell 406, the lower end of the measuring device is connected with the driving mechanism 408 and penetrates through the right end of the bottom of the shell 406, the upper end of the orienting mechanism 403 is connected with the left upper end of the shell 406 in a buckling mode, the right lower end of the resetting mechanism 402 is installed at the left lower end of the shell 406 in an embedded mode, the device comprises a transmission screw 4012, a transmission main shaft 4013, transmission inclined teeth 4014, a lifting knob 4015 and a device main body 4016, wherein the device main body 4016 is of a rectangular structure, the top of the device main body is sleeved with the rear end of the bottom of a shell 406, the number of the meshing racks 4011 is two, the two meshing racks are oppositely arranged at the upper end of the device main body 4016, the upper end of the transmission screw 4012 is meshed with the inner side of the meshing rack 4011 and is sleeved with the transmission main shaft 4013, the bottom of the transmission main shaft 4013 is meshed with the upper end of the back surface of the lifting knob 4015 through the transmission inclined teeth 4014, the lifting knob 4015 is of a circular structure and is arranged at one quarter of the lower end of the device main body 4016, a reset mechanism 402 comprises a reset pull buckle 4021, a moving guide rail 4022 and a reset pull rod 4023, the moving guide rail 2 is of a rectangular structure, the left end of the shell 406 is arranged at the lower end of the left end of the shell 406, the right end, the right end of the positioning support 4031 is installed at the upper end of the left side of the shell 406 in a welding mode, the right lower end of the positioning support 4031 is provided with a positioning tooth buckle 4032, the positioning tooth buckle 4032 is connected with the transmission device 404, the back surface of the positioning tooth buckle 4032 is connected with the middle part of the lower end of the positioning support 4031 through the return spring 4033, the middle part of the positioning tooth buckle 4032 is movably buckled with a reset pull buckle 4021, the transmission device 404 comprises a fixing plate 4041, a fixing bolt 4042, a transfer chain 4043, a transfer wheel 4044, a main transmission chain 4045, a one-way gear 4046, a gear rotating shaft 4047 and a gear support 4048, the bottom of the one-way gear 4046 is arranged in the middle part of the lower end of the shell 406 through the gear support 4048, the middle part of the one-way gear is provided with the gear rotating shaft 4047, the fixing plate 4041 is of a rectangular structure, and the two ends of the fixing plate are fixed at one-half of the, the transfer wheel 4044 is arranged in the middle of the fixing plate 4041 and is meshed with the turnover control mechanism 405 through a transfer chain 4043, the surface of the transfer wheel 4044 is meshed with the gear rotating shaft 4047 through a main transmission chain 4045, the gear rotating shaft 4047 is connected with the driving mechanism 408, the outer ring sawtooth surface of the one-way gear 4046 is buckled with the tail end of the directional tooth buckle 4032, the turnover control mechanism 405 comprises a first contact wheel 4051, a bearing parting surface 4052, a second contact wheel 4053, a contact wheel belt 4054 and a third contact wheel 4055, the bearing parting surface 4052 is of an arc structure and is arranged at the top end of the housing 406, the upper ends of the first contact wheel 4051, the second contact wheel 4053 and the third contact wheel 4055 are uniformly and equidistantly installed along the surface of the bearing parting surface 4052, the contact wheel belt 4054 is meshed with the first contact wheel 4051, the second contact wheel 4053 and the third contact wheel 4055, the back surface of the second contact wheel 4053 is meshed with the upper end of the transfer chain 4043, the upper surfaces of the first trolley 4051, the second trolley 4053 and the third trolley 4055 are attached to the lower surface of the rolling bearing 6, the measuring device 407 comprises an angle rope 4071, an automatic reset shaft 4072, a shaft seat 4073 and a rope winding rack 4074, the right end of the shaft seat 4073 is mounted in the middle of the right side of the housing 406 in a buckling manner, an automatic reset shaft 4072 is arranged at the left end, the middle part of the rope rolling frame 4074 is sleeved and connected with the automatic reset shaft 4072, the upper end of the angle rope 4071 is wound and connected with the rope rolling frame 4074, and the lower end of the driving mechanism 408 passes through the right end of the bottom of the casing 406 by bypassing the driving mechanism 408, the driving mechanism 408 comprises a driving belt 4081, a driving knob 4082, a driving shaft 4083 and a linkage shaft 4084, the driving shaft 4083 is arranged at the lower end of the right side of the casing 406, the back of the gear is meshed with a linkage shaft 4084, the linkage shaft 4084 is meshed with a gear rotating shaft 4047 through a driving belt 4081, the middle part of the driving knob 4082 is connected with the driving shaft 4083 in a sleeving manner.

The principle of the invention is as follows: the power supply box 1 is used for supplying computer supply for the host 7, the control button 8 is used for operating the heating roller 5 to heat the rolling bearing 6, when the heating area needs to be turned over, the turning device 4 can control the turning device to rotate the transmission helical teeth 4014 through the lifting knob 4015 to drive the transmission main shaft 4013 to rotate, then the driving screw 4012 is engaged with the engaging rack 4011, and drives the engaging rack 4011 to jack up the housing 406, further adjusting the contact position between the top of the housing 406 and the rolling bearing 6, rotating the driving knob 4082 to control the driving shaft 4083 and the linkage shaft 4084 to rotate, and the driving belt 4081 drives the gear rotating shaft 4047 and the one-way gear 4046 to rotate, the one-way gear 4046 can normally rotate anticlockwise, when the automatic clockwise rotation is carried out, the arranged directional tooth button 4032 is automatically buckled with the saw teeth on the surface of the one-way gear 4046, so that the directional effect is exerted; in addition, the main transmission chain 4045 is meshed with the middle rotating wheel 4044 to rotate, and is meshed with the second contact wheel 4053 through the middle transmission chain 4043, finally, the second contact wheel 4053 synchronously drives the first contact wheel 4051 and the third contact wheel 4055 to rotate through the contact wheel belt 4054, the surfaces of the first contact wheel 4051, the second contact wheel 4053 and the third contact wheel 4055 are attached to the rolling bearing 6 to control, the overturning operation is achieved, in the process of driving the knob 4082 to rotate, the angle rope 4071 is automatically driven to descend, so that the turnover angle can be conveniently judged by a worker, and when the turnover is performed, the rope rolling frame 4074 is driven by the automatic reset shaft 4072 to automatically retract the angle rope 4071.

The host 7 of the present invention refers to a main body part of a computer except for input and output devices, and is also a control box for placing a main board and other main components.

The invention solves the problems that when the rolling bearing is heated in the prior art, the bearing needs to be turned, but the heated bearing has overhigh temperature and is easy to scald palms, the judgment of workers on the turning angle is influenced, the precision is not high, and the manufacturing quality is influenced, through the mutual combination of the components, when the turning device is used, the height of the shell is controlled in advance through the lifting device, so that the shell is attached to the bottom surface of the rolling bearing and is close to the bottom surface of the rolling bearing, then the driving mechanism drives the transmission device to drive the turning control mechanism, the rolling bearing can be turned through the first contact wheel, the second contact wheel and the third contact wheel, the turning angle can be observed and measured through the measuring device, the turning device can be integrally used, the turning device does not need to be directly contacted with the bearing, the risk of scalding is avoided, and the control precision of the turning angle is improved, the manufacturing quality is improved.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. Device of manufacturing antifriction bearing, its structure includes power supply box (1), removes wheel (2), heating control line (3), turning device (4), warming mill (5), antifriction bearing (6), host computer (7), control button (8), its characterized in that:

the power box (1) is of a rectangular structure and is installed in the middle of the bottom surface of the host (7) in an embedding mode, the rear end of the bottom surface of the host (7) is provided with the moving wheel (2), two ends of the heating roller (5) are installed at the top of the rear end of the host (7) in a buckling mode, the rolling bearings (6) are installed in the middle of the heating roller (5) in a sleeving mode, the bottom of the turnover device (4) is installed at the rear end of the host (7) in an embedding mode, the top of the turnover device is attached to the bottom surface of the rolling bearings (6), the control buttons (8) are two in number and are installed at the right lower end of the upper surface of the host (7), and the left end of the;

the turnover device (4) comprises a lifting device (401), a reset mechanism (402), an orientation mechanism (403), a transmission device (404), a turnover control mechanism (405), a shell (406), a measuring device (407) and a driving mechanism (408), wherein the top of the lifting device (401) is arranged at the rear end of the bottom of the shell (406) in an embedded mode, the driving mechanism (408) is arranged at the lower right end of the shell (406), the turnover control mechanism (405) is arranged at the upper end of the shell (406), the bottom of the turnover control mechanism is connected with the driving mechanism (408) through the transmission device (404), the measuring device (407) is arranged in the middle of the right end of the shell (406), the lower end of the measurement device is connected with the driving mechanism (408) and penetrates through the right end of the bottom of the shell (406), the upper end of the orientation mechanism (403) is connected with the upper left end of the shell (406) in a buckling mode, the left end of the resetting mechanism (402) is installed at the left lower end of the shell (406) in an embedding mode, and the right end of the resetting mechanism is connected with the orientation mechanism (403).

2. The apparatus for manufacturing a rolling bearing according to claim 1, characterized in that: elevating gear (401) is including meshing rack (4011), drive screw (4012), transmission main shaft (4013), transmission skewed tooth (4014), lift knob (4015), device main part (4016) are the rectangle structure, and top and shell (406) bottom rear end registrate, meshing rack (4011) is equipped with two altogether, and the subtend locates device main part (4016) upper end, drive screw (4012) upper end is connected with meshing rack (4011) inboard meshing, and registrates with drive main shaft (4013) and is connected, transmission skewed tooth (4014) are passed through to transmission main shaft (4013) bottom and are connected with lift knob (4015) back upper end meshing, lift knob (4015) are circular structure, and locate the quarter department of device main part (4016) lower extreme.

3. The apparatus for manufacturing a rolling bearing according to claim 1, characterized in that: the reset mechanism (402) comprises a reset pull buckle (4021), a movable guide rail (4022) and a reset pull rod (4023), the movable guide rail (4022) is of a rectangular structure, the left end of the movable guide rail (4022) is arranged at the left lower end of the shell (406), the right end of the reset pull rod (4023) penetrates through the shell (406) to be matched with the movable guide rail (4022), the reset pull buckle (4021) is arranged at the right end of the reset pull rod (4023), and the right end of the reset pull rod is connected with the orientation mechanism (403).

4. The apparatus for manufacturing a rolling bearing according to claim 3, characterized in that: orientation mechanism (403) are including locating support (4031), directional tooth knot (4032), reset spring (4033), installing in shell (406) left side upper end through the welding mode in locating support (4031) top, and the right lower extreme is equipped with directional tooth and detains (4032), directional tooth is detained (4032) and is connected with transmission (404), directional tooth is detained (4032) the back and is connected through reset spring (4033) and locating support (4031) lower extreme middle part, directional tooth is detained (4032) middle part and is drawn the activity lock of detaining (4021) with reseing.

5. The apparatus for manufacturing a rolling bearing according to claim 4, characterized in that: the transmission device (404) comprises a fixing plate (4041), a fixing bolt (4042), a transfer chain (4043), a transfer wheel (4044), a main transmission chain (4045), a one-way gear (4046), a gear rotating shaft (4047) and a gear support (4048), the bottom of the one-way gear (4046) is arranged in the middle of the lower end of the shell (406) through the gear support (4048), the middle of the one-way gear is provided with the gear rotating shaft (4047), the fixing plate (4041) is of a rectangular structure, two ends of the fixing plate are fixed in one half of the upper end of the middle of the shell (406) through the fixing bolt (4042), the transfer wheel (4044) is arranged in the middle of the fixing plate (4041) and is meshed with the turnover control mechanism (405) through the transfer chain (4043), the surface of the transfer wheel (4044) is meshed with the gear rotating shaft (4047) through the main transmission chain (4045), and the gear rotating shaft (40, and the outer ring sawtooth surface of the one-way gear (4046) is buckled with the tail end of the directional tooth buckle (4032).

6. The apparatus for manufacturing a rolling bearing according to claim 5, characterized in that: upset control mechanism (405) include one trolley wheel (4051), bearing die joint (4052), No. two trolley wheels (4053), trolley wheel belt (4054), No. three trolley wheels (4055), bearing die joint (4052) is the arc structure, and locates shell (406) top, trolley wheel (4051), No. two trolley wheels (4053), No. three trolley wheel (4055) upper end are along bearing die joint (4052) surface, and even equidistance installation, trolley wheel belt (4054) and a trolley wheel (4051), No. two trolley wheel (4053), No. three trolley wheel (4055) meshing connection, No. two trolley wheel (4053) back and transfer chain (4043) upper end mesh mutually, a trolley wheel (4051), No. two trolley wheel (4053), No. three trolley wheel (4055) upper surface and antifriction bearing (6) lower surface laminate mutually.

7. The apparatus for manufacturing a rolling bearing according to claim 6, characterized in that: measuring device (407) include angle rope (4071), automatic reset axle (4072), axle bed (4073), serving rack (4074), axle bed (4073) right-hand member is installed in shell (406) right side middle part through the lock mode, and the left end is equipped with automatic reset axle (4072), serving rack (4074) middle part closes with automatic reset axle (4072) registrate and is connected, angle rope (4071) upper end is around closing mutually with serving rack (4074), and the lower extreme is walked around actuating mechanism (408) and is run through shell (406) bottom right-hand member.

8. The apparatus for manufacturing a rolling bearing according to claim 7, characterized in that: the driving mechanism (408) comprises a driving belt (4081), a driving knob (4082), a driving shaft (4083) and a linkage shaft (4084), the driving shaft (4083) is arranged at the lower end of the right side of the shell (406), the back of the driving shaft is meshed with the linkage shaft (4084), the linkage shaft (4084) is meshed with the gear rotating shaft (4047) through the driving belt (4081), and the middle of the driving knob (4082) is connected with the driving shaft (4083) in a sleeving manner.

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