CN219190011U - Bearing housing assembly equipment - Google Patents

Abstract

The application relates to bearing sleeve assembling equipment, and relates to the technical field of bearing sleeve mounting equipment, which comprises a mounting table, wherein a clamp device for fixing a bearing cover cap is arranged on the table top of the mounting table; the pressure device is arranged on the table surface of the mounting table and is positioned above the clamp device; the rotating device is arranged on one side, close to the clamp device, of the pressure device, the pressure device drives the rotating device to be pressed on a bearing cover fixed by the clamp device, and the rotating device is used for driving the bearing sleeve to rotate. The method has the effects of improving the protection of the bearing sleeve in the assembly process and reducing the rejection rate of the bearing sleeve.

Description

Bearing housing assembly equipment

Technical Field

The application relates to the field of bearing bush installation equipment technology, in particular to bearing bush assembly equipment.

Background

The bearing sleeve is used for protecting the transmission shaft, and particularly for some transmission shafts which are difficult to repair, disassemble or have higher value, in order to protect the transmission shaft from abrasion, the bearing sleeve is arranged on the outer side of the transmission shaft in the design process, and then a bearing is arranged on the bearing sleeve.

In the related art, the bearing sleeve is usually mounted on the transmission shaft on the bearing cover in a hydraulic manner of the hydraulic machine, so that the bearing sleeve is in interference fit with the transmission shaft, and the clamping block on the transmission shaft is clamped in the clamping groove formed in the side wall of the bearing sleeve, so that the bearing sleeve is limited on the transmission shaft.

With respect to the related art in the above, the inventors consider that: the hydraulic mode of using the hydraulic press is with the bearing housing interference fit on the transmission shaft on the bearing housing cover, and in the in-process of punching press downwards with the bearing housing, resistance between bearing housing and the transmission shaft is great, makes the bearing housing warp in the installation easily, leads to the bearing housing to be high in the disability rate of assembly in-process, still has the space of improvement.

Disclosure of Invention

In order to improve the protection of bearing sleeve in the assembly process and reduce the rejection rate of bearing sleeve, the application provides bearing sleeve assembly equipment.

The application provides a bearing housing assembly equipment adopts following technical scheme:

the bearing sleeve assembling equipment comprises a mounting table, wherein a clamp device for fixing a bearing cover cap is arranged on the table top of the mounting table; the pressure device is arranged on the table surface of the mounting table and is positioned above the clamp device; the rotating device is arranged on one side, close to the clamp device, of the pressure device, the pressure device drives the rotating device to be pressed on a bearing cover fixed by the clamp device, and the rotating device is used for driving the bearing sleeve to rotate.

Through adopting above-mentioned technical scheme, make fixture device fix the bearing shroud on the mount table to make pressure device drive rotating device be close to the bearing shroud on the mount table, thereby make pressure device push down rotating device on the bearing shroud that fixture device is fixed, make rotating device drive the bearing housing rotate and interference fit on the transmission shaft of bearing shroud simultaneously, thereby reduce the resistance when assembling between bearing housing and the transmission shaft, cause the bearing housing to warp when avoiding pressure device to compress tightly the bearing housing on the transmission shaft as far as possible and lead to the bearing housing to scrap, and then improve the protection of bearing housing in the assembly process, reduce the disability rate of bearing housing.

Optionally, the fixture device comprises a pressure bearing table, a hydraulic press, a hinging block, a compression bar and a hinging piece; the hydraulic machine is characterized in that the bearing platform is arranged on a table top of the installation platform and is used for placing the bearing cover cap, the hydraulic machine is arranged on one side, close to the bearing platform, of the installation platform, a hydraulic groove for the installation of the hydraulic machine is formed in the installation platform, a penetrating groove for the penetration of the hydraulic machine is formed in the bearing platform, one end of the hinge block is hinged to the output end of the hydraulic machine, the hinge piece is hinged to the hydraulic machine and one end, away from the hydraulic machine, of the hinge block respectively, the pressure rod is integrally arranged on one end, away from the hydraulic machine, of the hinge block, and the pressure rod is used for pressing the bearing cover cap on the bearing platform.

Through adopting above-mentioned technical scheme, make the output extension of hydraulic press to make the articulated piece pass through articulated piece and the articulated upset of hydraulic press, make the articulated piece keep away from the one end of hydraulic press and be close to the bearing shroud, thereby make the articulated piece drive the depression bar to compress tightly the bearing shroud on the pressure-bearing platform, fix the bearing shroud on the pressure-bearing platform, and then improve the stability of being connected between bearing shroud and the pressure-bearing platform. The output end of the hydraulic machine is retracted, the hinge block is hinged and overturned with the hydraulic machine through the hinge plate, one end of the hinge block, which is far away from the hydraulic machine, is far away from the bearing cover cap, so that the hinge block drives the pressing rod to be far away from the bearing cover cap, the bearing cover cap is detached from the bearing platform, and the convenience of detaching the bearing cover cap is improved. The hydraulic machine is arranged in the hydraulic groove, so that the installation position of the hydraulic machine is determined, and the stability of connection between the hydraulic machine and the installation table is improved.

Optionally, a positioning column for positioning the bearing cover is arranged on one side, close to the rotating device, of the pressure-bearing table.

Through adopting above-mentioned technical scheme, place the bearing cap on the pressure-bearing platform to make the reference column confirm the position of bearing cap on the pressure-bearing platform, avoid the position deviation of bearing cap on the pressure-bearing platform to the greatest extent to lead to the pressure device unable accurate install the bearing housing on the bearing cap, and then improve the installation accuracy of bearing housing.

Optionally, the pressure device comprises an adjusting component and a pressing component, wherein the adjusting component comprises a transverse sliding rail, a sliding block, a first motor, a first screw rod, a first sliding block and a first fixing piece; the utility model discloses a clamping device, including installation platform, horizontal slide rail, first mounting, first slider, second slider, first slider screw thread fit, the horizontal slide rail sets up in the platform wall of installation platform is close to one side of fixture device, horizontal slide rail is along the direction of pushing down of length direction perpendicular to pushing down the subassembly, first motor sets up in the one end of horizontal slide rail, first lead screw is connected with the output of first motor, set up the mounting groove that supplies first lead screw installation on the horizontal slide rail, first slider sliding in the mounting groove, the slider slides and connects on horizontal slide rail, pushing down the subassembly and setting up in one side that the slider kept away from the installation platform, first mounting is used for fixed slider and first slider, set up the first hole that slides that supplies first mounting to slide on the horizontal slide rail.

Through adopting above-mentioned technical scheme, make the first lead screw of first motor drive rotate to make first slider slide in the mounting groove along the length direction of first lead screw, make first slider drive first mounting slide in first sliding hole, thereby make first mounting drive the slider slide along the length direction of horizontal slide rail, make the slider adjust the position of pushing down the subassembly, make the transmission shaft of pushing down the subassembly and aiming at different positions on the bearing housing cover, thereby install the bearing housing in the different positions of bearing housing, and then improve the convenience of installing the bearing housing.

Optionally, the pressing component comprises a vertical sliding rail, a sliding plate, a second motor, a second screw rod, a second sliding block, a second fixing piece and a pressing plate; the vertical sliding rail is arranged on one side of the sliding block, which is far away from the horizontal sliding rail, the vertical sliding rail is perpendicular to the length direction of the horizontal sliding rail along the length direction, the second motor is arranged at one end of the vertical sliding rail, the second screw rod is connected with the output end of the second motor, a sliding groove for installing the second screw rod is formed in the vertical sliding rail, the second sliding block is in threaded fit with the second screw rod, the second sliding block slides in the sliding groove, the sliding plate slides and is connected onto the vertical sliding rail, the second fixing piece is used for fixing the second sliding block and the sliding plate, a second sliding hole for sliding the second fixing piece is formed in the vertical sliding rail, the pressing plate is arranged on one side of the sliding plate, which is far away from the vertical sliding rail, and the pressing plate is used for installing a rotating device.

Through adopting above-mentioned technical scheme, make second motor drive second lead screw rotate to make the second slide block slide in the groove of sliding along the length direction of second lead screw, make the second slide block drive the second mounting slide in the second hole of sliding, thereby make the second mounting drive slide along the length direction of vertical slide rail slide, make the slide drive the clamp plate and be close to the bearing housing, make the clamp plate drive rotating device with the bearing housing installation in the bearing housing cover, and then improve the convenience of bearing housing installation.

Optionally, a reinforcing plate is arranged between the pressing plate and the sliding plate.

Through adopting above-mentioned technical scheme, set up the reinforcing plate between clamp plate and slide bar, make the reinforcing plate improve the intensity between clamp plate and the slide, avoid turning device overweight to lead to the clamp plate to drop from the slide as far as possible, and then improve the stability of being connected between clamp plate and the slide.

Optionally, the rotating device comprises a driving assembly and an adsorption assembly, and the driving assembly comprises a wire set and a driving motor; the driving motor is arranged on one side of the pressing plate away from the clamp device, the wire set is connected with the driving motor and used for supplying power to the driving motor, a through hole for the output end of the driving motor to penetrate through is formed in the pressing plate, the adsorption component is arranged at the output end of the driving motor and used for fixing the bearing sleeve at the output end of the driving motor.

Through adopting above-mentioned technical scheme, make the adsorption component fix the bearing housing at driving motor's output, make driving motor's output shaft wear to establish the perforation to make the line group be driving motor power supply, thereby make driving motor's output shaft drive bearing housing rotate and compress tightly on the transmission shaft of bearing housing, avoid the bearing housing to warp the position offset that leads to the bearing housing with the too big messenger of resistance between the transmission shaft as far as possible, and then improve the installation accuracy of bearing housing.

Optionally, the absorption subassembly includes fixed cover and actuation magnet, fixed cover sets up in driving motor's output, set up the standing groove that supplies the bearing bush to install on the fixed cover, the actuation magnet sets up in the fixed cover one side of keeping away from driving motor, the actuation magnet is used for spacing in the standing groove with the bearing bush.

Through adopting above-mentioned technical scheme, place the bearing housing in the standing groove on fixed cover to confirm the mounted position of bearing housing, make the bearing housing be connected with fixed cover, and then improve the stability of being connected between bearing housing and the fixed cover. The attracting magnet is used for attracting the bearing sleeve to the fixing sleeve, so that the bearing sleeve is limited in the placing groove, and the stability of connection between the bearing sleeve and the fixing sleeve is improved.

Optionally, the adsorption component further comprises a limiting block, the limiting block is arranged on one side, far away from the driving motor, of the fixing sleeve, and the limiting block is used for limiting the bearing sleeve in the placing groove.

Through adopting above-mentioned technical scheme, place the bearing housing in the standing groove on fixed cover, make the stopper get into in the fluting on the bearing housing, when fixed cover drives the bearing housing and rotates, make the stopper spacing in the standing groove along the circumference direction of bearing housing with the bearing housing, avoid bearing housing and fixed cover asynchronous rotation as far as possible, and then convenience and the precision when improving the bearing housing installation.

Optionally, be provided with the spacing shell that is used for spacing line group on the vertical slide rail, set up the wire casing that supplies line group to wear to establish on the spacing shell, spacing shell evenly is provided with a plurality ofly along the length direction of vertical slide rail, adjacent spacing shell articulates each other.

Through adopting above-mentioned technical scheme, make the wire casing be worn to establish by the group to make spacing shell constraint with the wire casing in disorder, when rotating device slides along the length direction of vertical slide rail, the length of wire casing follows rotating device and changes, makes articulated upset between the spacing shell, thereby changes the form of spacing shell, makes spacing shell constraint line group all the time, avoids the wire casing winding to lead to pushing down subassembly and adjusting part during operation to press the line to lose together as far as possible, and then improves the protection to the line.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the pressure device drives the rotating device to be close to the bearing cover on the mounting table, the rotating device is tightly pressed on the bearing cover fixed by the clamp device, and meanwhile, the rotating device drives the bearing sleeve to be rotatably mounted on the bearing cover, so that the bearing sleeve is in interference fit on the transmission shaft, the resistance between the bearing sleeve and the transmission shaft is reduced, the bearing sleeve is prevented from being deformed by the pressure device as much as possible, the protection of the bearing sleeve in the assembly process is further improved, and the rejection rate of the bearing sleeve is reduced;

2. the first motor drives the first screw rod to rotate, so that the first sliding block slides in the mounting groove along the length direction of the first screw rod, the first sliding block drives the first fixing piece to slide in the first sliding hole, the first fixing piece drives the sliding block to slide on the transverse sliding rail, the position of the pressing component is changed, the pressing component is aligned with transmission shafts at different positions on the bearing cover, and therefore the bearing sleeve is mounted at different positions of the bearing cover, and convenience in mounting the bearing sleeve is improved;

3. through placing the bearing housing in the standing groove on fixed cover, make bearing housing and fixed cover be connected, make actuation magnet with the bearing housing actuation on fixed cover, and then improve the stability of being connected between bearing housing and the fixed cover.

Drawings

Fig. 1 is a schematic structural view of a bearing housing assembly apparatus according to an embodiment of the present application.

Fig. 2 is an exploded schematic view of the adjustment assembly, hold-down assembly, turning gear, mounting table, pressure bearing table and hydraulic press of an embodiment of the present application.

Fig. 3 is an exploded schematic view of a hydraulic machine, hinge plate, hinge block and compression bar in an embodiment of the present application.

Fig. 4 is an exploded view of a hold-down assembly, a slider, a first mount, a transverse slide, a first slider, a first screw, a first motor, a stabilizer, and a stabilizer rail in an embodiment of the present application.

Fig. 5 is an exploded schematic view of a second motor, a second screw, a second sliding block, a vertical sliding rail, a limiting shell, a wire set, a sliding plate and a second fixing piece in the embodiment of the application.

Fig. 6 is an exploded schematic view of the pressure plate, drive motor and stationary sleeve in an embodiment of the present application.

Fig. 7 is an exploded view of the retaining sleeve and the pull-in magnet of an embodiment of the present application.

Reference numerals illustrate: 1. a mounting table; 11. a hydraulic tank; 2. a clamp device; 21. a pressure-bearing table; 2101. positioning columns; 2102. a through groove is arranged; 22. a hydraulic press; 23. a hinge block; 24. a compression bar; 25. a hinge plate; 3. a pressure device; 31. an adjustment assembly; 3101. a transverse slide rail; 31011. a mounting groove; 31012. a first sliding hole; 3102. a slide block; 3103. a first motor; 3104. a first screw rod; 3105. a first slider; 3106. a first fixing member; 32. pressing down the assembly; 3201. a vertical slide rail; 32011. a slip groove; 32012. a second sliding hole; 32013. a limit shell; 32014. a wire slot; 3202. a slide plate; 3203. a second motor; 3204. a second screw rod; 3205. a second slider; 3206. a second fixing member; 3207. a pressing plate; 32071. perforating; 3208. a reinforcing plate; 4. a rotating device; 41. a drive assembly; 4101. a wire set; 4102. a driving motor; 42. an adsorption assembly; 4201. a fixed sleeve; 42011. a placement groove; 4202. a attracting magnet; 4203. a limiting block; 5. a stabilizing block; 51. a stabilizing groove; 6. stabilizing the rail.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-7.

Referring to fig. 1, an embodiment of the present application discloses a bearing housing assembly apparatus including a mounting table 1, a jig device 2, a pressure device 3, and a rotating device 4. The installation table 1 is provided with a switch, a power supply, an operation table and other components for controlling the operation of equipment. The clamping device 2 is mounted on the table top of the mounting table 1, and the clamping device 2 is used for clamping and fixing the bearing cover on the table top of the mounting table 1. The pressure device 3 is mounted on the side of the table surface of the mounting table 1 close to the clamp device 2, and the pressure device 3 is located above the clamp device 2. The turning device 4 is mounted on the side of the pressure device 3 close to the clamp device 2. The pressure means 3 serve to drive the rotation means 4 to press the bearing housing into the bearing cap. The rotating device 4 drives the bearing sleeve to synchronously rotate in the process of pressing down the bearing sleeve, so that the resistance between the bearing sleeve and the bearing cover cap is reduced.

Referring to fig. 2 and 3, the clamp device 2 includes a pressure receiving table 21, a hydraulic press 22, a hinge block 23, a pressing lever 24, and a hinge plate 25. The bearing platform 21 is mounted on the table surface of the mounting platform 1, and the bearing platform 21 is used for placing a bearing cover. The hydraulic press 22 is arranged on one side of the table surface of the mounting table 1, which is close to the bearing table 21. The number of the hydraulic presses 22 is set by the person skilled in the art according to the actual situation, and three are provided in the present application. The mounting table 1 is provided with a hydraulic groove 11 for mounting a hydraulic machine 22. The pressure-bearing table 21 is provided with a penetrating groove 2102 for the hydraulic press 22 to penetrate.

One end of the hinge block 23 is hinged to the output end of the hydraulic machine 22. One end of the hinge plate 25 is hinged to one end of the hinge block 23 far away from the hydraulic machine 22, and the other end of the hinge plate 25 is hinged to the hydraulic machine 22, so that the hinge block 23, the hinge plate 25 and the hydraulic machine 22 form a lever structure. The compression bar 24 is integrally provided at the end of the hinge block 23 remote from the hydraulic machine 22. When the output end of the hydraulic machine 22 is extended, the hinge block 23 turns over to drive the pressing rod 24 to approach the bearing cover, so that the pressing rod 24 presses the bearing cover on the pressure-bearing table 21. When the output end of the hydraulic machine 22 is retracted, the hinge block 23 turns over to drive the pressing rod 24 away from the bearing cover, so that the bearing cover is removed from the bearing table 21.

Referring to fig. 2, a positioning column 2101 is mounted on the pressure receiving stage 21. The positioning post 2101 is positioned on the side of the pressure bearing platform 21 near the rotating device 4. When the bearing cap is placed on the pressure-receiving table 21, the positioning posts 2101 determine the specific placement position of the bearing cap, which helps to make the position of the transmission shaft on the bearing cap correspond to the position of the rotating device 4, thereby facilitating the mounting of the bearing sleeve on the bearing cap.

Referring to fig. 2, the pressure device 3 includes an adjustment assembly 31 and a pressing assembly 32. The adjustment assembly 31 is used to adjust the position of the hold down assembly 32 so that the hold down assembly 32 is aligned with the position of the drive shaft on the bearing cage. The turning device 4 is mounted on the side of the hold-down assembly 32 adjacent to the compression table 21. The hold-down assembly 32 is used to urge the rotating device 4 towards the bearing table 21, causing the rotating device 4 to press the bearing housing into the bearing cap.

Referring to fig. 4, the adjustment assembly 31 includes a transverse slide 3101, a slider 3102, a first motor 3103, a first screw 3104, a first slider 3105, and a first mount 3106. The lateral slide rail 3101 is mounted on the side of the table wall of the mounting table 1 close to the clamp device 2. The lateral slide 3101 is perpendicular to the pressing direction of the pressing assembly 32 in the longitudinal direction. The first motor 3103 is mounted at one end of the transverse sliding rail 3101, and an output end of the first motor 3103 is fixed to the first screw 3104. The transverse slide rail 3101 is provided with an installation groove 31011 for installing the first screw 3104. The first slider 3105 is screw-fitted to the first screw 3104, and the first slider 3105 slides in the mounting groove 31011 in the length direction of the first screw 3104.

The first fixing member 3106 may be a bolt, and the first fixing member 3106 is used for fixing the slider 3102 and the first slider 3105. The transverse sliding rail 3101 is provided with a first sliding hole 31012 for sliding the first fixing member 3106. The first slip hole 31012 communicates with the mounting groove 31011. The hold down assembly 32 is mounted on the side of the slider 3102 remote from the mounting table 1. When the first motor 3103 drives the first screw 3104 to rotate, the first sliding block 3105 drives the sliding block 3102 to slide along the length direction of the first screw 3104, so that the sliding block 3102 adjusts the position of the pressing assembly 32.

Referring to fig. 4 and 5, the pressing assembly 32 includes a vertical sliding rail 3201, a sliding plate 3202, a second motor 3203, a second screw rod 3204, a second sliding block 3205, a second fixing member 3206, and a pressing plate 3207. Vertical rail 3201 is fixed to a side of slider 3102 remote from lateral rail 3101. Vertical rail 3201 is perpendicular to the length direction of transverse rail 3101 along the length direction. The second motor 3203 is mounted at an end of the vertical sliding rail 3201 away from the slider 3102. The output end of the second motor 3203 is fixed with a second screw rod 3204. A sliding groove 32011 for installing the second screw rod 3204 is formed in the vertical sliding rail 3201. The second sliding block 3205 is in threaded fit with the second screw rod 3204, and the second sliding block 3205 slides in the sliding groove 32011 along the length direction of the second screw rod 3204.

Second mount 3206 may be a bolt, second mount 3206 being used to secure slide plate 3202 and second slider 3205. The vertical sliding rail 3201 is provided with a second sliding hole 32012 for sliding the second fixing piece 3206. The second sliding hole 32012 communicates with the sliding groove 32011. Pressure plate 3207 is welded to side of slide plate 3202 remote from vertical slide rail 3201. The rotation device 4 is mounted on the pressing plate 3207. When the second motor 3203 drives the second screw rod 3204 to rotate, the second sliding block 3205 drives the sliding plate 3202 to slide on the vertical sliding rail 3201 along the length direction of the second screw rod 3204, so that the sliding plate 3202 drives the pressing plate 3207 to be close to the bearing cover.

Referring to fig. 4, a stabilizing block 5 is welded to the vertical sliding rail 3201. The stabilizing block 5 is located on one side of the vertical sliding rail 3201 near the upper wall of the mounting table 1. A stabilizing rail 6 is welded on the mounting table 1. The stabilizing rail 6 is located on one side of the upper wall of the mounting table 1 near the stabilizing block 5, and the stabilizing rail 6 is parallel to the length direction of the lateral sliding rail 3101 in the length direction. The stabilizing block 5 is provided with a stabilizing groove 51 for the stabilizing rail 6 to pass through and slide. When the sliding block 3102 drives the vertical sliding rail 3201 to slide along the transverse sliding rail 3101, the stabilizing block 5 slides on the stabilizing rail 6, so that the vertical sliding rail 3201 is more stable when sliding.

Referring to fig. 5, a reinforcing plate 3208 is welded between a pressing plate 3207 and a sliding plate 3202. The reinforcing plate 3208 is triangular in shape, and the reinforcing plate 3208 is symmetrically welded between the pressing plate 3207 and the sliding plate 3202 by taking the length direction of the vertical sliding rail 3201 as a symmetrical axis, so that the reinforcing plate 3208 reinforces the connection strength between the pressing plate 3207 and the sliding plate 3202, and the pressing plate 3207 is helped to bear the heavy rotating device 4 without falling off the sliding plate 3202.

Referring to fig. 2, the rotating device 4 includes a driving assembly 41 and an adsorption assembly 42. The drive assembly 41 is used to drive the bearing housing in rotation during its entry into the bearing housing, thereby reducing the resistance between the bearing housing and the bearing housing. The adsorption assembly 42 is installed at one side of the driving assembly 41 near the bearing table 21, and the adsorption assembly 42 is used for fixing the bearing housing on the driving assembly 41.

Referring to fig. 5 and 6, the driving assembly 41 includes a line group 4101 and a driving motor 4102. The wire set 4101 is connected to the drive motor 4102 and a power source on the mounting table 1, respectively, and the wire set 4101 is used for supplying power to the drive motor 4102. The driving motor 4102 is mounted on the side of the platen 3207 remote from the pressure receiving table 21. The pressing plate 3207 is provided with a perforation 32071 through which the output end of the driving motor 4102 passes. The adsorption assembly 42 is mounted at an output end of the driving motor 4102. The drive motor 4102 drives the bearing housing to rotate as the bearing housing is inserted into the bearing housing, thereby reducing the resistance between the bearing housing and the bearing housing.

Referring to fig. 5, a limiting case 32013 is mounted on a vertical sliding rail 3201. The limiting shell 32013 is located at one side of the vertical sliding rail 3201, which is close to the line group 4101, and a plurality of limiting shells 32013 are uniformly arranged along the length direction of the vertical sliding rail 3201. Adjacent ones of the stopper cases 32013 are hinged to each other. The limiting case 32013 is provided with a wire groove 32014 through which the wire set 4101 passes. When the driving motor 4102 slides along the vertical sliding rail 3201, the length of the wire set 4101 is changed, so that the limiting shells 32013 are hinged and turned, the wire set 4101 is always positioned in the wire groove 32014, the wire set 4101 is kept neat, and the wire set 4101 is prevented from being broken when the adjusting component 31 and the pressing component 32 work as much as possible.

Referring to fig. 6 and 7, the adsorption assembly 42 includes a stationary sleeve 4201, an attracting magnet 4202, and a stopper 4203. The stationary sleeve 4201 is mounted to the output of the drive motor 4102. The fixed sleeve 4201 is provided with a receiving slot 42011 for mounting the bearing sleeve. The attracting magnet 4202 is mounted on a side of the stationary sleeve 4201 remote from the drive motor 4102, and the attracting magnet 4202 is located within the placement groove 42011, the attracting magnet 4202 and the stationary sleeve 4201 being reinforced with epoxy glue as necessary. When the bearing housing is placed in the placement groove 42011, the attracting magnet 4202 is caused to attract the bearing housing to the stationary housing 4201. The stopper 4203 is integrally disposed on a side of the fixed sleeve 4201 away from the driving motor 4102, and the stopper 4203 is disposed in the placement groove 42011. When the bearing housing is placed in the placement groove 42011, the stopper 4203 is inserted into the groove on the bearing housing, the stopper 4203 is made to stop the bearing housing in the placement groove 42011 in the circumferential direction of the bearing housing, and when the driving motor 4102 drives the fixing housing 4201 to rotate, the bearing housing and the fixing housing 4201 are made to rotate synchronously.

The application process of the bearing sleeve assembly equipment provided by the embodiment of the application is as follows:

1. placing the bearing sleeve in the placement groove 42011, inserting the limiting block 4203 into a slot on the bearing sleeve, and attracting the bearing sleeve on the fixing sleeve 4201 by the attracting magnet 4202;

2. placing the bearing cover on the bearing platform 21, enabling the positioning column 2101 to determine the position of the bearing cover on the bearing platform 21, enabling the output end of the hydraulic machine 22 to extend, enabling the hinging block 23 to overturn so as to drive the pressing rod 24 to be close to the bearing platform 21, and enabling the pressing rod 24 to press the bearing cover on the bearing platform 21;

3. the first motor 3103 is controlled to rotate, so that the first screw 3104 rotates, and the first sliding block 3105 drives the sliding block 3102 to slide on the transverse sliding rail 3101 along the length direction of the first screw 3104 in the mounting groove 31011, so that the pressing assembly 32 is aligned with the bearing cap;

4. the second motor 3203 is controlled to rotate, so that the second screw rod 3204 rotates, the second sliding block 3205 drives the sliding plate 3202 to approach the pressure bearing platform 21 on the vertical sliding rail 3201 along the length direction of the second screw rod 3204 in the sliding groove 32011, and the sliding plate 3202 drives the rotating device 4 on the pressure plate 3207 to approach the pressure bearing platform 21;

5. when the bearing sleeve is pressed into the bearing cover, the driving motor 4102 is controlled to rotate, so that the driving motor 4102 drives the fixed sleeve 4201 to rotate, thereby enabling the bearing sleeve and the fixed sleeve 4201 to synchronously rotate, further reducing the resistance between the bearing sleeve and the bearing cover, after the installation is completed, the second motor 3203 is controlled to rotate, the second screw rod 3204 is controlled to rotate, the second sliding block 3205 drives the sliding plate 3202 to be far away from the bearing platform 21 on the vertical sliding rail 3201 along the length direction of the second screw rod 3204 in the sliding groove 32011, and therefore the bearing sleeve is continuously installed at other positions of the bearing cover.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (10)

1. The utility model provides a bearing housing equipment which characterized in that: comprising the following steps:

the mounting table (1), the table top of the mounting table (1) is provided with a clamp device (2) for fixing the bearing cover cap;

the pressure device (3) is arranged on the table top of the mounting table (1), and the pressure device (3) is positioned above the clamp device (2);

the rotating device (4) is arranged on one side, close to the clamp device (2), of the pressure device (3), the pressure device (3) drives the rotating device (4) to be pressed on a bearing cover fixed on the clamp device (2), and the rotating device (4) is used for driving the bearing sleeve to rotate.

2. A bearing set assembly apparatus according to claim 1, wherein: the clamp device (2) comprises a pressure bearing table (21), a hydraulic machine (22), a hinge block (23), a compression bar (24) and a hinge piece (25);

the bearing table (21) is arranged on a table top of the installation table (1), the bearing table (21) is used for placing a bearing cover cap, the hydraulic press (22) is arranged on one side, close to the bearing table (21), of the table top of the installation table (1), a hydraulic groove (11) for installing the hydraulic press (22) is formed in the installation table (1), a penetrating groove (2102) for the hydraulic press (22) to penetrate through is formed in the bearing table (21), one end of the hinge block (23) is hinged to the output end of the hydraulic press (22), one ends, far away from the hydraulic press (22), of the hinge plate (25) and the hinge block (23) are hinged to each other, the pressure bar (24) is integrally arranged on one end, far away from the hydraulic press (22), of the hinge block (23), and the pressure bar (24) is used for pressing the bearing cover cap on the bearing table (21).

3. A bearing set assembly apparatus according to claim 2, wherein: a positioning column (2101) for positioning the bearing cover is arranged on one side, close to the rotating device (4), of the pressure-bearing table (21).

4. A bearing set assembly apparatus according to claim 1, wherein: the pressure device (3) comprises an adjusting assembly (31) and a pressing assembly (32), wherein the adjusting assembly (31) comprises a transverse sliding rail (3101), a sliding block (3102), a first motor (3103), a first screw (3104), a first sliding block (3105) and a first fixing piece (3106);

the utility model provides a horizontal slide rail (3101) sets up in the one side that the platform wall of mount table (1) is close to fixture device (2), horizontal slide rail (3101) is along the direction of length direction perpendicular to the direction of pushing down subassembly (32), first motor (3103) set up in the one end of horizontal slide rail (3101), first lead screw (3104) are connected with the output of first motor (3103), set up mounting groove (31011) that supply first lead screw (3104) to install on horizontal slide rail (3101), first slider (3105) screw-thread fit is on first lead screw (3104), first slider (3105) slide in mounting groove (31011), slider (3102) slide and connect on horizontal slide rail (3101), pushing down subassembly (32) set up in one side that mount table (1) were kept away from to slider (3102), first mounting bracket (3106) are used for fixed slider (2) and first slider (3106), first slider (3106) are provided with first slider (31012) on the first slider (3106).

5. A bearing set assembly apparatus according to claim 4, wherein: the pressing component (32) comprises a vertical sliding rail (3201), a sliding plate (3202), a second motor (3203), a second screw rod (3204), a second sliding block (3205), a second fixing piece (3206) and a pressing plate (3207);

the utility model provides a device, includes slider (3102), first motor (3203) and second motor (3203), first motor (3204) and second motor (3203) are connected, set up on slider (3102) one side of keeping away from transverse slide (3101), first motor (3201) is along length direction perpendicular to transverse slide (3101) length direction, second motor (3203) set up in the one end of vertical slide (3201), second screw (3204) and second motor (3203)'s output are connected, set up on vertical slide (3201) slide groove (32011) that supply second screw (3204) to install, second slide block (3205) screw thread fit is on second screw (3204), second slide block (3205) slides in slide groove (32011), slide (3202) slide and be connected on vertical slide (3201), second mounting (3205) and slide plate (3202) are used for fixing second slide hole (12) that second mounting (3206) slided are offered on vertical slide (3201), install in slider (3207) and supply slide (3204) to rotate.

6. A bearing set assembly apparatus according to claim 5, wherein: a reinforcing plate (3208) is arranged between the pressing plate (3207) and the sliding plate (3202).

7. A bearing set assembly apparatus according to claim 5, wherein: the rotating device (4) comprises a driving assembly (41) and an adsorption assembly (42), wherein the driving assembly (41) comprises a wire group (4101) and a driving motor (4102);

the driving motor (4102) is arranged on one side, far away from the clamp device (2), of the pressing plate (3207), the wire set (4101) is connected with the driving motor (4102), the wire set (4101) is used for supplying power to the driving motor (4102), a perforation (32071) for enabling an output end of the driving motor (4102) to penetrate through is formed in the pressing plate (3207), the adsorption component (42) is arranged at the output end of the driving motor (4102), and the adsorption component (42) is used for fixing a bearing sleeve at the output end of the driving motor (4102).

8. A bearing set assembly apparatus according to claim 7, wherein: the adsorption assembly (42) comprises a fixed sleeve (4201) and an attracting magnet (4202), the fixed sleeve (4201) is arranged at the output end of the driving motor (4102), a placing groove (42011) for installing a bearing sleeve is formed in the fixed sleeve (4201), the attracting magnet (4202) is arranged at one side, far away from the driving motor (4102), of the fixed sleeve (4201), and the attracting magnet (4202) is used for limiting the bearing sleeve in the placing groove (42011).

9. A bearing set assembly apparatus according to claim 8, wherein: the adsorption assembly (42) further comprises a limiting block (4203), the limiting block (4203) is arranged on one side, far away from the driving motor (4102), of the fixed sleeve (4201), and the limiting block (4203) is used for limiting the bearing sleeve in the placement groove (42011).

10. A bearing set assembly apparatus according to claim 7, wherein: the vertical sliding rail (3201) is provided with a limiting shell (32013) for limiting the line group (4101), the limiting shell (32013) is provided with a wire groove (32014) through which the line group (4101) penetrates, the limiting shells (32013) are uniformly arranged along the length direction of the vertical sliding rail (3201), and the adjacent limiting shells (32013) are hinged with each other.

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