CN216564872U - Equipment assembling tool - Google Patents
Equipment assembling tool Download PDFInfo
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- CN216564872U CN216564872U CN202121932731.1U CN202121932731U CN216564872U CN 216564872 U CN216564872 U CN 216564872U CN 202121932731 U CN202121932731 U CN 202121932731U CN 216564872 U CN216564872 U CN 216564872U
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Abstract
The utility model provides an equipment assembly tool, which comprises: the first workbench comprises a first component mounting table and a first linear driving device, wherein the first component mounting table is suitable for fixing the first component and is fixed with the position of a first driving piece of the first linear driving device; the second workbench is fixedly connected with the first moving part of the first linear driving device, can move along a first direction under the driving of the first linear driving device, and comprises a second part mounting table and a second linear driving device, wherein the second part mounting table is suitable for mounting the second part, is fixedly connected with the second driving part of the second linear driving device, can move along a second direction under the driving of the second linear driving device, and is perpendicular to the first direction. The equipment assembling tool provided by the utility model can improve the assembling precision and safety under the condition of avoiding personnel from contacting equipment.
Description
Technical Field
The utility model relates to the technical field of mechanical equipment, in particular to an equipment assembling tool.
Background
The most important parts of the motor are a stator and a rotor respectively, and the rotor rotates in a space enclosed by the stator in the working process of the motor to realize the conversion of electric energy and mechanical energy.
Along with the improvement of the performance requirement of the motor, the requirement of the concentricity of the stator and the rotor of the motor is also continuously improved. However, since the rotor part is provided with the permanent magnet, during the assembly process, a large suction force is generated between the rotor and the stator, so that the relative position between the rotor and the stator is deviated, the centers of the rotor and the stator are difficult to align, and if the rotor and the stator are eccentric, the assembled motor generates an eccentric force, so that a series of problems of increased torque fluctuation, increased cogging force, increased vibration, increased noise and the like of the motor are caused, and the performance of the motor is affected; in addition, in the assembly process, potential safety hazards are caused to operators due to the existence of the suction force between the rotor and the stator.
Therefore, how to improve the assembly accuracy while avoiding the contact of the personnel with the equipment becomes a technical problem to be solved by the technical personnel in the field.
SUMMERY OF THE UTILITY MODEL
The embodiment of the utility model provides an equipment assembling tool, which is used for improving assembling precision under the condition that personnel are prevented from directly contacting equipment.
The technical scheme of the utility model provides an equipment assembly tool, which comprises:
the first workbench comprises a first component mounting table and a first linear driving device, wherein the first component mounting table is suitable for fixing the first component and is fixed with a first driving piece of the first linear driving device in position;
the second workbench is fixedly connected with the first moving part of the first linear driving device, can move along a first direction under the driving of the first linear driving device and keeps the position in the first direction fixed when the driving is stopped, and comprises a second component mounting table and a second linear driving device, wherein the second component mounting table is suitable for mounting the second component, is fixedly connected with the second moving part of the second linear driving device, can move along a second direction under the driving of the second linear driving device and keeps the position in the second direction fixed when the driving is stopped, and the second direction is perpendicular to the first direction.
Optionally, the first driving member includes a first lead screw, the first moving member includes a first nut, and the first nut is mounted on the first lead screw;
the first table further comprises:
the first support seat can rotatably support the first end of the first screw rod;
and the second support seat can rotatably support the second end of the first screw rod.
Optionally, the first linear driving device further includes:
the first locking ring is sleeved on the first screw rod, is positioned at one end of the first screw rod and is provided with a first thread locking hole, and the first thread locking hole extends along the radial direction of the first locking ring;
and the first locking bolt is in threaded fit with the first threaded locking hole and is suitable for abutting against the first screw rod to lock the rotary motion of the first screw rod.
Optionally, the first nut includes a first supporting surface, and the first supporting surface is matched with the connecting surface of the second workbench.
Optionally, the second driving element of the second linear driving device includes a second lead screw, and the second lead screw is further provided with a second nut;
the second stage further comprises:
the third supporting seat can rotatably support the first end of the second screw rod;
and the fourth supporting seat can rotatably support the second end of the second screw rod.
Optionally, the second linear driving device further includes:
the second locking ring is sleeved on the second screw rod, is positioned at one end of the second screw rod and is provided with a second thread locking hole, and the second thread locking hole extends along the radial direction of the second locking ring;
and the second locking bolt is in threaded fit with the second threaded locking hole and is suitable for abutting against the second screw rod to lock the rotary motion of the second screw rod.
Optionally, the second nut is fixed to the second component mounting table through a mounting hole on a second contact surface in fitting contact with the second component mounting table.
Optionally, the first working table further includes: and the first guide device is fixedly connected with the second workbench and is suitable for guiding the second workbench to move along the axial direction of the first screw rod.
Optionally, the first guiding device comprises:
the extension direction of the sliding rail is parallel to the axis direction of the first screw rod;
the sliding block is fixedly connected with the second workbench and clamped with the sliding rail, and can slide along the sliding rail.
Compared with the prior art, the technical scheme of the utility model has the following advantages:
the equipment assembly tool provided by the technical scheme of the utility model is provided with the first workbench and the second workbench, when assembling the equipment, fixing a first component of the equipment to be assembled on the first component mounting table of the first workbench, fixing a second component of the equipment to be assembled on the second component mounting table of the second workbench, the second linear driving device of the second workbench drives the second component mounting table to move along the second direction, so that the calibration of the relative position of the second component and the first component in the second direction is realized, and the first linear driving device drives the second workbench to move to a position where the second part is assembled with the first part along a first direction, so as to assemble the first part and the second part, wherein the first direction is vertical to the second direction. Therefore, in the process of calibrating the relative position of the first component and the second component, the first linear driving device and the second linear driving device can realize accurate adjustment of the relative position of the first component and the second component, and in the process of moving and assembling the second component relative to the first component, the two components are always fixedly connected to the corresponding mounting tables, so that component shaking and position change caused by external force such as electromagnetic force can be avoided, assembly errors can be avoided, the precision of equipment assembly can be improved, and in the process of calibrating the assembly position, an equipment assembler does not need to directly contact the two components, and does not need to adjust the relative position by manpower, and the safety is high.
Drawings
In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.
FIG. 1 is a schematic structural view of the equipment assembly fixture of the present invention;
FIG. 2 is a schematic structural diagram of a first workbench of the equipment assembly fixture of the present invention;
FIG. 3 is a schematic structural view of a second workbench of the equipment assembling tool of the utility model;
FIG. 4 is a schematic structural diagram of a first linear driving device of the equipment assembling tool of the utility model;
FIG. 5 is a schematic structural view of a second linear driving device of the equipment assembling tool of the utility model;
Detailed Description
Known from the background art, the frock of current equipment assembly has the potential safety hazard and the assembly precision is not high.
In order to improve the precision and the safety of equipment assembly, the embodiment of the utility model provides an equipment assembly tool, which comprises:
the first workbench comprises a first component mounting table and a first linear driving device, wherein the first component mounting table is suitable for fixing the first component and is fixed with a first driving piece of the first linear driving device in position;
the second workbench is fixedly connected with the first moving part of the first linear driving device, can move along a first direction under the driving of the first linear driving device and keeps the position in the first direction fixed when the driving is stopped, and comprises a second component mounting table and a second linear driving device, wherein the second component mounting table is suitable for mounting the second component, is fixedly connected with the second moving part of the second linear driving device, can move along a second direction under the driving of the second linear driving device and keeps the position in the second direction fixed when the driving is stopped, and the second direction is perpendicular to the first direction.
When the equipment is assembled, a first part of the equipment to be assembled is fixed on the first part mounting table of the first workbench, a second part of the equipment to be assembled is fixed on the second part mounting table of the second workbench, the second part mounting table is driven to move along the second direction through the second linear driving device of the second workbench, the calibration of the relative position of the second part and the first part in the second direction is realized, the second workbench is driven to move along the first direction to the position where the second part and the first part are assembled through the first linear driving device, and the first part and the second part are assembled, wherein the first direction is vertical to the second direction.
Therefore, in the process of calibrating the relative position of the first component and the second component, the first linear driving device and the second linear driving device can realize accurate adjustment of the relative position of the first component and the second component, and in the process of moving and assembling the second component relative to the first component, the two components are always fixedly connected to the corresponding mounting tables, so that component shaking and position change caused by external force such as electromagnetic force can be avoided, assembly errors can be avoided, the precision of equipment assembly can be improved, and in the process of calibrating the assembly position, an equipment assembler does not need to directly contact the two components, and does not need to adjust the relative position by manpower, and the safety is high.
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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.
It should be noted that the indication of the direction or the positional relationship referred to in the present specification is based on the direction or the positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and it is not intended to indicate or imply that the indicated device must have a specific direction, be configured in a specific direction, and thus, should not be construed as limiting the present invention.
Referring to fig. 1 to 3, fig. 1 is a schematic structural diagram of an apparatus assembly fixture according to an embodiment of the present invention, fig. 2 is a schematic structural diagram of a first workbench of the apparatus assembly fixture according to the present invention, and fig. 3 is a schematic structural diagram of a second workbench of the apparatus assembly fixture according to the present invention.
As shown in the drawings, an apparatus assembly tool provided in an embodiment of the present invention includes:
a first table 100 comprising: a first component mounting table 110 adapted to fix the first component 101 and to fix a position of a first driving member 121 of a first linear driving device 120; the first linear driving device 120 further comprises a first moving member 122;
the second table 200 includes a second component mounting table 210 and a second linear driving device 220. The second component mounting table 210 is adapted to mount the second component 201, the second linear driving device 220 includes a second driving element 221 and a second moving element 222, and the second component mounting table 210 is fixedly connected with the second moving element 222;
referring to fig. 1 and 2, the second worktable 200 is fixedly connected to the first moving member 122 of the first linear driving device 120, and can be driven by the first linear driving device 120 to move along a first direction and keep a fixed position in the first direction when the driving is stopped, and the second component mounting table 210 can be driven by the second linear driving device 220 to move along a second direction and keep a fixed position in the second direction when the driving is stopped, and the second direction is perpendicular to the first direction.
It is easy to understand that the first component 101 and the second component 201 are two components in an equipment tool to be assembled, the first component mounting table 110 is adapted to fix the first component 101, that is, when the first component 101 is assembled, the first component 101 is fixed to the first component mounting table 110, and when the first component 101 is not assembled, the first component 101 may be fixed to the first component mounting table 110 or may not be fixed to the first component mounting table 110, and the meaning of the second component mounting table 210 adapted to mount the second component 201 is the same as that of the first component mounting table 110 adapted to fix the first component 101, and is not described herein again.
In addition, as is apparent from the foregoing description, the second component mounting table 210 is movable in a first direction and a second direction perpendicular to each other with respect to the first component mounting table 110, thereby bringing the relative positions of the first component 101 and the second component 201 to positions where they can be assembled.
Specifically, when the device to be assembled is a motor, the first component 101, that is, a stator part (including a stator and a housing), may be fixed to the first component mounting table 110 of the first workbench 100, the second component 201, that is, a rotor part, may be fixed to the second component mounting table 210 of the second workbench 200, and the second linear driving device 220 of the second workbench 200 drives the second component mounting table 210 to move along the second direction, so as to achieve the calibration of the relative position of the rotor and the stator in the second direction, that is, meet the concentricity requirement of the outer circle of the rotor and the inner circle of the stator core. The second worktable 200 is driven by the first linear driving device 120 to move along the first direction to a position where the rear end cover of the rotor coincides with the housing of the stator, that is, a position where the rotor and the stator are assembled, and the rotor and the stator are assembled at the position.
The equipment assembling tool is used for assembling the stator and the rotor of the motor, can realize accurate assembly, completely meets the requirement of concentricity of the stator and the rotor required by stable operation of the motor, does not need to directly contact the stator and the rotor in the assembling process, and has high safety.
Of course, in other embodiments, the device to be assembled may also be other devices.
The structure of the first component mounting table 110 and the second component mounting table 210, the relative position of the first component 101 and the first component mounting table 110, and the relative positions of the second part 201 and the second part mounting stage 210 may be different, for example, to facilitate assembly of the motor, the mounting surface of the first component mounting stage 110 may be set to be fixed perpendicular to the mounting plane of the first table 100, i.e. the stator of the motor is fixed to one side plane of the first component mounting table 110 (as shown in figure 1), so that the axis of the stator is perpendicular to the side (i.e. mounting plane) of the first component mounting stage 110, in order to ensure the installation of the stator part and the rotor part, the first component mounting base 110 is provided with a receiving hole for the rotation shaft, and, of course, in other embodiments, the stator may be fixed to the upper plane of the first component mounting table 110; in addition, it is easily understood that the mounting surface of the second component mounting base 210 on the second table 200 may be set to be perpendicular to the mounting plane of the second table 200, and the rotor is also fixed to a side plane of the second component mounting base 210, so that the relative position of the rotor portion and the stator portion is easily aligned, the rotor is conveniently inserted into the inner space of the stator, and the assembly accuracy is improved.
When other types of accessories are assembled and the accessories need to be assembled at other inclined angles, the installation angles of the first component installation platform 110 and the second component installation platform 210 relative to the first workbench 100 and the second workbench 200 respectively can be adjusted according to actual requirements, and meanwhile, the first direction and the second direction driven by the first linear driving device 120 and the second linear driving device 220 respectively can be adjusted respectively, so that the assembly precision of the equipment is ensured.
The second component mounting table 210 is movable in the mutually perpendicular directions with respect to the first component mounting table 110, and thus, the first component 101 and the second component 201 can be assembled, but if necessary, a third table may be provided, and the position of the third table may be adjusted in a third direction perpendicular to both the first direction and the second direction.
In this embodiment, the equipment assembly tool is based on the first component 101 and the second component 201 to be assembled, and the relative position in the third direction meets the installation requirement.
Therefore, through the equipment assembly tool provided by the utility model, in the process of calibrating the relative position of the first part 101 and the second part 201, precise adjustment of the relative position of the first part 101 and the second part 201 is possible by means of the first linear drive 120 and the second linear drive 220, and during the movement and assembly of said second part 201 with respect to said first part 101, both parts are always kept fixedly connected to the respective mounting stations, this can also avoid assembly errors caused by component shaking and position changes due to external forces such as electromagnetic forces, etc., can improve the assembly accuracy of the device, and when the assembly position is calibrated, the equipment assembly personnel do not need to directly contact the two parts, and the manual adjustment and the position relative position are not needed, so that the safety is high.
Specifically, in a specific implementation manner, in the apparatus assembly fixture provided in the embodiment of the present invention, the first linear driving device 120 may be mechanically driven, for example, the first driving component 121 of the first linear driving device 120 may include a screw driving device, please refer to fig. 4 in conjunction with fig. 1 and fig. 2, and fig. 4 is a schematic structural diagram of the first linear driving device of the apparatus assembly fixture of the present invention.
As shown in the drawings, the first driving member 121 may include a first lead screw 1210, the first moving member 122 may include a first nut 1220, the first nut 1220 is mounted on the first lead screw 1210, and the first table 100 further includes a first supporting seat 131 adapted to rotatably support a first end of the first lead screw 1210, and a second supporting seat 132 adapted to rotatably support a second end of the first lead screw 1210.
Thus, when the first lead screw 1210 rotates, the first nut 1220 is fixedly connected with the second worktable 200 and cannot rotate along with the first lead screw 1210, so that the first lead screw 1210 moves, and the second worktable 200 moves along the first direction.
It is easy to understand that, in order to ensure the rotatable support of the first screw 1210 by the first supporting seat 131 and the second supporting seat 132, bearings, specifically rolling bearings, and sliding bearings may be respectively disposed at two ends, and in addition, the first supporting seat 131 and the second supporting seat 132 may also avoid the distortion or deformation of the first screw 1210, which may be caused when the second component is installed and adjusted, and further may cause a safety hazard and an adverse effect on the assembling precision of the equipment.
Of course, in order to realize the rotation of the first lead screw 1210, a rotation force can be applied to one end of the first lead screw 1210, and in one embodiment, the rotation force can be realized by arranging a rotation handle 161 at one end of the first lead screw 1210 (as shown in fig. 1), so that when the second working platform 200 needs to be moved, only the first lead screw 1210 needs to be rotated by the rotation handle 161; in other embodiments, a motor may be connected to one end of the first lead screw 1210, and when the second working platform 200 needs to be moved, the motor is turned on, so that the first lead screw 1210 can also rotate.
Therefore, by means of driving the first lead screw 1210 and the first nut 1220 to drive the second workbench 200 to move, when the device is assembled, a device assembler can adjust the position of the second part relative to the first part in the first direction, so that the assembly precision is improved; meanwhile, the second workbench 200 is mounted on the first lead screw 1210 through the first nut 1220, and when the corresponding second workbench 200 needs to be replaced when additionally assembling equipment with different sizes or specifications, equipment assembling personnel can conveniently disassemble the second workbench 200 and replace the second workbench 200 matched with new equipment to be assembled, so that the adaptability of the equipment assembling tool is improved.
In addition, in order to ensure that the second worktable 200 can stably and balancedly move in the first direction without deviation or overturning under the driving of the first linear driving device 120, in another specific embodiment, an apparatus assembling tool is further provided in an embodiment of the present invention, please continue to refer to fig. 1 and fig. 2. As shown in the drawing, a first guide 150 is installed on the first table 100, and is fixedly connected to the second table 200 to guide the second table 200 to move along the axial direction of the first screw 1210. The limitation and guidance of the movement of the second worktable 200 by the first guiding device 150 can ensure that the relative installation positions of the second component and the first component which are adjusted previously cannot be shifted during the process of moving the second component and the first component to be closely assembled, thereby influencing the assembly precision of the equipment.
Of course, in order to more smoothly guide the second worktable 200 to move along the axial direction of the first lead screw 1210, in one embodiment, as shown in fig. 1 and 2, the first guiding device 150 includes a first slide rail 151 and at least one first slide block 152 clamped with the first slide rail 151, wherein the extending direction of the first slide rail 151 is parallel to the axial direction of the first lead screw 1210, and the first slide block 152 can slide along the first slide rail 151 and is fixedly connected with the second worktable 200. In practical applications, more first slide rails 151 and corresponding first sliding blocks 152 may be added to the devices to be assembled based on different specifications or sizes to provide more stable support and guidance for the second working table 200, which is not limited herein.
Therefore, the first slide rail 151 parallel to the axis direction of the first screw rod 1210 and the first slide block 152 clamped with and fixedly connected with the first slide rail 151 are used for limiting and guiding the second workbench 200 to fixedly move along the axis direction of the first screw rod 1210 without displacement in other directions, so that the precision of equipment assembly is ensured, in addition, the slide rail and the slide block device are easy to disassemble and assemble, the slide rail and the slide block device with different model sizes can be flexibly selected according to the requirements of equipment assembly with different specifications, good adaptability and expandability are brought to equipment tools, and the cost is low.
In order to prevent the position from being changed after the adjustment to the corresponding position, and thus the assembly accuracy is not affected, in another specific implementation manner, an embodiment of the present invention further provides an apparatus assembly tool, please refer to fig. 4.
As shown in the figure, the first linear driving device further includes a first locking ring 141 and a first locking bolt 142, the first locking ring 141 is sleeved on the first lead screw 1210, a first threaded locking hole 1411 is formed in the first locking ring 141, and the first threaded locking hole 1411 extends along the radial direction of the first locking ring 141;
the first locking bolt 142 is engaged with the first thread locking hole 1411, and is adapted to abut against the first lead screw 1210 to lock the rotation of the first lead screw 1210.
Of course, in order to improve the locking effect, the number of the first locking holes 1411 may be plural, and the number of the first locking bolts 142 is the same as the number of the first locking holes 1411, so that the locking of the first lead screw 1210 is achieved by using the plural first locking bolts 142.
For the convenience of locking, the first locking ring 141 may be disposed at one end of the first lead screw 1210, and specifically, may be the same end as that of the first lead screw 1210, so that after the adjustment is completed, the position locking may be achieved without changing the position.
Therefore, by sleeving the first locking ring 141 on the first lead screw 1210 and matching the first locking bolt 142 with the threads of the first threaded locking hole 1411 to achieve the rotational locking of the first lead screw 1210, it can be ensured that the mounting and adjusting accuracy is not affected by the rotation of the first lead screw 1210 when the second component 201 is mounted and the mounting position of the second component relative to the first component 101 is adjusted and aligned.
In addition, in the conventional embodiment, the second worktable 200 is fixedly connected to the first lead screw 1210 through the first nut 1220, and it is easily understood that the supporting surface of the first nut 1220 can be matched with the connecting surface of the second worktable 200, so that the second worktable 200 can be sufficiently fixed, and the second part 201 is prevented from being unnecessarily shaken when being mounted and moved to affect the assembling effect.
In addition to the movement of the second table 200 in the first direction, the movement of the second component mounting table 210 in the second direction is also required, and in one embodiment, the second linear actuator 220 may be mechanically driven in order to achieve precise adjustment of the position of the second component 201 relative to the first component 101. For example, the second driving element 221 of the second linear drive 220 may comprise a spindle drive, see fig. 3 and 5.
As shown in the drawings, the second driving member 221 may include a second lead screw 2210, the second moving member 222 may include a second nut 2220, the second nut 2220 is mounted on the second lead screw 2210, and the second table 200 further includes a third supporting seat 231 adapted to rotatably support a first end of the second lead screw 2210, and a fourth supporting seat 232 adapted to rotatably support a second end of the second lead screw 2210.
Thus, when the second lead screw 2210 is rotated, since the second nut 2220 is fixedly coupled to the second part mounting table 210, it cannot be rotated together with the second lead screw 2210, and thus moves along the second lead screw 2210, enabling the second part mounting table 210 to move in the second direction.
It is easy to understand that, in order to ensure the rotatable support of the second screw 2210 by the third support seat 231 and the fourth support seat 232, bearings, specifically rolling bearings or sliding bearings, may be respectively disposed at two ends, and in addition, the third support seat 231 and the fourth support seat 232 may avoid the distortion or deformation of the second screw 2210, which may be caused when the second component 201 is installed and adjusted, and thus may cause a safety hazard and an adverse effect on the precision of the equipment assembly.
Of course, in order to achieve rotation of the second screw 2210, a rotating force may be applied to one end of the second screw 2210, and in a specific embodiment, it may be achieved by providing a rotating handle 251 at one end of the second screw 2210 (as shown in fig. 3 and 5), so that, when it is necessary to move the second component mounting table 210, it is only necessary to rotate the second screw 2210 by rotating the rotating handle 251; in other embodiments, a motor may be connected to one end of the second lead screw 2210, and when it is necessary to move the second part mounting table 210, the motor is turned on, and rotation of the second lead screw 2210 may also be achieved.
It can be seen that, by means of moving the second lead screw 2210 and the second nut 2220 to drive the second component mounting table 210, the position of the second component in the second direction relative to the first component 101 can be adjusted by the equipment assembler during equipment assembly, thereby improving the assembly accuracy.
Meanwhile, the second component mounting table 210 is mounted on the second lead screw 2210 through the second nut 2220, and when equipment with different sizes or specifications needs to be assembled, an equipment assembler can replace the second component mounting table 210 correspondingly matched with the equipment assembler, so that the adaptability of the equipment assembly tool is improved.
In order to prevent the second component 201 from shaking after being adjusted in position, which affects the assembly precision, in another specific embodiment, an embodiment of the present invention further provides an apparatus assembly fixture, please refer to fig. 3 and fig. 5.
As shown in the figure, the second linear driving device further includes a second locking ring 241 and a second locking bolt 242, the second locking ring 241 is sleeved on the second lead screw 2210, a second threaded locking hole 2411 is formed on the second locking ring 241, and the second threaded locking hole 2411 extends along the radial direction of the first locking ring 241;
and the second locking bolt 242 is engaged with the thread of the second thread locking hole 2411 and adapted to abut against the second lead screw 2210 to lock the rotational movement of the second lead screw 2210.
Of course, in order to enhance the locking effect, the number of the second locking holes 2411 may be plural, and the number of the second locking bolts 242 may be the same as the number of the second locking holes 2411, so that the locking of the second lead screw 2210 is accomplished by the plural second locking bolts 242.
For the convenience of locking, the second locking ring 241 may be disposed at one end of the second lead screw 2210, and specifically, may be the same end as that providing the rotating power source for the second lead screw 2210, so that after the adjustment is completed, the position locking can be achieved without changing the position.
It can be seen that by fitting the second lock ring 241 on the second lead screw 2210 and by mating the second lock bolt 242 with the threads of the second threaded lock hole 2411 to lock the rotation of the second lead screw 2210, it is possible to ensure that the accuracy of mounting and adjustment is not affected by the rotation of the second lead screw 2210 when mounting the second component 201 and adjusting the mounting position thereof with respect to the first component 101 in alignment.
In addition, in the prior art, the second component mounting table 210 is fixedly connected to the second lead screw 2210 through the first nut 2220, it is easily understood that the supporting surface of the second nut 2220 can be matched with the connecting surface of the second component mounting table 210, so that the second component mounting table 210 can be sufficiently fixed, and the assembling effect can be prevented from being affected by unnecessary shaking generated when the second component 201 is mounted and moved.
Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the utility model as defined in the appended claims.
Claims (9)
1. The utility model provides an equipment assembly fixture which characterized in that includes:
the first workbench comprises a first component mounting table and a first linear driving device, wherein the first component mounting table is suitable for fixing the first component and is fixed with a first driving piece of the first linear driving device in position;
the second workbench is fixedly connected with the first moving part of the first linear driving device, can move along a first direction under the driving of the first linear driving device and keeps the position in the first direction fixed when the driving is stopped, and comprises a second component mounting table and a second linear driving device, wherein the second component mounting table is suitable for mounting the second component, is fixedly connected with the second moving part of the second linear driving device, can move along a second direction under the driving of the second linear driving device and keeps the position in the second direction fixed when the driving is stopped, and the second direction is perpendicular to the first direction.
2. The equipment assembly tool of claim 1, wherein the first driving member comprises a first lead screw, the first moving member comprises a first nut, and the first nut is mounted on the first lead screw;
the first table further comprises:
the first support seat can rotatably support the first end of the first screw rod;
and the second support seat can rotatably support the second end of the first screw rod.
3. The equipment assembly tooling of claim 2, wherein the first linear drive device further comprises:
the first locking ring is sleeved on the first screw rod, is positioned at one end of the first screw rod and is provided with a first thread locking hole, and the first thread locking hole extends along the radial direction of the first locking ring;
and the first locking bolt is in threaded fit with the first threaded locking hole and is suitable for abutting against the first screw rod to lock the rotary motion of the first screw rod.
4. The equipment assembling tool according to claim 2, wherein the first nut comprises a first supporting surface, and the first supporting surface is matched with the connecting surface of the second workbench.
5. The equipment assembling tool according to claim 1, wherein the second driving piece of the second linear driving device comprises a second lead screw, and a second nut is further mounted on the second lead screw;
the second table further comprises:
the third supporting seat can rotatably support the first end of the second screw rod;
and the fourth supporting seat can rotatably support the second end of the second screw rod.
6. The equipment assembly tooling of claim 5, wherein the second linear drive further comprises:
the second locking ring is sleeved on the second screw rod, is positioned at one end of the second screw rod and is provided with a second thread locking hole, and the second thread locking hole extends along the radial direction of the second locking ring;
and the second locking bolt is in threaded fit with the second threaded locking hole and is suitable for abutting against the second screw rod to lock the rotary motion of the second screw rod.
7. The equipment assembling tool according to claim 5, wherein the second nut is fixed to the second component mounting table through a mounting hole in a second contact surface in fit contact with the second component mounting table.
8. The equipment assembling tool according to any one of claims 2 to 4,
the first table further comprises:
and the first guide device is fixedly connected with the second workbench and is suitable for guiding the second workbench to move along the axial direction of the first screw rod.
9. The equipment assembly tooling of claim 8, wherein the first guide device comprises:
the extension direction of the slide rail is parallel to the axial direction of the first screw rod;
the sliding block is fixedly connected with the second workbench and clamped with the sliding rail, and can slide along the sliding rail.
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CN114785074A (en) * | 2022-05-25 | 2022-07-22 | 瑞昌市森奥达科技有限公司 | Motor assembling equipment and operation method thereof |
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