阅读说明：本技术 一种具有自动限位的电机组装设备 (Motor assembling equipment with automatic limiting function ) 是由 黄军梅 陈纯 胡常华 范朝辉 于 2020-06-22 设计创作，主要内容包括：本发明公开了一种具有自动限位的电机组装设备,包括操作台、进料模块、工位模块、夹料模块和封盖模块,所述操作台的内部设置有安装底座,且安装底座的右上方安装有安装框架,所述操作台的左上方设置有进料模块,所述进料模块包括主传动带、脚架、斜面槽和限位圈,且主传动带的右侧连接有斜面槽,所述斜面槽的底部安装有脚架,且斜面槽的底端设置有限位圈,所述操作台的顶部固定有工位模块,所述工位模块中部竖直贯穿设置有封盖模块,所述夹料模块位于操作台的右后侧,该种具有自动限位的电机组装设备,使用者可以通过进料模块、夹料模块以及封盖模块,完成对电机各部件的自动限位以及组装。(The invention discloses motor assembling equipment with automatic limiting function, which comprises an operating platform, a feeding module, a station module, a clamping module and a sealing cover module, wherein an installation base is arranged inside the operating platform, and the right upper part of the installation base is provided with an installation frame, the left upper part of the operation platform is provided with a feeding module, the feeding module comprises a main driving belt, a foot rest, an inclined plane groove and a spacing ring, and the right side of the main transmission belt is connected with an inclined plane groove, the bottom of the inclined plane groove is provided with a foot rest, the bottom end of the inclined plane groove is provided with a limit ring, a station module is fixed at the top of the operating platform, a sealing cover module vertically penetrates through the middle of the station module, the material clamping module is positioned at the right rear side of the operating platform, according to the motor assembling equipment with the automatic limiting function, a user can complete automatic limiting and assembling of all parts of the motor through the feeding module, the clamping module and the sealing cover module.)

1. The utility model provides a motor equipment with it is automatic spacing, includes operation panel (1), feeding module (4), station module (5), presss from both sides material module (6) and closing cap module (7), its characterized in that: the automatic feeding device is characterized in that an installation base (2) is arranged inside the operating table (1), an installation frame (3) is installed on the upper right side of the installation base (2), a feeding module (4) is arranged on the upper left side of the operating table (1), a circular truncated cone (501) is arranged in the middle of the station module (5), the station module (5) is located above the operating table (1), meshing teeth (507) are arranged at the bottom of the circular table (501), meshing gears (503) are matched with the lower portions of the meshing teeth (507), the meshing gears (503) are connected with the output end of a main motor (502), a center hole (504) is formed inside the circular table (501), a front end cover hole (505) is installed outside the center hole (504), a shaft hole (506) is formed inside the front end cover hole (505), and a sealing cover module (7) vertically penetrates through the middle of the station module (5), the material clamping module (6) is positioned on the right rear side of the operating platform (1).

2. The motor assembling device with automatic limit as claimed in claim 1, wherein: the feeding module (4) comprises a main transmission belt (401), a foot rest (402), an inclined plane groove (403) and a limiting ring (404), wherein the right side of the main transmission belt (401) is connected with the inclined plane groove (403), the foot rest (402) is installed at the bottom of the inclined plane groove (403), and the limiting ring (404) is arranged at the bottom end of the inclined plane groove (403).

3. The motor assembling device with automatic limit as claimed in claim 2, wherein: the main transmission belt (401) is fixedly connected with the inclined plane groove (403), the inclined plane groove (403) and the foot rest (402) are of an integrated structure, and the inclined plane groove (403) and the limiting ring (404) are welded.

4. The motor assembling device with automatic limit as claimed in claim 1, wherein: the front end cover hole (505) is annularly arranged relative to the circle center of the circular table (501), the front end cover hole (505) and the shaft hole (506) form an integrated structure, the main motor (502) and the meshing gear (503) are welded, the meshing gear (503) is matched with the meshing teeth (507), and the meshing gear (503) forms a rotatable structure through the main motor (502) and the meshing teeth (507).

5. The motor assembling device with automatic limit as claimed in claim 1, wherein: the material clamping module (6) comprises a hanging plate (601), a threaded rod (602), electric clamping jaws (603), a spiral groove (604), a driven gear (605), a convex block (606), a supporting ring (607), a supporting frame (608), a transmission gear (609), an auxiliary motor (610) and an auxiliary transmission belt (611), wherein the bottom of the hanging plate (601) is provided with the threaded rod (602), the two ends of the bottom of the hanging plate (601) are respectively provided with the electric clamping jaws (603), the outer part of the threaded rod (602) is provided with the spiral groove (604), the outer side of the middle part of the threaded rod (602) is sleeved with the driven gear (605), the inner side of the driven gear (605) is provided with the convex block (606), the bottom of the driven gear (605) is connected with the supporting ring (607), the bottom of the supporting ring (607) is connected with the supporting frame (608), the, the bottom of the transmission gear (609) is connected with the output end of the auxiliary motor (610), the bottom of the auxiliary motor (610) is connected with the mounting frame (3), and an auxiliary conveying belt (611) is arranged below the rear side of the hanging plate (601).

6. The motor assembling device with automatic limit as claimed in claim 5, wherein: the hanging plate (601) and the threaded rod (602) are of an integrated structure, the driven gear (605) and the supporting ring (607) are connected through a bearing to form a rotatable structure, the auxiliary motor (610) and the mounting frame (3) are connected through bolts to form a detachable structure, and the driven gear (605) and the transmission gear (609) are connected in a meshed mode to form a rotatable structure.

7. The motor assembling device with automatic limit as claimed in claim 1, wherein: the sealing cover module (7) comprises a hollow column (701), a hydraulic rod (702), a top plate (703), a ring-shaped clamp (704) and a movable hole (705), the hydraulic rod (702) is arranged inside the hollow column (701), the top plate (703) is installed at the top end of the hydraulic rod (702), the ring-shaped clamp (704) is arranged on the right side of the top plate (703), the movable hole (705) is longitudinally arranged on the right side of the hollow column (701) in a penetrating mode, and the ring-shaped clamp (704) penetrates through the movable hole (705).

8. The motor assembling device with automatic limit as claimed in claim 7, wherein: the hollow column (701) is connected with the circular platform (501) through a bearing to form a rotatable structure, and the hydraulic rod (702), the hollow column (701) and the top plate (703) are connected through bolts.

Technical Field

The invention relates to the technical field of motor production and assembly, in particular to motor assembly equipment with automatic limiting function.

Background

The motor mainly comprises motor casing, front and back end cover, bearing and arrange stator module and rotor subassembly etc. in the motor casing in, accomplishes the processing back of above-mentioned spare part, need assemble the motor casing to kernel components such as stator in, then assemble motor kernel rear to the motor heat exchanger that looses, has accomplished the equipment of motor promptly, and current motor equipment adopts manual assembly mostly.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides motor assembling equipment with automatic limiting function, which solves the problems in the prior art.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a motor equipment with it is automatic spacing, includes operation panel, feeding module, station module, presss from both sides material module and closing cap module, its characterized in that: the utility model discloses a hydraulic pressure oil-water separator, including operation panel, mounting base, station module, meshing gear, front end cover hole, mounting frame, clamping module, mounting base, mounting frame, feeding module, station module, front end cover hole, the vertical closing cap module that runs through in station module middle part, clamping module is located the right rear side of operation panel, the upper left side of operation panel is provided with feeding module, the middle part of station module is provided with the round platform, and the station module is located the top of operation panel, the bottom of round platform is provided with the meshing gear, and the below cooperation of meshing gear has the meshing gear, the meshing gear links to each other with the output of main motor, the inside of round platform is provided with the centre bore.

Preferably, the feeding module comprises a main driving belt, a foot rest, an inclined plane groove and a limiting ring, the right side of the main driving belt is connected with the inclined plane groove, the foot rest is installed at the bottom of the inclined plane groove, and the limiting ring is arranged at the bottom end of the inclined plane groove.

Preferably, the main driving belt is fixedly connected with the inclined plane groove, the inclined plane groove and the foot rest are of an integrated structure, and the inclined plane groove and the limiting ring are welded.

Preferably, the front end cover hole is annularly arranged around the circle center of the circular table, the front end cover hole and the shaft hole form an integrated structure, the main motor and the meshing gear are welded, the meshing gear is matched with the meshing teeth, and the meshing gear forms a rotatable structure through the main motor and the meshing teeth.

Preferably, press from both sides the material module and include hanger plate, threaded rod, electronic clamping jaw, helicla flute, driven gear, lug, support ring, support frame, drive gear, auxiliary motor and accessory drive area, and the bottom of hanger plate sets up and the threaded rod, the bottom both ends of hanger plate all are provided with electronic clamping jaw, and the outside of threaded rod is provided with the helicla flute, driven gear has been cup jointed in the middle part outside of threaded rod, and driven gear's inboard is provided with the lug, driven gear's bottom is connected with the support ring, and the bottom of support ring is connected with the support frame, driven gear's right side is provided with drive gear, and drive gear's bottom is connected with auxiliary motor's output, auxiliary motor's bottom is connected with the installation frame, the rear side below of hanger plate.

Preferably, hanger plate and threaded rod formula structure as an organic whole, be connected for the bearing between driven gear and the support ring, constitute rotatable structure, be bolted connection between vice motor and the installation frame, constitute detachable construction, be connected for the meshing between driven gear and the drive gear, constitute rotatable structure.

Preferably, the closing cap module includes hollow post, hydraulic stem, roof, ring clamp and activity hole, and the inside of hollow post is provided with the hydraulic stem, the roof is installed on the top of hydraulic stem, and the right side of roof is provided with the ring clamp, the right side of hollow post vertically runs through and is provided with the activity hole, and the ring clamp runs through in the activity hole.

Preferably, the hollow column is connected with the circular table through a bearing to form a rotatable structure, and the hydraulic rod is connected with the hollow column and the top plate through bolts.

The invention provides a motor assembling device with automatic limiting function, which has the following beneficial effects:

1. this kind of motor equipment with automatic spacing mutually supports between main conveyor and the inclined plane groove, can make equipment accomplish automatic feeding and automatic spacing to the motor front end housing, and the spacing collar can ensure simultaneously that the front end housing can not drop in circular platform surface.

2. This kind of motor equipment with automatic spacing through mutually supporting between threaded rod and the driven gear, can make the threaded rod drive hanger plate and electronic clamping jaw can the rising decline in rotatory, has reduced comparatively accurate complicated framework part to a certain extent, has ensured the indirection and the reliability of equipment.

3. This kind of motor equipment with automatic spacing, through the flexible annular clamp that drives of hydraulic stem reciprocates in the movable hole in the closing cap module, can make equipment accomplish the pressfitting equipment to motor heat exchanger that looses.

4. This kind of motor equipment with automatic spacing through adopting a large amount of bolted connection modes, is favorable to dismantling maintenance and change some vulnerable parts in the equipment.

5. This kind of motor equipment with automatic spacing through adopting a large amount of integral type structures or welded connection mode, is favorable to each part to keep firm connection in the equipment, increases equipment bulk strength simultaneously.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the feed module structure of the present invention;

FIG. 3 is a schematic structural diagram of a material clamping module according to the present invention;

FIG. 4 is a schematic view of a part of the material clamping module according to the present invention;

FIG. 5 is a schematic view of a portion of the closure module of the present invention;

FIG. 6 is a schematic view of a portion of a station module according to the present invention;

FIG. 7 is a schematic diagram of the structure of the modules of the present invention.

In the figure: 1. an operation table; 2. installing a base; 3. a mounting frame; 4. a feed module; 401. a main drive belt; 402. a foot rest; 403. an inclined plane groove; 404. a limiting ring; 5. a station module; 501. a circular table; 502. a main motor; 503. a meshing gear; 504. a central bore; 505. a front end cover hole; 506. a shaft hole; 507. meshing teeth; 6. a material clamping module; 601. a hanger plate; 602. a threaded rod; 603. an electric jaw; 604. a helical groove; 605. a driven gear; 606. a bump; 607. a support ring; 608. a support frame; 609. a transmission gear; 610. a secondary motor; 611. a secondary conveyor belt; 7. a capping module; 701. a hollow column; 702. a hydraulic lever; 703. a top plate; 704. a ring-shaped clamp; 705. and (4) a movable hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus are not to be construed as limiting the present invention, and furthermore, the terms "first", "second", "third", and the like are only used for descriptive purposes and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate, and those skilled in the art will understand the specific meaning of the above terms in the present invention in specific situations.

Referring to fig. 1 to 7, the present invention provides a technical solution: the utility model provides a motor equipment with it is automatic spacing, includes operation panel 1, feeding module 4, station module 5, presss from both sides material module 6 and closing cap module 7, its characterized in that: the inside of operation panel 1 is provided with installation base 2, and installs installation frame 3 in the upper right side of installation base 2, and the upper left side of operation panel 1 is provided with feed module 4, and feed module 4 includes main drive belt 401, foot rest 402, inclined plane groove 403 and spacing collar 404, and the right side of main drive belt 401 is connected with inclined plane groove 403, and foot rest 402 is installed to the bottom of inclined plane groove 403, and the bottom of inclined plane groove 403 is provided with spacing collar 404.

The main transmission belt 401 is fixedly connected with the inclined plane groove 403, the inclined plane groove 403 and the foot rest 402 are of an integrated structure, and the inclined plane groove 403 and the limiting ring 404 are welded.

The top of the operating platform 1 is fixed with a station module 5, the station module 5 comprises a circular platform 501, a main motor 502, a meshing gear 503, a central hole 504, a front end cover hole 505, a shaft hole 506 and meshing teeth 507, the bottom of the circular platform 501 is provided with the meshing teeth 507, the meshing gear 503 is matched below the meshing teeth 507, the meshing gear 503 is connected with the output end of the main motor 502, the circular platform 501 is internally provided with the central hole 504, the front end cover hole 505 is mounted outside the central hole 504, and the shaft hole 506 is arranged inside the front end cover hole 505.

The front end cover hole 505 is annularly arranged around the center of the circular table 501, the front end cover hole 505 and the shaft hole 506 form an integrated structure, the main motor 502 and the meshing gear 503 are welded, the meshing gear 503 is matched with the meshing teeth 507, and the meshing gear 503 forms a rotatable structure through the main motor 502 and the meshing teeth 507.

Through mutually supporting between main conveyer belt 401 and the inclined plane groove 403, can make equipment accomplish automatic feeding and the automatic spacing to the motor front end housing, spacing collar 404 can ensure that the front end housing can not drop in circular platform 501 surface simultaneously.

Through adopting a large amount of integral type structures or welded connection mode, be favorable to each part to keep firm connection in the equipment, increase equipment bulk strength simultaneously.

The middle of the station module 5 is vertically provided with a sealing cover module 7 in a penetrating mode, the sealing cover module 7 comprises a hollow column 701, a hydraulic rod 702, a top plate 703, an annular clamp 704 and a movable hole 705, the hydraulic rod 702 is arranged inside the hollow column 701, the top plate 703 is installed at the top end of the hydraulic rod 702, the annular clamp 704 is arranged on the right side of the top plate 703, the movable hole 705 is longitudinally arranged on the right side of the hollow column 701 in a penetrating mode, and the annular clamp 704 penetrates through the movable hole 705.

The hollow column 701 is connected with the circular table 501 through a bearing to form a rotatable structure, the hydraulic rod 702 is connected with the hollow column 701 and the top plate 703 through bolts, the hydraulic rod 702 in the sealing cover module 7 stretches and retracts to drive the annular clamp 704 to move up and down in the movable hole 705, and the equipment can be pressed and assembled on the motor heat dissipation cover.

The material clamping module 6 is positioned at the right rear side of the operating platform 1, the material clamping module 6 comprises a hanging plate 601, a threaded rod 602, an electric clamping jaw 603, a spiral groove 604, a driven gear 605, a convex block 606, a supporting ring 607, a supporting frame 608, a transmission gear 609, a secondary motor 610 and a secondary transmission belt 611, the bottom of the hanging plate 601 is provided with the threaded rod 602, the two ends of the bottom of the hanging plate 601 are provided with the electric clamping jaws 603, and the external part of the threaded rod 602 is provided with a spiral groove 604, the outer side of the middle part of the threaded rod 602 is sleeved with a driven gear 605, and a convex block 606 is arranged on the inner side of the driven gear 605, a support ring 607 is connected to the bottom of the driven gear 605, and the bottom of the support ring 607 is connected with a support frame 608, the right side of the driven gear 605 is provided with a transmission gear 609, and the bottom of the transmission gear 609 is connected with the output end of the auxiliary motor 610, the bottom of the auxiliary motor 610 is connected with the mounting frame 3, and an auxiliary conveying belt 611 is arranged below the rear side of the hanging plate 601.

The hanger plate 601 and the threaded rod 602 are of an integrated structure, the driven gear 605 and the support ring 607 are connected through a bearing to form a rotatable structure, the auxiliary motor 610 and the mounting frame 3 are connected through a bolt to form a detachable structure, and the driven gear 605 and the transmission gear 609 are connected in a meshed manner to form a rotatable structure.

Through the mutual cooperation between threaded rod 602 and driven gear 605, can make threaded rod 602 drive hanger plate 601 and electronic clamping jaw 603 can rise and descend when rotatory, reduced comparatively accurate complicated framework part to a certain extent, ensured the indirectness and the reliability of equipment.

By adopting a large number of bolt connection modes, the quick-wear parts in the equipment can be detached, maintained and replaced.

To sum up, this kind of motor equipment with automatic spacing, during the use, at first, place the motor front end cover in main conveyer 401 top, open main conveyer 401 power, main conveyer 401 begins to operate and drives the front end cover and moves right, until the front end cover moves to main conveyer 401 and has the section and slide right along inclined plane groove 403, and until receiving spacing collar 404 restriction, fall into circular table 501 leftmost front end cover hole 505, later, open main motor 502 power, main motor 502 circular telegram operation and drive the meshing gear rotatory, make the circular table begin to rotate through the meshing, the front end cover hole 505 that will carry the work piece rotates right.

Then, a motor heat dissipation cover is placed on the annular clamp 704 in the cover sealing module 7, the annular clamp 704 is controlled to contract to clamp the motor heat dissipation cover, the motor core is placed above the rear side of the secondary conveyor belt 611, the power supply of the secondary conveyor belt 611 is opened, the secondary conveyor belt 611 starts to operate and drives the motor core to move towards the front side of the secondary conveyor belt 611, then, when a workpiece rotates to the position below the electric clamping jaw 603 at the bottom of the front side of the hanging plate 601 of the material clamping module 6, the power supply of the secondary motor 610 is opened, the secondary motor 601 starts to operate and drive the transmission gear 609 and the driven gear 605 to rotate, the convex block 606 on the inner side of the driven gear 605 slides in the spiral groove 604 on the outer side of the threaded rod 602, so that the threaded rod 602 starts to rotate and ascend, the hanging plate 601 at the top and the electric clamping jaws 603 at the two ends are driven to ascend, and then, when the electric clamping jaw 603 on the front side, the auxiliary motor 610 is controlled to rotate reversely, the threaded rod 602 is driven to rotate reversely, the electric clamping jaw 603 clamped with the motor core is rotated to the upper part of the workpiece, the motor core is pressed down to the front end cover hole 505 loaded with the motor front end cover when the threaded rod 602 descends, and the output shaft of the motor core is inserted into the shaft hole 506 at the bottom of the front end cover hole 505.

Then, the circular table 501 continues to rotate, when the workpiece runs to the lower side of the ring clamp 704, the hydraulic rod 702 inside the hollow column 701 is controlled to contract and drive the top plate 703 at the top to descend, so that the ring clamp 704 vertically moves downwards along the movable hole 705 until the motor heat dissipation cover clamped by the ring clamp 704 is sleeved outside the motor core at the bottom, and then the hydraulic rod 702 is controlled to extend again to drive the top plate 703 and the ring clamp 704 to ascend.

At this time, the assembled motor rotates to the left front side of the circular table 701, and the operator can take the motor off.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.