CN206962623U - A kind of built-in motor motor anti-dropout retaining mechanism - Google Patents

Abstract

The utility model provides a kind of built-in motor motor anti-dropout retaining mechanism, aim to solve the problem that the technical problem that built-in motor motor is come off by shake, including locking nut, spring shim and locking nut, the locking nut set by increasing anti-and anticreep on lock screw, it is bonded using the locking between locking nut and motor itself, shaken in built-in motor motor, the more lock screws of locking nut give the effect of a counteracting vibratory forces, make lock screw not rotate to come off, solves the technical problem that built-in motor motor is come off by shake, the safe handling for realizing built-in motor motor is transported with stable, it is and simple in construction.

Description

A kind of built-in motor motor anti-dropout retaining mechanism

Technical field

Electric motor mounting structure technical field is the utility model is related to, specially a kind of built-in motor motor anti-dropout locking machine Structure.

Background technology

As rolling screen door and the drive device of shutter door, it is used to drive rolling screen door quick with shutter door built-in motor motor Winding and opening, and traditional built-in motor motor is in installation process, is directly to be put motor locking in using screw On electric motor.

As shown in Figures 1 and 2, the motor 1 ' in traditional built-in motor motor passes through lock screw 21 ' and motor mount 3 ' are fastenedly connected by locking screw 31 ', and entirety is formed by motor mount 3 ' and transmission mechanism.

But built-in motor motor is being transported with different degrees of concussion can constantly occur during use, is shaken The influence of factor, the lock screw 21 ' of locking motor 1 ' can gradually fluff, and cause the rotation of lock screw 21 ' to come off, cause motor Therefrom to put on electric motor and come off, cause security incident, the technical problem is still a problem so far in this industry, because This is badly in need of a kind of anticreep retaining mechanism to solve above-mentioned technical problem.

Utility model content

For problem above, the utility model provides a kind of built-in motor motor anti-dropout retaining mechanism, traditional On the basis of lock screw locking motor mode, the locking nut of installation is engaged simultaneously by increasing by one on lock screw With reference to the set location feature of locking nut, make to produce anti-and power between the locking nut and lock screw to offset built-in motor Motor, to breakaway force caused by lock screw, is solved the technical problem that built-in motor motor is come off by shake, realized by concussion The safe handling of built-in motor motor is transported with stable.

To achieve the above object, the utility model provides following technical scheme：

A kind of built-in motor motor anti-dropout retaining mechanism, including motor, the motor and the transmission mechanism positioned at its bottom Connection, and the side of the motor is provided with controlling organization, and position-limit mechanism is additionally provided between motor and controlling organization, in addition to：

Motor mount, the motor mount are arranged between the motor and the transmission mechanism, itself and the biography Motivation structure is fixedly connected；

Retaining mechanism, the retaining mechanism are arranged between the motor and the motor mount, and it is used for the electricity Machine is lock onto on the motor mount, and coordinates be provided with locking nut thereon.

As an improvement, the retaining mechanism can be multiple settings, uniformly cooperation is installed on the motor for it.

As an improvement, the motor mount at the retaining mechanism link position with being provided with locking screw.

As an improvement, the retaining mechanism also includes：

Lock screw, the lock screw are arranged on the motor, and its end passes through the motor and the locking screw It is fastenedly connected, and coordinates thereon relative to the opposite side of screw terminal and the locking nut is installed.

As an improvement, the locking nut is located at the top of the locking screw, and the motor peace is close in its lower surface The upper surface for filling seat is set.

As an improvement, the locking nut is located at the lower section of the lock screw screw terminal, its upper surface and the motor It is close to set.

As an improvement, the locking nut is located at the lower section of the locking screw, the motor installation is close in its upper surface The lower surface of seat is set.

As an improvement, the locking nut is located at the lower section of the locking screw, it is embedded on the motor mount.

As an improvement, the locking nut is set for screwed retaining ring, its top is provided with anticreep cushion rubber.

As an improvement, the screw thread and the locking screw on the locking nut are oppositely arranged.

The beneficial effects of the utility model are：

(1) the utility model increases by one reversely simultaneously on by way of traditional built-in motor motor locking Tight locking nut is set on lock screw, is offset transport using lock screw and is shaken with built-in motor motor during use Caused revolving force is swung, makes motor being locked on motor mount tightly, avoids locking motor and come off by shake, safe thing occurs Therefore possibility；

(2) the utility model is set by increasing rubber ring at the top of locking nut, and by the screw thread on locking nut Into reverse thread, increase the clamping force of locking nut using rubber ring and reverse thread, locking nut is stuck in lock screw On, the safety and reliability of increase motor installation；

In summary, the utility model has the advantages that simple in construction, practicality is good, security is good, and be particularly suitable for use in electricity Machine mounting structure technical field.

Brief description of the drawings

Fig. 1 is traditional built-in motor motor cross section structure diagram；

Fig. 2 is traditional built-in motor motor partial structural diagram；

Fig. 3 is the utility model entirety cross section structure diagram；

Fig. 4 is the utility model cross section structure diagram；

Fig. 5 is the utility model partial structural diagram；

Fig. 6 is mplifying structure schematic diagram at A in Fig. 4；

Fig. 7 is structural representation at B in Fig. 4；

Fig. 8 is the cross section structure diagram of the utility model embodiment two；

Fig. 9 is mplifying structure schematic diagram at C in Fig. 8；

Figure 10 is the cross section structure diagram of the utility model embodiment three；

Figure 11 is mplifying structure schematic diagram at D in Figure 10；

Figure 12 is the cross section structure diagram of the utility model embodiment four；

Figure 13 is mplifying structure schematic diagram at E in Figure 12；

Figure 14 is the locking nut cross section structure diagram of the utility model embodiment five；

Figure 15 is the locking nut cross section structure diagram of the utility model embodiment six.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belong to the scope of the utility model protection.

In description of the present utility model, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outer ", The orientation or position relationship of the instructions such as " clockwise ", " counterclockwise " be based on orientation shown in the drawings or position relationship, be only for Be easy to describe the utility model and simplify to describe, rather than instruction or imply signified equipment or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.

In addition, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance Or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can be expressed or Implicitly include one or more this feature.In description of the present utility model, " multiple " are meant that two or two More than, unless otherwise specifically defined.

Embodiment 1：

As shown in figure 3, a kind of built-in motor motor anti-dropout retaining mechanism, including motor 1, the motor 1 is with being located at its bottom The transmission mechanism 4 in portion connects, and the side of the motor 1 is provided with controlling organization 5, is additionally provided between motor 1 and controlling organization 5 Position-limit mechanism 6, in addition to：

Motor mount 3, the motor mount 3 are arranged between the motor 1 and the transmission mechanism 4, itself and institute Transmission mechanism 4 is stated to be fixedly connected；

Retaining mechanism 2, the retaining mechanism 2 are arranged between the motor 1 and the motor mount 3, its be used for by The motor 1 is lock onto on the motor mount 3, and coordinates be provided with locking nut 23 thereon.

It should be noted that built-in motor motor can all be shaken during transport and work, easily cause it On motor 1 by concussion with the built-in motor motor depart from, cause security incident, the present embodiment passes through in retaining mechanism 2 On increase the locking nut 23 for coordinating installation, anti-and power is produced between the locking nut 23 and retaining mechanism 2 to put electricity in offsetting Machine motor is shaken caused breakaway force, improves security during work.

Wherein, 2 preferably several settings of retaining mechanism, uniformly cooperation is installed on the motor 1 for it, multiple lockings Mechanism 2 uniformly disperse the concussion of built-in motor motor caused by breakaway force, make built-in motor motor stability more preferable.

As shown in figure 5, as an improvement, the motor mount 3 at the link position of retaining mechanism 2 with being provided with locking Screw thread 31.

It should be noted that being detachably connected between motor mount 3 and retaining mechanism 2 in the present embodiment, it is easy to load and unload And maintenance, junction are preferably to be threadedly coupled, and make annexation therebetween more firm.

As shown in Fig. 4 and Fig. 6, as an improvement, the retaining mechanism 2 includes：

Lock screw 21, the lock screw 21 are arranged on the motor 1, and its end passes through the motor 1 and the lock Tight screw thread 31 is fastenedly connected, and coordinates relative to the opposite side of screw terminal be provided with the locking nut 23 thereon.

Wherein, the locking nut 23 is located at the top of the locking screw 31, and the motor installation is close in its lower surface The upper surface of seat 3 is set.

Need to illustrate, by setting locking nut 23 in the upper surface of motor mount 3, pass through the locking screw Mother 23 is bonded with the position between motor mount 3, and anti-and power is produced between lock screw 21 to offset built-in motor motor By concussion to breakaway force caused by lock screw.

Further illustrate, the cooperation installed position of lock screw 21 and locking nut 23 offers screw thread, the spiral shell Line can coordinate the screw thread of installation to be wholely set with locking screw 31, also can individually open up, and the present embodiment is preferably and locking screw 3 Coordinate the screw thread of installation to be wholely set, be easy to process.

Illustrate further, in the top sheathed spring pad 22 of lock screw 21, increase the stabilization of threaded connection Property, while certain protective effect is played to retaining mechanism 2, improve security performance.

Embodiment 2：

Fig. 8 and Fig. 9 is a kind of a kind of structural representation of the embodiment two of transport bolting mill structure of the utility model；Such as Fig. 3 It is shown, wherein identical with embodiment one or corresponding part use with one corresponding reference of embodiment, for simplicity, Hereafter only description and the distinctive points of embodiment one, the difference of the embodiment one shown in the embodiment two and Fig. 4 is：

As shown in Fig. 8 and Fig. 9, a kind of built-in motor motor anti-dropout retaining mechanism, the locking nut 23 is positioned at described The lower section of the screw terminal of lock screw 21, and its upper surface is close to set with the motor 1.

Need to illustrate, in the present embodiment, coordinate the locking nut 23 being arranged on lock screw 21 to be located at bullet Motor 1 is close in the lower section of spring pad 22, the upper surface of locking nut 23, applies locking directly on motor 1, with lock screw 21 Between produce anti-and power to offset built-in motor motor by concussion to breakaway force caused by lock screw, reduce the vibrations of motor 1 Amplitude, while the connection of locking nut 23 and lock screw 21 causes lock screw 21 not produce loosening because of vibrations, improves Security performance.

Further illustrate, in the present embodiment, the cooperation installed position of lock screw 21 and locking nut 23 opens up Screw thread be preferably to be separately provided, coordinate the screw thread of installation to be wholely set if reporting to the screw thread and locking screw 3 according to technical staff, The intensity of lock screw 21 is then influenceed, in use, easily causes the bending of lock screw 21 and fracture.

Embodiment 3：

Figure 10 and Figure 11 is a kind of a kind of structural representation of the embodiment three of transport bolting mill structure of the utility model；Such as figure Shown in 4, wherein identical with embodiment one or corresponding part use with one corresponding reference of embodiment, risen to be easy See, hereafter only description and the distinctive points of embodiment one, the difference of the embodiment one shown in the embodiment three and Fig. 4 is：

As shown in 10 and Figure 11, the locking nut 23 is located at the lower section of the locking screw 31, and institute is close in its upper surface The lower surface for stating motor mount 3 is set.

Need to illustrate, in the present embodiment, locking nut 23, which coordinates, to be arranged on lock screw 21, and locking screw Mother 23 is in the lower section of locking screw 31, and the lower surface of motor mount 3 is close in the upper surface of locking nut 23, in mounting seat 3 Lower surface applies locking so that lock screw 21 will not produce loosening because of the vibrations of motor 1, improve security performance.

Further illustrate, the screw thread coordinated in embodiment itself on lock screw 21 with locking nut 3 is preferably The screw thread coordinated with locking screw 31 is wholely set, and is easy to process.

Embodiment 4：

Figure 12 and Figure 13 is a kind of a kind of structural representation of the example IV of transport bolting mill structure of the utility model；Such as figure Shown in 5, wherein identical with embodiment one or corresponding part use with one corresponding reference of embodiment, risen to be easy See, hereafter only description and the distinctive points of embodiment one, the difference of the embodiment one shown in the embodiment three and Fig. 4 is：

As shown in 12 and Figure 13, a kind of built-in motor motor anti-dropout retaining mechanism, the locking nut 23 is positioned at described The lower section of locking screw 31, it is embedded on the motor mount 3.

Need to illustrate, in the present embodiment, locking nut 23 is set on lock screw 21, and locking nut 23 It is embedded on motor mount 3, makes the connection of lock screw 21 and motor mount 23 more firm, and in installation locking screw 21 When, locking nut 23 is manually tightened without the later stage, it is easier for installation, and lock screw 21 will not because of the vibrations of motor 1 and Loosening is produced, improves security performance.

Further illustrate, the mode that locking nut 23 is embedded on motor mount 3 in the present embodiment can be to fix Regret embedding, or movable inlaying, the present embodiment are preferably that fixation is inlayed, which can avoid locking nut 23 from losing.

Embodiment 5：

Figure 14 is a kind of a kind of structural representation of the embodiment five of transport bolting mill structure of the utility model；As shown in fig. 6, Identical wherein with embodiment one or corresponding part use with one corresponding reference of embodiment, for simplicity, hereafter Only description and the distinctive points of embodiment one, the difference of the embodiment one shown in the embodiment three and Fig. 4 is：

As shown in figure 14, a kind of built-in motor motor anti-dropout retaining mechanism, the locking nut 23 set for screwed retaining ring Put, its top is provided with anticreep cushion rubber 231.

Need to illustrate, in the present embodiment, according to actual working environment, locking nut 23 is preferably screwed retaining ring Setting, it is set on lock screw 21, and anticreep, which is set, is more conducive to firm connection between locking nut 23 and lock screw 21, And the tip position of locking nut 23 is provided with anticreep cushion rubber 231, anticreep cushion rubber 231 is set in lock screw in lock nut 23 When on 21, it elastic can open and be stuck on the thread of lock screw 21, have further firm effect, while serve buffer protection Effect.

Embodiment 6：

Figure 15 is a kind of a kind of structural representation of the embodiment five of transport bolting mill structure of the utility model；As shown in fig. 7, Identical wherein with embodiment one or corresponding part use with one corresponding reference of embodiment, for simplicity, hereafter Only description and the distinctive points of embodiment one, the difference of the embodiment one shown in the embodiment three and Fig. 4 is：

As shown in figure 15, a kind of built-in motor motor anti-dropout retaining mechanism, screw thread and institute on the locking nut 23 It is oppositely arranged to state locking screw 31.

Need to illustrate, in the present embodiment, locking nut 23 is set on lock screw 21, and locking nut 23 On screw thread and locking screw 31 it is oppositely arranged, motor 1 work produce vibrations when, lock screw 21 because shake along locking screw Line 31 is loosened, and now in opposite direction due to the hand of spiral on locking nut 23 and locking screw 31, locking nut 23 is then got over Rotation is tighter, and the just loosening with lock screw 21 is offset, and is ensured that lock screw 21 will not fall off, is made retaining mechanism 2 all the time by electricity Machine 1 is stabilized on motor mount 3, improves security.

Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model All any modification, equivalent and improvement made within the spirit and principle of utility model etc., should be included in the utility model Protection domain within.

Claims (10)

1. a kind of built-in motor motor anti-dropout retaining mechanism, including motor (1), the motor (1) and the transmission positioned at its bottom Mechanism (4) connects, and the side of the motor (1) is provided with controlling organization (5), is also set up between motor (1) and controlling organization (5) Limited position mechanism (6), it is characterised in that also include：

Motor mount (3), the motor mount (3) are arranged between the motor (1) and the transmission mechanism (4), its It is fixedly connected with the transmission mechanism (4)；

Retaining mechanism (2), the retaining mechanism (2) are arranged between the motor (1) and the motor mount (3), and it is used It is lock onto in by the motor (1) on the motor mount (3), and coordinates thereon and locking nut (23) is installed.

A kind of 2. built-in motor motor anti-dropout retaining mechanism according to claim 1, it is characterised in that the locking machine Structure (2) can be multiple settings, and uniformly cooperation is installed on the motor (1) for it.

A kind of 3. built-in motor motor anti-dropout retaining mechanism according to claim 1, it is characterised in that the motor peace Dress seat (3) at the retaining mechanism (2) link position with being provided with locking screw (31).

A kind of 4. built-in motor motor anti-dropout retaining mechanism according to claim 2, it is characterised in that the locking machine Structure (2) includes：

Lock screw (21), the lock screw (21) are arranged on the motor (1), and its end passes through the motor (1) and institute State locking screw (31) to be fastenedly connected, and coordinate thereon relative to the opposite side of screw terminal and the locking nut (23) is installed.

A kind of 5. built-in motor motor anti-dropout retaining mechanism according to claim 4, it is characterised in that the locking screw Female (23) are located at the top of the locking screw (31), and the upper surface that the motor mount (3) is close in its lower surface is set.

A kind of 6. built-in motor motor anti-dropout retaining mechanism according to claim 4, it is characterised in that the locking screw Female (23) are located at the lower section of the lock screw (21) screw terminal, and its upper surface is close to set with the motor (1).

A kind of 7. built-in motor motor anti-dropout retaining mechanism according to claim 4, it is characterised in that the locking screw Female (23) are located at the lower section of the locking screw (31), and the lower surface that the motor mount (3) is close in its upper surface is set.

A kind of 8. built-in motor motor anti-dropout retaining mechanism according to claim 4, it is characterised in that the locking screw Female (23) are located at the lower section of the locking screw (31), and it is embedded on the motor mount (3).

A kind of 9. built-in motor motor anti-dropout retaining mechanism according to claim any one of 5-7, it is characterised in that institute State locking nut (23) to set for screwed retaining ring, its top is provided with anticreep cushion rubber (231).

A kind of 10. built-in motor motor anti-dropout retaining mechanism according to claim 9, it is characterised in that the locking Screw thread and the locking screw (31) on nut (23) is oppositely arranged.