CN204239998U - A kind of locking device for photoelectric stable platform - Google Patents

Abstract

The utility model relates to a kind of locking device for photoelectric stable platform, and described locking device comprises: fixed base; Driving component, is installed on described fixed base; And internal gear, inside the bearing being fixed in described photoelectric stable platform; Described driving component is along under its axle to-and-fro motion state, and its one end can be engaged with the internal tooth of described internal gear, makes described bearing locked.A kind of employing of the locking device for photoelectric stable platform tooth that the utility model provides engages lock mode with tooth, makes the locking of the direction rotating shaft of photoelectric stable platform and pitching rotating shaft safer, reliable, easy to operate.

Description

A kind of locking device for photoelectric stable platform

Technical field

The utility model relates to a kind of locking device, particularly a kind of locking device for photoelectric stable platform.

Background technique

Photoelectric stable platform is applied in the equipment such as carrier-borne, vehicle-mounted, aviation, and it is the turntable that the sensors such as visible ray, infrared, laser are housed, and it comprises the part such as direction rotating shaft and pitching rotating shaft.Photoelectric stable platform when not working, need by azimuth axis and elevation axis locked in a certain fixed position, with protecting window and internal sensor equipment, prevent unintentional rotation from causing shock, avoid destroying sensor equipment.Generally, photoelectric stable platform is provided with manual locking device proterctive equipment in transportation process, but equipment is once install, and personnel back and forth manually-operable locking device are very inconvenient with locked equipment, particularly in carrier-borne situation.In addition; existing most of photoelectric stable platform adopts bolt-type locking device and electromagnetic brake formula locking device; the situation that when bolt-type locking device often there will be unblock, latch can pull out out; electromagnetic brake formula locking device still can rotate when locked rear rotation axis system; therefore, these locking device reliability and stability are all poor.

Summary of the invention

The technical problems to be solved in the utility model is for above-mentioned deficiency, provides a kind of convenient operation for photoelectric stable platform, and the locking device that reliability is high.

The utility model is achieved through the following technical solutions:

For a locking device for photoelectric stable platform, described locking device comprises:

Fixed base;

Driving component, is installed on described fixed base; With

Internal gear, inside the bearing being fixed in described photoelectric stable platform;

Described driving component is along under its axle to-and-fro motion state, and its one end can be engaged with the internal tooth of described internal gear, makes described bearing locked.

Further, described a kind of locking device for photoelectric stable platform, described driving component comprises a rod member and is installed on the movement parts on described rod member, and described movement parts can along the axially reciprocating of described rod member;

One end of described movement parts is outward extended with tooth along its port, and described tooth engages with the internal tooth of described internal gear.

Further, described a kind of locking device for photoelectric stable platform, described rod member has outside thread, and described movement parts has the internal thread coordinated with described outside thread;

The outer circumferential face of described movement parts is arranged the second straight trough, described fixed base is arranged the second projection, described second straight trough slides and is fastened in described second projection.

Further, described a kind of locking device for photoelectric stable platform, described rod member has outside thread, and described movement parts has the internal thread coordinated with described outside thread;

The outer circumferential face of described movement parts is provided with the first projection, described fixed base is arranged the first straight trough, and described first tab slides embeds in described first straight trough.

Further, described a kind of locking device for photoelectric stable platform, the outer circumferential face of described movement parts arranges the second straight trough, described fixed base is arranged the second projection, and described second straight trough slides and is fastened in described second projection.

Further, described a kind of locking device for photoelectric stable platform, described locking device also comprises:

Motor, it is installed on the torque motor seat of described photoelectric stable platform, for driving described driving component.

Further, described a kind of locking device for photoelectric stable platform, described locking device also comprises:

First bevel gear, is installed on the output shaft of described motor; With

Second bevel gear, is installed on the other end of described driving component;

Described first bevel gear engages with described second bevel gear.

Further, described a kind of locking device for photoelectric stable platform, described first bevel gear becomes 90 degree of angles with the central shaft of described second bevel gear.

Further, described a kind of locking device for photoelectric stable platform, described locking device also comprises:

Be arranged on described fixed base, and along the first optoelectronic switch of the axially-aligned of described driving component and the second optoelectronic switch.

Advantage of the present utility model and effect are:

1. what a kind of locking device for photoelectric stable platform that the utility model provides adopted tooth and tooth engages lock mode, makes the locking of the direction rotating shaft of photoelectric stable platform and pitching rotating shaft safer, reliable, easy to operate.

2. the driving component that a kind of locking device for photoelectric stable platform that the utility model provides adopts is combination drive assemblies, and the combiner structure of combination drive assemblies is simple, and reliability is high.

3. a kind of locking device for photoelectric stable platform that the utility model provides adopts the first bevel gear and the second bevel gear to take exercises and transmits, reduce this locking device space length shared by photoelectric stable platform.

4. a kind of locking device for photoelectric stable platform that the utility model provides adopts optoelectronic switch, and is operated by latch circuit automatic control motor, and easy to operate, reliability is high.

Accompanying drawing explanation

Fig. 1 illustrates the structural representation of the locking device that an embodiment provides in the utility model;

Fig. 2 illustrates the view that the locking device that in the utility model, an embodiment provides makes photoelectric stable platform locked;

Fig. 3 illustrates the sectional view of A-A in Fig. 1;

Fig. 4 illustrates the sectional view of B-B in Fig. 1;

Fig. 5 illustrates the workflow diagram of the locking device that an embodiment provides in the utility model.

Description of reference numerals: 1-motor, 2-first bevel gear, 3-second bevel gear, 4-bearing, 5-rod member, 6-movement parts, 601-first projection, 602-second straight trough, 7-fixed base, 701-first straight trough, 702-second projection, 8-first optoelectronic switch, 9-second optoelectronic switch, 10-internal gear, 11-bearing, 12-axle.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in more detail:

Photoelectric stable platform comprises direction rotating shaft and pitching rotating shaft etc., and direction rotating shaft and pitching rotating shaft include a bearing, and the two locking device all provided by arranging the utility model locks.As Fig. 1 illustrates the structural representation of the locking device that an embodiment provides in the utility model, this locking device comprises fixed base 7, is installed on the driving component on described fixed base 7, and the internal gear 10 inside the bearing 11 being fixed in photoelectric stable platform.Particularly, the inner side of internal gear 10 is covered with internal tooth, is fixed by socket inside the outside of internal gear 10 and bearing 11.Driving component can along its axially reciprocating, and its one end can be engaged with the internal tooth of internal gear 10, makes bearing 11 locked.Particularly, fixed base 7 can be installed on the torque motor seat of photoelectric stable platform, and the axis of driving component overlaps with the arbitrary diameter of internal gear 10.Driving component can be a separate part, also can be a combination drive assemblies.Fig. 2 illustrates the view that the locking device that in the utility model, an embodiment provides makes photoelectric stable platform locked, driving component moves to the internal tooth direction of internal gear 10, until one end of driving component is engaged with the internal tooth of internal gear 10, internal gear 10 and bearing 11 are fixed, and namely photoelectric stable platform is locked.

Further, driving component is a combination drive assemblies, it movement parts 6 comprising a rod member 5 and be installed on rod member 5, and movement parts 6 can along the axially reciprocating of rod member 5.One end of movement parts 6 is axially outward extended with tooth along it, and when moving in the internal tooth direction of movement parts 6 to internal gear 10, this tooth can engage with the internal tooth of internal gear 10, and internal gear 10 and bearing 11 are fixed, and namely photoelectric stable platform is locked.

Driving component be an embodiment of a combination drive assemblies as shown in Figure 3.Rod member 5 has outside thread, and movement parts 6 has and coordinates with the outside thread of rod member 5 internal thread spun.Particularly, the internal thread of movement parts 6 and the outside thread of rod member 5 form screw pair, and movement parts 6 is rotatably connected on rod member 5.The outer circumferential face of movement parts 6 is provided with the first projection 601, fixed base 7 is arranged the first straight trough 701, first projection 601 and embeds slidably in the first straight trough 701, makes the first projection 601 can be reciprocating in the first straight trough 701.When rod member 5 relative to fixed base 7 non-displacement rotate time, because the first projection 601 embeds in the first straight trough 701, movement parts 6 can not be rotated with rod member 5, the translating rotation by rod member 5 is the straight line motion of the relative rod member 5 of movement parts 6.

Driving component be the another embodiment of a combination drive assemblies as shown in Figure 4.Rod member 5 has outside thread, and movement parts 6 has and coordinates with the outside thread of rod member 5 internal thread spun.Particularly, the internal thread of movement parts 6 and the outside thread of rod member 5 form screw pair, and movement parts 6 is rotatably connected on rod member 5.The outer circumferential face of movement parts 6 is arranged the second straight trough 602, fixed base 7 is arranged the second projection 702, second straight trough 602 and be fastened on slidably in the second projection 702, make the second straight trough 602 can be reciprocating in described second projection 702.When rod member 5 relative to fixed base 7 non-displacement rotate time, because the second straight trough 602 is fastened in the second projection 702, movement parts 6 can not be rotated with rod member 5, the translating rotation by rod member 5 is the straight line motion of the relative rod member 5 of movement parts 6.

As above two kinds of embodiments of driving component also can be applied in the driving component in the same embodiment that the utility model provides simultaneously.

Further, this locking device also comprises the motor 1 for driving driving component.Particularly, motor 1 can be installed on the torque motor seat of photoelectric stable platform.

Further, because the inner space of photoelectric stable platform is limited, this locking device also comprises the first bevel gear 2 of the output shaft being installed on motor 1, with the other end (opposite side that driving component engages with the internal tooth of internal gear 10) being installed on driving component, and the second bevel gear 3 engaged with the first bevel gear 2.Particularly, the central shaft of the first bevel gear 2 and the second bevel gear 3 is angled, and the first bevel gear 2 and the second bevel gear 3 are taken exercises and transmit, and reduce this locking device space length shared by photoelectric stable platform.Particularly, the first bevel gear 2 becomes 90 degree of angles with the central shaft of the second bevel gear 3, is not affecting under the prerequisite that this locking device normally works, and makes the setting of this locking device in photoelectric stable platform reach optimum.

Further, this locking device also comprises the first optoelectronic switch 8 and the second optoelectronic switch 9 be arranged on described fixed base 7, and the first optoelectronic switch 8 and the second optoelectronic switch 9 are along the axially-aligned of driving component, the optical signal that the first optoelectronic switch 8 and the second optoelectronic switch 9 send can project on driving component.Particularly, the first optoelectronic switch 8 is connected with motor 1 respectively by latch circuit by circuit with the second optoelectronic switch 9, and this circuit can be wired or wireless.

The working principle of the first optoelectronic switch 8, second optoelectronic switch 9 and motor 1 is:

As shown in Figure 2, first optoelectronic switch 8 is compared with the second optoelectronic switch 9, first optoelectronic switch 8 is positioned at the side of the internal tooth of closer internal gear 10, and the second optoelectronic switch 9 is positioned at the opposite side compared with the internal tooth away from internal gear 10, i.e. the closer motor 1 of the second optoelectronic switch 9.The length of driving component (or movement parts 6) coordinates with the spacing of the first optoelectronic switch 8 and the second optoelectronic switch 9, and meet when drive member, the optical signal that only the first optoelectronic switch 8 or the second optoelectronic switch 9 send can project on driving component.Fig. 5 illustrates the workflow diagram of the locking device that an embodiment provides in the utility model.This locking device engages with the internal tooth of one end of its driving component with internal gear 10, and namely photoelectric stable platform quits work, and its direction rotating shaft and pitching rotating shaft etc. are locked is normality.Now, the optical signal that first optoelectronic switch 8 sends is incident upon on driving component, and reflected light signal gives the first optoelectronic switch 8, and optoelectronic switch 8 becomes low level signal from high level, the optical signal projection that second optoelectronic switch 9 sends is not on driving component, and it sends high level signal.When photoelectric stable platform pre-operation, namely direction rotating shaft and pitching rotating shaft is unlocked, latch circuit plate sends unlock command, starting electrical machinery 1, motor 1 rotates forward and drives driving component to move to the direction of the internal tooth departing from internal gear 10, until the optical signal that the second optoelectronic switch 9 sends projects on driving component, second optoelectronic switch 9 becomes low level signal from high level, one end of driving component and the internal tooth of internal gear 10 depart from completely, latch circuit receives the low level signal of the second optoelectronic switch 9, give an order, motor 1 stops operating, and photoelectric stable platform can be started working.Now, the optical signal projection of the first optoelectronic switch 8 is less than on driving component, and the first optoelectronic switch 8 becomes high level signal from low level.When photoelectric stable platform pre-stop works, namely direction rotating shaft and pitching rotating shaft is locked, latch circuit sends locked order, starting electrical machinery 1, motor 1 reverses and drives driving component to the direction motion of the internal tooth near internal gear 10, until the optical signal that the first optoelectronic switch 8 sends can project on driving component, one end of driving component is engaged completely with the internal tooth of internal gear 10, namely the first optoelectronic switch 8 becomes low level signal from high level, latch circuit receives the low level signal of the first optoelectronic switch 8, give an order, motor 1 stops operating, photoelectric stable platform is locked.Now, the optical signal projection of the second optoelectronic switch 9 is less than on driving component, and the second optoelectronic switch becomes high level signal from low level signal.This locking device with this periodic duty, and by real-time unlock/lock feedback of status to upper-position unit.

First optoelectronic switch 8 and the second optoelectronic switch 9 all can adopt commercially available product, and its model and specification can be chosen as WYC-H2210, operating voltage 5v.

The foregoing is only the utility model preferably mode of execution, be not used for limiting practical range of the present utility model, as long as the equivalence change done in protection domain of the present utility model and modification, all should think and fall in protection domain of the present utility model.

Claims (9)

1. for a locking device for photoelectric stable platform, it is characterized in that, described locking device comprises:

Fixed base;

Driving component, is installed on described fixed base; With

Internal gear, inside the bearing being fixed in described photoelectric stable platform;

Described driving component is along under its axle to-and-fro motion state, and its one end can be engaged with the internal tooth of described internal gear, makes described bearing locked.

2. a kind of locking device for photoelectric stable platform according to claim 1, is characterized in that, described driving component comprises a rod member and is installed on the movement parts on described rod member, and described movement parts can along the axially reciprocating of described rod member;

One end of described movement parts is outward extended with tooth along its port, and described tooth engages with the internal tooth of described internal gear.

3. a kind of locking device for photoelectric stable platform according to claim 2, it is characterized in that, described rod member has outside thread, and described movement parts has the internal thread coordinated with described outside thread;

The outer circumferential face of described movement parts is arranged the second straight trough, described fixed base is arranged the second projection, described second straight trough slides and is fastened in described second projection.

4. a kind of locking device for photoelectric stable platform according to claim 2, it is characterized in that, described rod member has outside thread, and described movement parts has the internal thread coordinated with described outside thread;

The outer circumferential face of described movement parts is provided with the first projection, described fixed base is arranged the first straight trough, and described first tab slides embeds in described first straight trough.

5. a kind of locking device for photoelectric stable platform according to claim 4, is characterized in that, the outer circumferential face of described movement parts is arranged the second straight trough, described fixed base is arranged the second projection, and described second straight trough slides and is fastened in described second projection.

6., according to the arbitrary described a kind of locking device for photoelectric stable platform of claim 1 to 5, it is characterized in that, described locking device also comprises:

Motor, it is installed on the torque motor seat of described photoelectric stable platform, for driving described driving component.

7. a kind of locking device for photoelectric stable platform according to claim 6, it is characterized in that, described locking device also comprises:

First bevel gear, is installed on the output shaft of described motor; With

Second bevel gear, is installed on the other end of described driving component;

Described first bevel gear engages with described second bevel gear.

8. a kind of locking device for photoelectric stable platform according to claim 7, is characterized in that, described first bevel gear becomes 90 degree of angles with the central shaft of described second bevel gear.

9. a kind of locking device for photoelectric stable platform according to claim 6, it is characterized in that, described locking device also comprises:

Be arranged on described fixed base, and along the first optoelectronic switch of the axially-aligned of described driving component and the second optoelectronic switch.