CN204613573U - A kind of switching device of optical fiber - Google Patents

Abstract

The utility model relates to a kind of switching device of optical fiber, and it comprises: housing, switch boards, rotor plate, coil, optical filter, the first magnet, the second magnet and magnetic conduction thing.Rotor plate rotates to be located in housing, and coil to be fixed in housing and to be positioned at rotor plate side, and magnetic conduction thing to be fixed in housing and to lay respectively at rotor plate two ends; First magnet and the second magnet are fixed on rotor plate, and one end that the first magnet points to coil is contrary with one end polarity that the second magnet points to coil; Switch boards is linearly slidably mounted in housing, and optical filter is installed in switch boards; Housing offers light hole, and rotor plate and switch boards are connected to form rack pinion, to make described optical filter block described light hole, or make described optical filter leave described light hole.The excitation structure of switching device of optical fiber is simple, and magnetic energy and mechanical energy can realize efficient conversion, and this rack pinion structural design functional reliability is high, and under equal area, light hole can support more large scale sensor.

Description

A kind of switching device of optical fiber

Technical field

The utility model relates to a kind of switching device shifter, particularly relates to a kind of switching device of optical fiber.

Background technology

Optical-filter switcher a kind ofly can be applied in device security protection camera lens carrying out infrared fileter automatic switchover.Traditional optical-filter switcher, when same volume, its excitation mechanism complex structure and inefficiency.Comparatively commonly pendulum model switch, because this kind of switch is pendulum model motion switch, light hole is less, and therefore under identical area, light hole can only support the sensor of reduced size.Moreover pendulum model motion switch, the conversion regime of magnetic energy and mechanical energy is comparatively complicated, and the needs larger latching resistance of design and counterbalance weight reduce the impact that external impact brings, and functional reliability is low.

Utility model content

The purpose of this utility model overcomes weak point of the prior art, and provide a kind of excitation structure simple, magnetic energy and mechanical energy are efficiently changed, and the switching device of optical fiber that functional reliability is high.

The purpose of this utility model is achieved through the following technical solutions:

A kind of switching device of optical fiber, comprising: housing, switch boards, rotor plate, coil, optical filter, the first magnet, the second magnet and magnetic conduction thing;

Described rotor plate rotates to be located in described housing, and described coil to be fixed in described housing and to be positioned at the side of described rotor plate, and described magnetic conduction thing to be fixed in described housing and to lay respectively at the two ends of described rotor plate;

Described first magnet and described second magnet are fixed on described rotor plate, and the polarity that described first magnet points to one end of described coil is contrary with the polarity that described second magnet points to one end of described coil;

Described switch boards is linearly slidably mounted in described housing, and described optical filter is installed in described switch boards;

Described housing offers light hole, and described rotor plate and described switch boards are connected to form rack pinion, to make described optical filter block described light hole, or make described optical filter leave described light hole.

Preferably, described rotor plate has rotating shaft, in described housing, offers one turn of hole, described axis of rotation be located at described in turn in hole.

Preferably, the two poles of the earth line of described first magnet and the axis being parallel of described rotating shaft, the two poles of the earth line of described second magnet and the axis being parallel of described rotating shaft.

Preferably, offer linear guiding groove in described housing, described switch boards is provided with guide post, and described guide post slides and is located in described guiding groove.

Preferably, described rotor plate offers circular arc latch, described switch boards offers linear latch, described circular arc latch engages with described linear latch.

Preferably, described optical filter comprises the first optical filter and the second optical filter.

Preferably, described first optical filter is cutoff filter, and described second optical filter is full impregnated spectral filter.

Preferably, described switching device of optical fiber also comprises glass, and described glass is installed on described light hole.

Preferably, the lower house that described housing comprises upper shell and fastens with described upper shell, described upper shell is formed in one structure, and described lower house is formed in one structure.

Preferably, described switching device of optical fiber also comprises wire, and described wire is electrically connected with described coil.

The excitation structure of switching device of optical fiber is simple, and magnetic energy and mechanical energy can realize efficient conversion, and the structural design functional reliability of this kind of rack pinion is high, and light hole can support larger sized sensor under identical area.

Accompanying drawing explanation

Fig. 1 is the structural drawing of the switching device of optical fiber of the utility model one embodiment;

Fig. 2 is the explosive view of the switching device of optical fiber shown in Fig. 1;

Fig. 3 is the cut-open view of the switching device of optical fiber shown in Fig. 1;

The wherein constitutional diagram that Fig. 4 is the switching device of optical fiber shown in Fig. 1;

Another constitutional diagram that Fig. 5 is the switching device of optical fiber shown in Fig. 1;

Fig. 6 is the schematic diagram of the wherein power of a state between coil and the first magnet and the second magnet;

Fig. 7 is the schematic diagram of the power of another state between coil and the first magnet and the second magnet.

Embodiment

Below in conjunction with embodiment and accompanying drawing, the utility model is described in further detail, but embodiment of the present utility model is not limited thereto.

As shown in Figure 1, it is the structural drawing of the switching device of optical fiber 10 of the utility model one embodiment.See also Fig. 2, it is the explosive view of the switching device of optical fiber 10 shown in Fig. 1.Switching device of optical fiber 10 comprises: housing 100, switch boards 200, rotor plate 300, coil 400, optical filter 500, first magnet 600, second magnet 700, magnetic conduction thing 710, glass 800 and wire 900.Illustrate, in the present embodiment, magnetic conduction thing 710 is magnetic conduction screw.

Please refer to Fig. 3, it is the cut-open view of the switching device of optical fiber 10 shown in Fig. 1.Rotor plate 300 rotates to be located in housing 100, and coil 400 to be fixed in housing 100 and to be positioned at the side of rotor plate 300, and magnetic conduction thing 710 to be fixed in housing 100 and to lay respectively at the two ends of rotor plate 300, and namely the two ends of rotor plate 300 are equipped with magnetic conduction thing 710.First magnet 600 and the second magnet 700 are fixed on rotor plate 300, and the polarity that the first magnet 600 points to one end of coil 400 is contrary with the polarity that the second magnet 700 points to one end of coil 400.Switch boards 200 is linearly slidably mounted in housing 100, and optical filter 500 is installed in switch boards 200.Housing 100 offers light hole 110, rotor plate 300 and switch boards 200 are connected to form rack pinion, to make optical filter 500 block light hole 110, or make optical filter 500 leave light hole 110.

Glass 800 is installed on light hole 110, and can prevent external dust from entering into housing 100 inner, wire 900 is electrically connected with coil 400, and wire 900 is for providing electric current for coil 400.

Concrete, rotor plate 300 has rotating shaft 310, offer one turn of hole 140 in housing 100, rotating shaft 310 is rotated to be located at and is turned in hole 140, thus rotor plate 300 can be made to rotate around housing 100 more smoothly.In addition, offer linear guiding groove 150 in housing 100, switch boards 200 is provided with guide post 210, and guide post 210 slides and is located in guiding groove 150, carries out straight reciprocating motion with what make that switch boards 200 can be stable in housing 100.Further, the two poles of the earth line of the first magnet 600 and the axis being parallel of rotating shaft 310, the two poles of the earth line of the second magnet 700 and the axis being parallel of rotating shaft 310.Being noted that the first magnet 600 and the second magnet 700 can be independently two blocks of magnet, can also be the overall magnet of formation one, and what form that as a whole magnet needs to ensure is that the one end pointing to coil 400 has two contrary polarity.

Especially, rotor plate 300 offers circular arc latch 320, switch boards 200 offers linear latch 220, circular arc latch 320 engages with linear latch 220, formative gear rack-driving.

Please refer to Fig. 4 and Fig. 5, it is the schematic diagram of switching device of optical fiber 10 under two different conditions.

The principle of work of switching device of optical fiber 10 is as follows:

As shown in Figure 4, now coil 400 is positioned at one side of the first magnet 600 and the second magnet 700, the polarity that first magnet 600 points to one end of coil 400 is S pole, the polarity that second magnet 700 points to one end of coil 400 is N pole, by wire 900 for coil 400 provides a forward current, make coil 400 produce magnetic field, the polarity that coil 400 points to one end of rotor plate 300 is N pole;

First magnet 600 points to the polarity of one end of coil 400 and coil 400, and to point to the polarity of one end of rotor plate 300 different, produce attractive force, the polarity that second magnet 700 points to one end of coil 400 is identical with the polarity that coil 400 points to one end of rotor plate 300, produce repulsive force, so, rotor plate 300 rotates under the effect of described attractive force and repulsive force, arrive coil 400 another by, state as shown in Figure 5;

Because circular arc latch 320 and linear latch 220 engage each other formative gear rack-driving, rotor plate 300 drives switch boards 200, and coordinating by guide post 210 and linear guiding groove 130, make switch boards 200 moving linearly;

Because optical filter 500 is fixed in switch boards 200, so optical filter 500 just can be reached block light hole 110, or leave the object of light hole 110;

Arrive another side of another coil 400 at rotor plate 300 after, coil 400 cuts off electric current, so the second magnet 700 on rotor plate 300 is attracting with magnetic conduction thing 710, thus is fixed the position of rotor plate 300, and then reaches the effect of the optical filter 500 in fixing switch boards 200;

In like manner, by wire 900 for coil 400 provides an inverse current, rotor plate 300 just rotates backward, so drive switch boards 200 counter motion;

Must provide the battery of positive and negative alternate for coil 400 by wire 900 is continuous, rotor plate 300 just can realize reciprocally swinging, and the final switch boards 200 that drives carries out linear reciprocating motion, thus realizes the switching of optical filter 500 on light hole 110.

As shown in FIG. 6 and 7, it is the schematic diagram of the power between coil 400 and the first magnet 600 and the second magnet 700 under two different conditions.In the state shown in fig. 4, one end that coil 400 points to rotor plate 300 is N pole, and the polarity that the first magnet 600 points to one end of coil 400 is S pole, and the polarity that the second magnet 700 points to one end of coil 400 is N pole.It can thus be appreciated that coil 400 and the first magnet 600 produce attractive force F1, coil 400 and the second magnet 700 produce repulsive force F2.By in the process of Fig. 6 to Fig. 7, attractive force F1 is that rotor plate 300 provides stronger initial driving force, and repulsive force F2 is that rotor plate 300 provides stronger later stage power, thus achieves the rotation of rotor plate 300.

In the present embodiment, optical filter 500 comprises the first optical filter 510 and the second optical filter 520, first optical filter 510 is cutoff filter, second optical filter 520 is full impregnated spectral filter, by to the first optical filter 510 and the second switching of optical filter 520 on light hole 110, realize the conversion of spectrum.

In addition, the lower house 130 that housing 100 comprises upper shell 120 and fastens with upper shell 120, upper shell 120 is formed in one structure, and lower house 130 is formed in one structure, by arranging upper shell 120 and lower house 130, better can realize the assembling process of product.

The excitation structure of switching device of optical fiber 10 is simple, and magnetic energy and mechanical energy can realize efficient conversion, and the structural design functional reliability of this kind of rack pinion is high, and light hole can support larger sized sensor under identical area.

Above-described embodiment is the utility model preferably embodiment; but embodiment of the present utility model is not restricted to the described embodiments; change, the modification done under other any does not deviate from Spirit Essence of the present utility model and principle, substitute, combine, simplify; all should be the substitute mode of equivalence, be included within protection domain of the present utility model.

Claims (10)

1. a switching device of optical fiber, is characterized in that, comprising: housing, switch boards, rotor plate, coil, optical filter, the first magnet, the second magnet and magnetic conduction thing;

Described rotor plate rotates to be located in described housing, and described coil to be fixed in described housing and to be positioned at the side of described rotor plate, and described magnetic conduction thing to be fixed in described housing and to lay respectively at the two ends of described rotor plate;

Described first magnet and described second magnet are fixed on described rotor plate, and the polarity that described first magnet points to one end of described coil is contrary with the polarity that described second magnet points to one end of described coil;

Described switch boards is linearly slidably mounted in described housing, and described optical filter is installed in described switch boards;

Described housing offers light hole, and described rotor plate and described switch boards are connected to form rack pinion, to make described optical filter block described light hole, or make described optical filter leave described light hole.

2. switching device of optical fiber according to claim 1, is characterized in that, described rotor plate has rotating shaft, offers one turn of hole in described housing, described axis of rotation be located at described in turn in hole.

3. switching device of optical fiber according to claim 2, is characterized in that, the two poles of the earth line of described first magnet and the axis being parallel of described rotating shaft, the two poles of the earth line of described second magnet and the axis being parallel of described rotating shaft.

4. switching device of optical fiber according to claim 1, is characterized in that, offers linear guiding groove in described housing, and described switch boards is provided with guide post, and described guide post slides and is located in described guiding groove.

5. switching device of optical fiber according to claim 1, is characterized in that, described rotor plate offers circular arc latch, described switch boards offers linear latch, and described circular arc latch engages with described linear latch.

6. switching device of optical fiber according to claim 1, is characterized in that, described optical filter comprises the first optical filter and the second optical filter.

7. switching device of optical fiber according to claim 6, is characterized in that, described first optical filter is cutoff filter, and described second optical filter is full impregnated spectral filter.

8. switching device of optical fiber according to claim 1, is characterized in that, described switching device of optical fiber also comprises glass, and described glass is installed on described light hole.

9. switching device of optical fiber according to claim 1, is characterized in that, the lower house that described housing comprises upper shell and fastens with described upper shell, and described upper shell is formed in one structure, and described lower house is formed in one structure.

10. switching device of optical fiber according to claim 1, is characterized in that, described switching device of optical fiber also comprises wire, and described wire is electrically connected with described coil.