CN106444013B - One kind being applied to control optical path on-off system and application method - Google Patents

Abstract

The present invention relates to one kind to be applied to control optical path on-off system, shell, sliding panel, light insulation pad, form an optical path on-off component, electromagnet, sliding panel, constitute control optical path on-off component, two pieces of reflectors constitute the reflection subassembly of optical path, sliding panel, microswitch, optical path is constituted to open, closed state monitors feedback component, it is moved using circuit control push-pull electromagnet, to drive the movement of sliding panel, two limit of movement are respectively fully opening and closing for optical path window, by with reflector at ± 45 ° of mirror surface steel twice emitting, the light that optical path launch window issues reaches optical path and receives window, complete an optical path on-off control, simultaneously microswitch can be triggered using sliding panel, the electric signal of light path on-off.Beneficial effect is easy to operate, versatile, at low cost, maximum satisfaction test needs.

Description

One kind being applied to control optical path on-off system and application method

Technical field

The present invention relates to optical path on-off control fields, in particular to a kind of to be applied to control optical path on-off system and user Method.

Background technique

In optical path on-off control field, the design of control mode is varied, and there are light passing amounts for most of control mode Insufficient or light leakage is serious, cannot reach test request；Wherein many all there is design excessively complexity, structural member is more, assembly The problems such as difficult.

Summary of the invention

In view of the problems existing in the prior art, the present invention provides one kind to be applied to control optical path on-off system and method, So that optical path on-off structural module, so that light path control is more convenient, specific technical solution is that one kind is applied to control The mechanical device of optical path on-off, include shell, push-pull electromagnet, electromagnet fixed frame, microswitch, sliding panel, pin, every Tabula rasa, reflector, it is characterised in that: one shell, sliding panel, light insulation pad, composition optical path on-off component, the electromagnetism Iron, sliding panel constitute control optical path on-off component, and the reflector includes two pieces, constitute the reflection subassembly of optical path, the sliding Plate, microswitch constitute optical path opening, closed state monitoring feedback component, and shell, sliding panel, light insulation pad, material are suitable for cunning Movable plate, light insulation pad, the wear-resisting non-metallic material of black that sliding is repeated several times, shell, upper surface and tested product surface shape There are slot, trailing flank to there is side opening, two medial surface of front and back to have guide groove among identical, bottom, microswitch is fixed on housing lower surface And above the medial launder of bottom, electromagnet fixed frame is fixed on the side opening side of shell trailing flank, light insulation pad upper surface and shell Upper surface shape is identical, a slot is arranged at light insulation pad lower part and light insulation pad light hole, light insulation pad be embedded in shell before and after two medial surfaces guiding It in slot and is fixed in shell, shell or so is divided into two parts, a part is optical path launch window, and a part is that optical path receives Window, light insulation pad front end have hole to communicate with the side opening of shell, constitute the moving conduit of push-pull electromagnet nose motion axis, sliding Plate has sliding panel light hole, pin hole and protrusion, and the pin hole of sliding panel is connected by pin with push-pull electromagnet kinematic axis, electricity Magnet is fixed on the electromagnet fixed frame of shell trailing flank, and electromagnet and sliding panel are placed in sliding in the slot of light insulation pad, works as cunning Movable plate light hole is aligned with light insulation pad light hole, and optical path is opened, and two holes are staggered, and optical path is closed, sliding panel top projection movement Microswitch is touched in the process, so that the feedback signal that optical path turns on or off is obtained, two pieces of reflective plate surfaces and shell bottom Shape angle at 45 ° in face is individually fixed in product optical path launch window and product and receives in window, can guarantee light it is the maximum amount of from Optical path launch window is reflected into optical path and receives window.

Application method includes the following steps, 1) it, is determined to be applied to control optical path on-off according to the quantity of test product optical path Mechanical device quantity, several mechanical devices for being applied to control optical path on-off are passed through into the both ends of its housing upper surface arc Screw is connected with test product；2) electromagnetic motion direction, is set as ± X-direction, is powered on to push-pull electromagnet, kinematic axis fortune Dynamic direction is -X direction, and light insulation pad light hole is aligned with sliding panel light hole, path channels opening, and light is from optical path launch window Window, while the protrusion touching microswitch of sliding panel, detection are received by reaching optical path after the two secondary mirrors transmitting of reflector The signal opened to optical path；3), electromagnet powers off, and the reset spring of electromagnet itself pushes the kinematic axis of electromagnet to drive sliding Piece+X-direction movement, returns to initial position, and optical path is closed, and the test of an optical path on-off is completed.

The invention has the advantages that easy to operate, versatile, at low cost, maximum satisfaction tests needs.

Detailed description of the invention

Fig. 1 is structural schematic diagram of the invention；

Fig. 2 is structural upright schematic diagram of the invention；

Fig. 3 is main view of the invention；

Fig. 4 is side view of the invention；

Fig. 5 is bottom view of the invention；

Fig. 6 is Fig. 4 cross-sectional view；

Fig. 7 is optical path on-off control cross-sectional view of the invention；

Fig. 8 is shell top view of the invention；

Fig. 9 is shell main view of the invention；

Figure 10 is shell left view of the invention；

Figure 11 is light insulation pad left view of the invention；

Figure 12 is light insulation pad top view of the invention；

Figure 13 is light insulation pad main view of the invention；

Figure 14 is sliding panel main view of the invention；

Figure 15 is reflector left view of the invention；

Figure 16 is reflector main view of the invention；

Figure 17 is application drawing of the invention.

Specific embodiment

It 1 is described further with reference to the accompanying drawing to attached drawing 17 and example,

It is black polyformaldehyde if Fig. 8,9,10,11,12,13,14 are rapidoprint, is suitable for sliding panel 5, light insulation pad more than 7 It is secondary to repeat to slide, while black can absorb irreflexive extra light.

As shown in Figure 11,12,13,7 medium design of light insulation pad has rectangle light insulation pad light hole 7-1,5 top of sliding panel Protrusion 5-1 is designed, while can guarantee either on or off optical path, microswitch can be also touched, transmit the electric signal of optical path on-off.

After push-pull electromagnet 2 is powered on, 7 light hole 7-1 of light insulation pad is aligned with sliding panel light hole 5-2, and path channels are beaten It opens, the optical path that light reaches product after the two secondary mirrors transmitting that the optical path launch window of product passes through reflector 8 receives window.

As shown in figure 14, while the raised 5-1 of sliding panel 5 touches microswitch 4, detects the signal that optical path is opened, electricity After magnet 2 powers off, the reset spring of electromagnet 2 itself pushes electromagnet kinematic axis 2-1 to drive slider 5 along+X-direction fortune It is dynamic, initial position is returned to, optical path is closed.

As shown in Fig. 7,14,8 material of reflector is mirror surface steel, guarantees the mirror-reflection of light to the greatest extent, has assembled 1 bottom surface of Cheng Houyu shell is at ± 45 ° of angles.

3 material of electromagnet fixed frame is stainless steel, guarantees the vertical of 3 two planes of electromagnet fixed frame in process Degree, thus meet 5 direction of sliding panel movement without departing from.

Microswitch 4 is fixed on 1 lower surface of shell and above slot, and electromagnet fixed frame 3 is fixed on 1 trailing flank of shell The side side opening 1-2,7 upper surface of light insulation pad is identical as 1 upper surface shape of shell, a slot 7-2 is arranged at 7 lower part of light insulation pad and light insulation pad is logical Unthreaded hole 7-1, light insulation pad 7 are embedded in 1 two medial surface guide groove 1-1 of front and back of shell and are fixed in shell 1, by shell 1 or so point For two parts, a part is optical path launch window, and a part is that optical path receives window, and there are hole 7-3 and shell 1 in 7 front end of light insulation pad Lateral aperture 1-2 communicate, constitute the moving conduit of 2 nose motion axis of push-pull electromagnet, pin hole 5-3 and protrusion 5-1 are slided The pin hole 5-3 of plate 5 is connected by pin 6 with 2 kinematic axis of push-pull electromagnet, and electromagnet 2 is fixed on the electromagnetism of 1 trailing flank of shell On ferropexy frame 3, electromagnet 2 and sliding panel 5 are placed in sliding in the slot 7-2 of light insulation pad 7, as sliding panel light hole 5-3 and every light Plate light hole 7-1 alignment, optical path are opened, and two holes are staggered, and optical path is closed, and are touched in 5 top protrusion 5-1 motion process of sliding panel Microswitch 4, to obtain the feedback signal that optical path turns on or off, two pieces of 8 surfaces of reflector are formed with 1 bottom surface of shell 45 ° of angles are individually fixed in product optical path launch window and product receives in window, can guarantee that light is the maximum amount of and send out from optical path It penetrates window and is reflected into optical path reception window.

As shown in figure 17, the modularized design using flexible of optical path component is round using four according to test product window A installation control assembly.

Working principle

It is divided to using control optical path component by light insulation pad 7 for two parts, respectively corresponds the optical path launch window of test product Window is received with optical path, is moved using circuit control push-pull electromagnet 2, so that the movement of sliding panel 5 is driven, two of movement The limit is respectively fully opening and closing for optical path window, by with reflector 8 at ± 45 ° of mirror surface steel twice emitting, optical path The light that launch window issues reaches optical path and receives window, completes an optical path on-off control, while can trigger using sliding panel 5 Microswitch 4, the electric signal of light path on-off.

Claims (2)

1. It include that shell (1), push-pull electromagnet (2), electromagnet are solid 1. a kind of mechanical device applied to control optical path on-off Determine frame (3), microswitch (4), sliding panel (5), pin (6), light insulation pad (7), reflector (8), it is characterised in that: the shell (1), sliding panel (5), light insulation pad (7) form an optical path on-off component, and the electromagnet (2), sliding panel (5) constitute control light Road on-off component, the reflector (8) include two pieces, constitute the reflection subassembly of optical path, the sliding panel (5), microswitch (4) Optical path opening, closed state monitoring feedback component are constituted, shell (1), sliding panel (5), light insulation pad (7) material are suitable for sliding panel (5), the wear-resisting non-metallic material of black of sliding, shell (1) upper surface and tested product surface shape is repeated several times in light insulation pad (7) Shape is identical, has slot, trailing flank to have side opening (1-2) among bottom, and two medial surface of front and back has guide groove (1-1), and microswitch (4) is solid Due to shell (1) lower surface and above the medial launder of bottom, electromagnet fixed frame (3) is fixed on the side opening of shell (1) trailing flank The side (1-2), light insulation pad (7) upper surface is identical as shell (1) upper surface shape, a slot (7-2) is arranged at light insulation pad (7) lower part and every Tabula rasa light hole (7-1), two medial surface guide grooves (1-1) are interior before and after light insulation pad (7) insertion shell (1) and are fixed on shell (1) It is interior, shell (1) left and right is divided into two parts, a part is optical path launch window, and a part is that optical path receives window, light insulation pad (7) front end has hole (7-3) to communicate with the side opening (1-2) of shell (1), constitutes the movement of push-pull electromagnet (2) nose motion axis Channel, sliding panel (5) have sliding panel light hole (5-2), pin hole (5-3) and raised (5-1), the pin hole (5- of sliding panel (5) 3) it is connected by pin (6) with push-pull electromagnet (2) kinematic axis, the electromagnet that electromagnet (2) is fixed on shell (1) trailing flank is solid Determine on frame (3), electromagnet (2) and sliding panel (5) are placed in sliding in the light insulation pad slot (7-2) of light insulation pad (7), when sliding panel light passing Hole (5-2) is aligned with light insulation pad light hole (7-1), and optical path is opened, and two holes are staggered, and optical path is closed, sliding panel (5) top protrusion Microswitch (4) are touched in (5-1) motion process, so that the feedback signal that optical path turns on or off is obtained, two pieces of reflectors (8) surface and shell (1) bottom surface shape angle at 45 ° are individually fixed in product optical path launch window and product receives in window, energy Guarantee that light is the maximum amount of and is reflected into optical path reception window from optical path launch window.
2. 2. using a kind of mechanical device application method applied to control optical path on-off described in claim 1: its feature exists Include the following steps in: application method,

   1) quantity that the mechanical device for being applied to control optical path on-off, is determined according to the quantity of test product optical path, is answered several Mechanical device for controlling optical path on-off is connected by the both ends screw of its shell (1) upper surface arc with test product,

   2) electromagnetic motion direction, is set as ± X-direction, is powered on to push-pull electromagnet (2), and axis of motion direction is-X Direction, the light insulation pad light hole (7-1) of light insulation pad (7) are aligned with the sliding panel light hole (5-2) of sliding panel (5), path channels It opens, light reaches optical path after the two secondary mirrors transmitting that optical path launch window passes through reflector (8) and receives window, slides simultaneously The protrusion (5-1) of plate (5) touches microswitch (4), detects the signal that optical path is opened；

   3), electromagnet (2) powers off, and the reset spring of electromagnet (2) itself pushes the kinematic axis of electromagnet (2) to drive sliding panel (5) edge+X-direction moves, and returns to initial position, and optical path is closed, and the test of an optical path on-off is completed.