CN103128595B - Rotary viewing window - Google Patents

Abstract

A rotary viewing window comprises a fixed seat, a gas conveying assembly, a central support, a first driving piece, a second driving piece and a transparent assembly. The first driving piece comprises a plurality of first driving pieces, and the second driving piece comprises a plurality of second driving pieces. The transparent component is fixed on the first driving component and the second driving component. The central support is provided with a first air supply channel and a second air supply channel, and the two air supply holes are connected by a ventilation pipeline. When the gas input by the gas conveying assembly passes through the ventilation pipeline and is exhausted from the first air supply channel and the second air supply channel, the first driving piece of the first driving piece rotates according to the driving of the gas exhausted from the first air supply channel; meanwhile, the second driving piece of the second driving piece is driven to rotate according to the gas exhausted from the second air supply channel. Because the transparent component is fixed on the first driving component and the second driving component, the rotating speed of the transparent component can be increased due to the fact that the torque and the angular speed of the first driving component and the second driving component which rotate simultaneously are increased.

Description

Rotary view window

Technical field

The present invention relates to a kind of rotary view window, espespecially a kind of rotary view window of pneumatic type (air-driven).

Background technology

Traditional digital control (Computer Numerically controlled, CNC) lathe, when processing (machine tooling) machine components, often needs to use cooling fluid.But in the process of processing, processing observe door glass can because the splashing of cooling fluid it is upper and fuzzy, make operating personnel cannot by the functioning condition of the glass facilities for observation of observation door.Therefore operating personnel often must open and observe door and cleaning glass window, are just continued processing.But such mode can extend process time and increase cost, also increase the danger of operating personnel.

Solve this problem to improve, current industry can use a kind of picture window that can throw away on the glass liquid of splashing.This picture window comprises a ring-like framework, is positioned at the motor at framework center and is embedded in the glass of this ring-like framework.This motor can drive this glass fast rotational, the liquid attached on this glass can be departed to surrounding because of centrifugal force, makes picture window keep clear, and prevent liquid from infiltrating in window.

But, utilize power-actuated motor under the environment of high humility, operate easy corrosion and fault for a long time, select so pneumatic type picture window becomes another kind of.Pneumatic type picture window comprises the framework with multiple driving chip, and glass is chimeric being arranged on the groove of this framework.Gases at high pressure spray to these driving chips and this framework can be made to drive chimeric glass fast rotational, and the liquid be therefore splashed on this glass can be thrown away because of centrifugal force, therefore picture window can keep clear.

In general, the velocity of rotation of glass is faster, then liquid is more not easy to be built-up on glass.Such as, but sometimes splashing to, glass is the thick liquid being not easy to throw away, lubricating oil, therefore under long working environment, glass can build up thick liquid and affect rotating speed.

Summary of the invention

Therefore, the object of this invention is to provide a kind of pneumatic type rotary view window increasing moment of torsion and angular speed.This pneumatic type rotary view window arranges one first actuator and one second actuator, and this two actuator arranges multiple driving chip respectively.Two different wind pushing hole ejection gases drive this two actuator to drive transparent components to rotate respectively, therefore can improve transparent components rotating speed to improve the problem of prior art.

Embodiments of the invention are to provide a kind of rotary view window, and it comprises a holder, a gas carrier member, a center bearing bracket, one first actuator, one second actuator and a transparent components.This gas carrier member is used for transmitting gas.This center bearing bracket is fixed on this holder, and it comprises a fixed part, a Gas Input and a junction.This fixed part comprises one first air-supply passage.This Gas Input, is connected to this gas carrier member, and it comprises one second air-supply passage.This connecting portion connects this fixed part and this Gas Input, it comprises an air pipeline, be used for connecting this first air-supply passage and this second air-supply passage, the gas that this gas carrier member inputs from this Gas Input is by this air pipeline and discharge from this first air-supply passage and this second air-supply passage.This first actuator comprises multiple first driving chip, is used for according to the gas-powered of this first air-supply passage discharge and rotates.This second actuator comprises multiple second driving chip and is used for according to the gas-powered of this second air-supply passage discharge and rotates.This transparent components is fixed on this first actuator and this second actuator, be used for this first actuator and this second actuator rotation and rotate.

According to embodiments of the invention, this gas carrier member comprises a pipe joint, is connected to a gas generation apparatus and a flow regulator.This pipe joint is used for inputting the gas that this gas generation apparatus produces.This flow regulator is used for adjusting the flow that gas that this gas generation apparatus produces inputs this Gas Input.

According to embodiments of the invention, this rotary view window separately comprises a passive rotary components, connects this first actuator and this center bearing bracket.This passive rotary components comprises a passive rotary fixing base, a bearing and one first spacer ring, and this passive rotary fixing base, this first spacer ring and this bearing are assembled into this passive rotary components in the mode of basic hole system and basic shaft system.

According to embodiments of the invention, this Gas Input separately comprises a fixing hole, is used for utilizing a fixture to wear this fixing hole to be fixed on this holder by this center bearing bracket.

According to embodiments of the invention, this first actuator is a disk, and its center is provided with a perforate and multiple screw around this perforate.This rotary view window separately comprises a center screw lock, its center is provided with a hollow cylinder, this center column inside is provided with screw thread, this center column is used for the fixed part through this transparent components, this first actuator, this passive rotary components and this center bearing bracket, and be fixed in this center screw lock with a screwed lock, this transparent components, this first actuator and this passive rotary components are fixed on this center bearing bracket.

According to embodiments of the invention, in the form of a ring, its limit is provided with a groove to this second actuator, and this transparent components is fixed on this groove.The radius of this first actuator is less than the radius of this second actuator.

According to embodiments of the invention, this transparent components is a tempered glass or corrosion-resistant and shock-resistant transparent material.

According to embodiments of the invention, this first air-supply passage and this second air-supply passage are 30 ~ 60 degree relative to the angle of inclination of this air pipeline.

Compared to prior art, pneumatic type rotary view window of the present invention arranges one first actuator and one second actuator, and this two actuator arranges multiple driving chip respectively.Two different wind pushing hole ejection gases drive this two actuator to rotate to drive transparent components respectively.Owing to there being two actuators to rotate to drive transparent components, therefore the rotating speed of transparent components not only can promote, even if bear larger load also can maintain that certain Speed unit time interior angle velocity variations is large and moment of torsion is large.In such event, the problem of prior art can be improved.

For foregoing of the present invention can be become apparent, preferred embodiment cited below particularly, and coordinate institute's accompanying drawings, be described in detail below:

Accompanying drawing explanation

Fig. 1 illustrates pneumatic type rotary view window of the present invention and is installed on transparent panel.

Fig. 2 is the exploded view of pneumatic type rotary view window of the present invention.

Fig. 3 is the perspective view of the center bearing bracket of Fig. 2.

Fig. 4 is the top view after the pneumatic type rotary view window assembling of Fig. 2.

Fig. 5 is the profile of the A-A ' line segment along Fig. 4.

Fig. 6 is the profile of the B-B ' line segment along Fig. 4.

Fig. 7 is the profile of the C-C ' line segment along Fig. 4.

Fig. 8 is the assembly drawing of the embodiment of pneumatic type rotary view window before being installed on transparent panel of Fig. 2.

Fig. 9 is the side view before the pneumatic type rotary view window of Fig. 8 is installed on transparent panel.

Figure 10 is the assembly drawing of another embodiment of pneumatic type rotary view window before being installed on transparent panel of Fig. 2.

Detailed description of the invention

The explanation of following embodiment is graphic with reference to what add, can in order to the specific embodiment of enforcement in order to illustrate the present invention.The direction term that the present invention mentions, such as " on ", D score, "front", "rear", "left", "right", " top ", " end ", " level ", " vertically " etc., be only the direction with reference to annexed drawings.Therefore, the direction term of use is in order to illustrate and to understand the present invention, and is not used to limit the present invention.

Refer to Fig. 1, Fig. 1 illustrates pneumatic type rotary view window 100 of the present invention and is installed on transparent panel 200.Rotary view window 100 can be fixed on computer digital control machine tool or the transparent panel of vessel 200, be used for being inputted by gas carrier member 140 transparent components 108 quick rotation of gas-powered rotary view window 100, the liquid on splashing transparent components 108 is thrown off.User just can see the situation of space B from space A through pneumatic type rotary view window 100.

Refer to Fig. 2, Fig. 2 is the exploded view of pneumatic type rotary view window 100 of the present invention.Rotary view window 100 comprises holder 101, center bearing bracket 102, passive rotary components 130, first actuator 106, second actuator 107, transparent components 108, center screw lock 109, spacer ring 105, packing ring 114, bearing 115, gas carrier member 140, waterproof ring 117, two protection ring 118 and multiple screw 110,111,112.

In the form of a ring, its inner rim is provided with groove 1071 to second actuator 107.Second actuator 107 of ring-type is separately provided with multiple driving chip 1072.The center of transparent components 108 is provided with perforate 1081, and is be positioned on the groove 1071 of the second actuator 107.Preferably, transparent components 108 can be tempered glass or plastics.

First actuator 106 is disks, and it comprises and is positioned at the perforate 1061 at center and the screw 1063 of multiple around opening 1061.The radius of the first actuator 106 is less than the radius of the second actuator 107.Multiple driving chip 1062 is arranged on the first actuator 106.

Passive rotary components 130 comprises passive rotary fixing base 103, bearing 104 and spacer ring 105.All in the form of a ring, there is a perforate at its center for passive rotary fixing base 103, bearing 104 and spacer ring 105, is assembled into passive rotary components 130 in the mode of basic hole system and basic shaft system.

Holder 101 is provided with a groove 1011, in order to place the second actuator 107.

Center bearing bracket 102 has fixed part 150, Gas Input 160 and is used for the connecting portion 170 of connecting portion 150 and Gas Input 160.Fixed part 150, Gas Input 160 and connecting portion 170 are one-body molded.

Fixed part 150 comprises perforate 1051, first air-supply passage 1502 and multiple fixing hole 1054 at the center of being located at.The position of giving vent to anger of the first air-supply passage 1502 corresponds to the driving chip 1062 of the first actuator 106 after the air pipeline of passive rotary fixing base 103.

Gas Input 160 is through gas carrier member 140 and is connected to a gas generation apparatus (not shown).Gas carrier member 140 comprises flow regulator 142, flexible pipe 144 and pipe joint 146.Pipe joint 146 is engaged in this gas generation apparatus, and the gas that this gas generation apparatus is produced sends into Gas Input 160 through flexible pipe 144.Flow regulator 142 can be used to the flow adjusting input gas.Gas Input 160 is also provided with the second air-supply passage 1602 and at least one fixing hole 1604.

The position of giving vent to anger of the second air-supply passage 1602 corresponds to the driving chip 1072 of the second actuator 107 through the air pipeline of holder 101.One fixture (such as screw 110) can be locked in the screw (not shown) of holder 101 correspondence through fixing hole 1604 and fixing hole 1504, center bearing bracket 102 is fixed on holder 101.

The center of center screw lock 109 is provided with a hollow cylinder 1091, and hollow cylinder 1091 inside is provided with screw thread (not shown).When assembling, first by waterproof ring 117 with between transparent components 108 centering screw lock 109 and the first actuator 106.Then, with multiple screw 111 through the screw 1063 of the first actuator 106 and the perforate 1081 of transparent components 108, and center screw lock 109 is locked in.Therefore, transparent components 108 is held between the first actuator 106 and center screw lock 109.Waterproof ring 117 is used to the space filled up between center screw lock 109 and transparent components 108 and avoids aqueous vapor to infiltrate.

Simultaneously, the hollow cylinder 1091 of center screw lock 109 also sequentially can pass the perforate 1061 of perforate 1081, first actuator 106 of waterproof ring 117, transparent components 108, passive rotary components 130 and center bearing bracket 102, then is inserted by screw 112 and be locked in the screw thread in hollow cylinder 1091.Thus, perforate 1081, first actuator 106 of waterproof ring 117, transparent components 108, passive rotary components 130 all can be fixed on center bearing bracket 102 by screw 112.

Refer to 3-8 figure.Fig. 3 is the perspective view of the center bearing bracket 102 of Fig. 2.Fig. 4 is the top view after the pneumatic type rotary view window 100 of Fig. 2 is assembled, and Fig. 5 is the profile of the A-A ' line segment along Fig. 4, and Fig. 6 is the profile of the B-B ' line segment along Fig. 4, and Fig. 7 is the profile of the C-C ' line segment along Fig. 4.The inside of connecting portion 170 is also provided with an air pipeline 1702.Air pipeline 1702 connects the first air-supply passage 1502 and the second air-supply passage 1602, can receiver gases conveying assembly 140 input gas, this input gas is discharged by the first air-supply passage 1502 and the second air-supply passage 1602.Because the first air-supply passage 1502 is relative to the tilt angle theta of the passive rotary components of air pipeline 1702 bearing of trend ₁with the tilt angle theta of the second air-supply passage 1602 relative to the holder of air pipeline 1702 bearing of trend ₂in 30 ~ 60 degree, the gas of discharge can efficiently drive driving chip 1062 and 1072 to rotate.

Refer to Fig. 2.Two protection rings 118 are positioned on the first air-supply passage 1502 and the second air-supply passage 1602; be used for filling up the space between the first air-supply passage 1502 and passive rotary fixing base 103; and the space filled up between the second air-supply passage 1602 and holder 101; to avoid the gas of discharging from the first air-supply passage 1502 and the second air-supply passage 1602 to go out from air gap leakage, and then reduce the gas flow of driving first actuator 106 and the second actuator 107.

See also Fig. 8 and Fig. 9, Fig. 8 is the assembly drawing of the embodiment of pneumatic type rotary view window 100 before being installed on transparent panel 200 of Fig. 2.Fig. 9 is the side view before the pneumatic type rotary view window 100 of Fig. 8 is installed on transparent panel 200.After rotary view window 100 has been assembled, the first pad 171 and the second pad 172 can be utilized to be locked on transparent panel 200 by rotary view window 100 screw 116.Preferably, the first pad 171 and the second pad 172 can be rubber or plastic material.

Refer to Figure 10, Figure 10 is the assembly drawing of another embodiment of pneumatic type rotary view window 100 before being installed on transparent panel 200 of Fig. 2.In another embodiment, the second pad 172 can be omitted, and be directly coated in the two sides of the first pad 171 with viscose 180, then rotary view window 100 and transparent panel 200 are binded respectively at the first pad 171.

In sum; although the present invention discloses as above with preferred embodiment; but this preferred embodiment is also not used to limit the present invention; the those of ordinary skill in this field; without departing from the spirit and scope of the present invention; all can do various change and retouching, the scope that therefore protection scope of the present invention defines with claim is as the criterion.

Claims (10)

1. a rotary view window, it comprises:

One holder;

One gas carrier member, is used for transmitting gas;

One center bearing bracket, be incorporated into described holder, it comprises:

One fixed part, comprises one first air-supply passage;

One Gas Input, is connected to described gas carrier member, and it comprises one second air-supply passage; And

A junction, be used for connecting described fixed part and described Gas Input, it comprises an air pipeline, is used for connecting described first air-supply passage and described second air-supply passage; It is characterized in that, described rotary view window separately comprises:

One first actuator, comprises multiple first driving chip, is used for according to the gas-powered of described first air-supply passage discharge and rotates;

One second actuator, comprises multiple second driving chip and is used for according to the gas-powered of described second air-supply passage discharge and rotates; And

One transparent components, is fixed on described first actuator and described second actuator, be used for described first actuator and described second actuator rotation and rotate.

2. rotary view window as claimed in claim 1, is characterized in that: described gas carrier member comprises:

One pipe joint, is connected to a gas generation apparatus, is used for inputting the gas that described gas generation apparatus produces; And

One flow regulator, the gas being used for adjusting the generation of described gas generation apparatus inputs the flow of described Gas Input.

3. rotary view window as claimed in claim 1, is characterized in that: separately comprise a passive rotary components, connects described first actuator and described center bearing bracket.

4. rotary view window as claimed in claim 3, it is characterized in that: described passive rotary components comprises a bearing, one first spacer ring and a passive rotary fixing base, described passive rotary fixing base, described first spacer ring and described bearing are assembled into described passive rotary components in the mode of basic hole system and basic shaft system.

5. rotary view window as claimed in claim 1, is characterized in that: described Gas Input separately comprises a fixing hole, is used for utilizing a fixture to wear described fixing hole to be fixed on described holder by described center bearing bracket.

6. rotary view window as claimed in claim 4; it is characterized in that: separately comprise two protection rings; be positioned on described first air-supply passage and described second air-supply passage; be used for filling up described first air-supply passage and the space between described passive rotary fixing base and described holder; and the space filled up between described second air-supply passage and described holder, with avoid from described first air-supply passage and described second air-supply passage discharge Leakage Gas and go out.

7. rotary view window as claimed in claim 6, it is characterized in that: separately comprise a center screw lock, its center is provided with a hollow cylinder, described hollow cylinder inside is provided with screw thread, described center column is used for the fixed part through described transparent components, described first actuator, described passive rotary components and described center bearing bracket, and be fixed in described center screw lock with a screwed lock, described transparent components, described first actuator and described passive rotary components are fixed on described center bearing bracket.

8. rotary view window as claimed in claim 6, is characterized in that: in the form of a ring, its limit is provided with a groove to described second actuator, and described transparent components is positioned on described groove.

9. rotary view window as claimed in claim 8, is characterized in that: the radius of described first actuator is less than the radius of described second actuator.

10. rotary view window as claimed in claim 1, is characterized in that: described first air-supply passage and described second air-supply passage are 30 ~ 60 degree relative to the angle of inclination of described air pipeline.