CN210659728U - Infrared remote control middle-suspension turnover window - Google Patents

Infrared remote control middle-suspension turnover window Download PDF

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Publication number
CN210659728U
CN210659728U CN201921199645.7U CN201921199645U CN210659728U CN 210659728 U CN210659728 U CN 210659728U CN 201921199645 U CN201921199645 U CN 201921199645U CN 210659728 U CN210659728 U CN 210659728U
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China
Prior art keywords
window
remote control
coupled
relay
motor
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CN201921199645.7U
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Chinese (zh)
Inventor
郑常勇
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Chongqing Eke Door And Window Curtain Wall Engineering Co Ltd
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Chongqing Eke Door And Window Curtain Wall Engineering Co Ltd
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Abstract

The utility model discloses a hang upset window in infrared remote control relates to the window form structure, and the outstanding window receives the mounted position to influence in aiming at solving current part, leads to the user to open and close inconvenient problem to it, and its technical scheme main points are: including the window frame, set up the casement in the window frame and be fixed in the window axle of casement symmetry both sides, the window axle rotates to be connected in the window frame, the window frame is connected with and is used for ordering about window axle pivoted actuating mechanism, actuating mechanism is including the motor that is used as the power supply, the motor is coupled and is had airborne controller, airborne controller is connected with the remote controller. The utility model discloses a hang upset window in infrared remote control, it can convenience of customers do to install and open and close in high-order casement.

Description

Infrared remote control middle-suspension turnover window
Technical Field
The utility model relates to a window form structure, more specifically say, it relates to a hang upset window in infrared remote control.
Background
The center-hung window is a window with a window shaft arranged in the middle of a left stile and a right stile of a window sash and rotating along a horizontal shaft. It is often used as a light window on stairs, high windows and doors of walkways, and a side window or a transom window of industrial buildings.
Receive the mounted position influence, hang the opening and closing of upset window in the part many times and need with the help of instruments such as ladder, lead to using relatively inconvenient, for example: walkway high windows and therefore a new solution is needed to solve this problem.
SUMMERY OF THE UTILITY MODEL
Not enough to prior art exists, the utility model aims to provide an infrared remote control center-hung turnover window, it can convenience of customers do to install and open and close in high-order casement.
The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides an infrared remote control center-hung turnover window, includes the window frame, sets up the casement in the window frame and is fixed in the window axle of casement symmetry both sides, the window axle rotates to be connected in the window frame, the window frame is connected with and is used for ordering about window axle pivoted actuating mechanism, actuating mechanism is including the motor that is used as the power supply, the motor is coupled and is had airborne controller, airborne controller is connected with the remote controller.
By adopting the technical scheme, a worker can hold the remote controller to control the onboard controller and then control the rotation of the motor through the onboard controller so as to control the onboard controller to open and close the window; at the moment, the worker can remotely control the window sash to rotate, so that the worker can operate conveniently even if the position of the window sash is relatively high.
The utility model discloses further set up to: the window frame is characterized in that an installation cavity is formed in the side portion of the window frame, a transmission assembly is arranged in the installation cavity, one end of the window shaft penetrates into the installation cavity, the motor is installed on the side face of the window frame, an output shaft penetrates into the installation cavity, and the transmission assembly is linked with one end of the window shaft extending into the installation cavity and the output shaft of the motor.
Through adopting the technical scheme, the utility model discloses a transmission assembly is to the window fan drive, because the output shaft direct drive of non-motor, so can effectively reduce the slew velocity of casement through transmission assembly, guarantee the result of use.
The utility model discloses further set up to: the transmission assembly comprises a driven bevel gear, a vertical shaft and a driving bevel gear, the driven bevel gear is fixed at one end, extending into the mounting cavity, of the window shaft, the driving bevel gear is rotatably connected to the vertical shaft of the mounting cavity, the vertical shaft is vertical to the window shaft, the driving bevel gear is meshed with the driven bevel gear, and the motor drives the vertical shaft to rotate.
By adopting the technical scheme, the motor can adjust the rotating speed of the window sash by adjusting the transmission ratio of the driving bevel gear and the driven bevel gear, and drives the window sash to rotate by utilizing the motor.
The utility model discloses further set up to: the transmission assembly further comprises a turbine fixed on the vertical shaft and a worm meshed with the turbine, and the worm is fixed on an output shaft of the motor.
By adopting the technical scheme, the motor drives the worm, the worm drives the worm wheel, the worm wheel drives the vertical shaft to rotate, and then the window sash is driven to rotate through the bevel gear set; the worm and gear structure is adopted to position the window sash by utilizing the self-locking function of the worm and gear structure.
The utility model discloses further set up to: the onboard controller includes:
an infrared receiving head IC1 for receiving remote control signals sent by a remote controller;
an on-board chip L1 coupled to the output end of the infrared receiving head;
a base electrode of the first NPN-type triode Q1 is coupled to the output end of the on-board chip L1, an emitter electrode of the first NPN-type triode Q1 is grounded, a collector electrode of the first NPN-type triode Q1 is coupled to the first relay KT1 and is connected in series with a coil of the first relay KT1, and the first relay KT1 includes two normally open contacts which are respectively connected in series with the positive end and the negative end of the motor;
a base electrode of the second NPN-type triode Q2 is coupled to the output end of the on-board chip L1, an emitter thereof is grounded, a collector thereof is coupled with the second relay KT2 and is connected in series with a coil of the second relay KT2, the second relay KT2 comprises two normally open contacts, and the two normally open contacts are respectively connected in series with the positive end and the negative end of the motor;
the normally open contact of the first relay KT1 and the normally open contact of the second relay KT2 are arranged in parallel.
Through adopting the technical scheme, the utility model discloses an operation remote controller sends remote control signal to machine carries the chip, and the break-make of controlling two relays through the break-make of machine year chip control two NPN type triodes to the realization is to the motor break-make electricity, controls its promptly.
The utility model discloses further set up to: the remote controller includes the casing and sets up the remote control circuit in the casing, remote control circuit includes:
a remote control chip L2;
a third NPN transistor Q3 having a collector coupled to the output terminal of the remote control chip L2, a collector coupled to the power supply Vcc, and an emitter grounded;
an infrared emitting diode D1, having an anode coupled to the power Vcc and a cathode coupled to the collector of the second NPN triode Q2; the infrared emitting diode D1 is used for outputting remote control signals;
a resistor R1, one end of which is coupled to an input end of the remote control chip L2, and the other end of which is coupled to a power supply Vcc;
a resistor R2, one end of which is coupled to the other input end of the remote control chip L2, and the other end of which is coupled to a power supply Vcc;
a windowing switch SB1, one end of which is coupled to the connection point of the resistor R1 and the power supply Vcc, and the other end is grounded;
a window closing switch SB2, one end of which is coupled to the connection point of the resistor R2 and the power supply Vcc, and the other end is grounded;
the contacts of the window opening switch SB1 and the window closing switch SB2 and the end of the infrared emitting diode D1 respectively extend out of the shell.
By adopting the technical scheme, the working personnel can control the remote control chip L2 to control the infrared emitting diode D1 to send out a window opening signal or a window closing signal by triggering the window opening switch SB1 or the window closing switch SB2 so as to realize the control of the airborne controller.
The utility model discloses further set up to: the first relay KT1 and the second relay KT2 are both power-off delay relays.
Through adopting above-mentioned technical scheme, the staff only needs at this moment the utility model discloses the time sets up delay time according to the slew velocity of casement, sets up the switch into after replying the switch again, and it only needs to correspond and can accomplish the operation of windowing or closing the window once to the result of use is better.
The utility model discloses further set up to: the upper inner frame and the lower inner frame of the window frame are respectively provided with a limiting plate, and the abutting surfaces of the limiting plates and the window sashes are provided with elastic buffer sheets.
Through adopting above-mentioned technical scheme, can utilize elastic buffer block to do the buffering and rotate the surplus, it is right when reducing the casement and rotating excessively the utility model discloses the damage that causes.
To sum up, the utility model discloses following beneficial effect has: the window shaft of the window sash is driven by the motor which is coupled with the onboard controller, and the onboard controller is connected with the remote controller, so that a user can remotely control the motor to rotate by using the remote controller as long as the user is ensured to be in an effective remote control range of the remote controller, namely, the window sash is controlled to rotate, and the window sash is relatively higher and also rotates conveniently.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a partially exploded view of FIG. 1, primarily illustrating the structure of the transmission assembly;
fig. 3 is a circuit diagram of the onboard controller according to the present invention;
fig. 4 is a remote control circuit diagram of the present invention.
In the figure: 1. a window frame; 11. installing a cavity; 12. a cover plate; 2. a window sash; 3. a window shaft; 4. a drive mechanism; 41. a motor; 5. an onboard controller; 6. a remote controller; 61. a housing; 62. a remote control circuit; 7. a transmission assembly; 71. a driven bevel gear; 72. a vertical shaft; 73. a drive bevel gear; 74. a turbine; 75. a worm; 8. a limiting plate; 81. and a limiting plate.
Detailed Description
The present invention will be described in detail with reference to the accompanying drawings and examples.
An infrared remote control center-hung turnover window, referring to fig. 1 and 2, comprises a window frame 1 and a matched window sash 2 arranged in the window frame 1, wherein the window sash 2 is composed of glass and a glass frame fixed around the edge of the glass. The middle parts of the left side and the right side of the window sash 2 are respectively fixed with a window shaft 3, and the window shafts 3 are arranged in corresponding shaft holes on the inner side of the window frame 1 in a penetrating way, so that the rotary connection is realized.
In order to facilitate a user to rotate the window sash 2 with a relatively high position, a driving mechanism 4 for rotating the window shaft 3 is arranged on the window frame 1, the driving mechanism 4 comprises a motor 41 serving as a power source, the motor 41 is coupled and controlled by an onboard controller 5 (shown in fig. 3), and the onboard controller 5 is wirelessly connected with a remote controller 6.
At this moment, as long as the user is ensured to be within the effective remote control range of the remote controller 6, the motor 41 can be remotely controlled to rotate by using the remote controller 6, namely, the window sash 2 is controlled to rotate, so that the window sash 2 is relatively more convenient to open and close.
Referring to fig. 2, a mounting cavity 11 is opened at a side portion of the window frame 1, and an adaptive cover plate 12 is fixed to the mounting cavity 11 through bolts and has an open structure at a side facing indoors. One end of the window shaft 3 far away from the window sash 2 penetrates into the mounting cavity 11; the installation cavity 11 is internally provided with a transmission assembly 7, and the window shaft 3 and the output shaft of the motor 41 are linked through the transmission assembly 7.
Referring to fig. 2, the driving assembly 7 includes a driven bevel gear 71, and the driven bevel gear 71 is fixed to an end of the window shaft 3 extending into the mounting cavity 11. A vertical shaft 72 extending vertically is arranged in the mounting cavity 11, and the upper end and the lower end of the vertical shaft 72 are respectively rotatably connected to the mounting cavity 11 through end bearings. A driving bevel gear 73 is fixed on the vertical shaft 72 coaxially with the central shaft, the driving bevel gear 73 is meshed with the driven bevel gear 71, and the motor 41 drives the vertical shaft 72 to rotate so as to drive the window sash 2 to rotate.
Further, a turbine 74 with the same central shaft is fixed on the vertical shaft 72; the motor 41 is arranged in a wall cavity on the side surface of the window frame 1, and an output shaft of the motor penetrates into the mounting cavity 11; the end of the motor 41 extending into the mounting cavity 11 is fixed with a worm 75 engaged with the worm wheel 74.
After the motor 41 is started, the worm 75 is driven to rotate, the worm 75 drives the worm wheel 74 to rotate, so that the vertical shaft 72 on which the worm wheel 74 is fixed rotates, the vertical shaft 72 rotates to drive the driving bevel gear 73 thereon to rotate, so that the driving bevel gear 73 drives the driven bevel gear 71 meshed with the threshold to rotate, and the window sash 2 is driven to rotate. The worm gear and worm transmission structure is arranged, the arrangement of the speed reduction structure can be reduced by considering the larger transmission ratio of the worm gear and worm transmission structure, and meanwhile, the worm gear and worm have certain self-locking capacity, so that the window sash can be conveniently opened at a proper angle.
The electric machine 41 can be selected from a small motor or a small servomotor, and to control it, referring to fig. 3, the onboard controller 5 is mounted on the electric machine 41 (indicated in fig. 2) and includes:
an infrared receiver IC1, which includes three terminals, one connected to Vcc, one connected to ground, and one acting as an out output; the infrared receiving head IC2 is used for receiving remote control signals sent by the remote controller 6, and can select BA 5302;
an on-board chip L1 coupled to the output end of the infrared receiving head; the onboard chip L1 can select a BA8206 chip;
a base electrode of the first NPN-type triode Q1 is coupled to the output end of the on-board chip L1, an emitter thereof is grounded, a collector thereof is coupled to the first relay KT1 and is connected in series with a coil of the first relay KT1, the first relay KT1 includes two normally open contacts, and the two normally open contacts are respectively connected in series with the positive end and the negative end of the motor 41;
a second NPN transistor Q2, a base electrode of which is coupled to the output terminal of the on-board chip L1, an emitter of which is grounded, a collector of which is coupled to the second relay KT2 and is connected in series with a coil of the second relay KT2, the second relay KT2 including two normally open contacts, the two normally open contacts being respectively connected in series with the positive and negative terminals of the motor 41 (M in the figure);
the normally open contact of the first relay KT1 and the normally open contact of the second relay KT2 are arranged in parallel.
Referring to fig. 1 and 4, the remote controller 6 includes a housing 61 of a hollow structure made of plastic, a circuit board fixed by bolts in the housing 61, and a remote control circuit 62 integrated on the circuit board. The remote control circuit 62 includes:
a remote control chip L2, which can select a BA5104 chip;
a third NPN transistor Q3 having a collector coupled to the output terminal of the remote control chip L2, a collector coupled to the power supply Vcc, and an emitter grounded;
an infrared emitting diode D1, having an anode coupled to the power Vcc and a cathode coupled to the collector of the second NPN triode Q2; the infrared emitting diode D1 is used for outputting remote control signals;
a resistor R1, one end of which is coupled to an input end of the remote control chip L2, and the other end of which is coupled to a power supply Vcc;
a resistor R2, one end of which is coupled to the other input end of the remote control chip L2, and the other end of which is coupled to a power supply Vcc;
a windowing switch SB1, one end of which is coupled to the connection point of the resistor R1 and the power supply Vcc, and the other end is grounded;
a window closing switch SB2, one end of which is coupled to the connection point of the resistor R2 and the power supply Vcc, and the other end is grounded;
the contacts of the window opening switch SB1 and the window closing switch SB2 and the end of the infrared emitting diode D1 protrude from the housing 61, respectively.
The use process comprises the following steps: when the window needs to be opened, a worker presses the window opening switch SB1, the remote control chip L2 is coupled with the pin level change of SB1 at the moment, the remote control chip L2 obtains a trigger signal, and the remote control chip L2 is set to output a high level to the base electrode of the third NPN type triode Q3 at the moment so as to be conducted; after the third NPN type triode Q3 is turned on, the infrared emitting diode D1 is turned on, and sends an infrared signal to the infrared receiving head IC1, and the infrared receiving head IC1 outputs a remote control signal to the onboard chip L1, the onboard chip L1 outputs a high level to the first NPN type triode Q1, after the first NPN type triode Q1 is turned on, the coil of the first relay KT1 is energized, the two normally open contacts KT1-1 and KT1-2 are closed, and the motor 41 rotates (defines that the normal rotation at this time) to drive the window sash 2 to rotate to open the window. When the window needs to be closed, the user presses the window closing switch SB 2.
Referring to fig. 3, a resistor R4 and a resistor R5 are respectively connected in series to the base electrode of the first NPN transistor Q1 and the base electrode of the second NPN transistor Q2 for preventing ringing of the signal. The utility model discloses still reduce the back electromotive force when the relay switches as freewheeling diode through reverse parallel diode D2 and D3 respectively on the coil of two relays to the result of use is better.
Referring to fig. 3, in order to further facilitate the user to control the window sash 2 to open and close through the remote controller 6, the first relay KT1 and the second relay KT2 both select a power-off delay relay, for example: taiwan research ATS-2 type power-off delay time relay. The staff only needs to be installed this moment the utility model discloses the time according to 2 slew velocity of casement set up delay time, set up the switch into after replying the switch again, it only needs to correspond and presses once can accomplish the window or close the window operation to the result of use is better.
Referring to fig. 1, in order to reduce damage caused by over-turning of the window sash 2, limiting plates 8 are respectively fixed to upper and lower inner frame edges of the window frame 1, and a buffer sheet 81 made of rubber is fixed to a side of the limiting plate 8 facing the window sash 2 (when closed) so as to use the limiting plate for buffering and ensuring turning allowance.
The utility model discloses the power consumption unit corresponds configuration battery or charging plug to acquire the electric energy.
It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides a hang upset window in infrared remote control, includes window frame (1), sets up casement (2) in window frame (1) and is fixed in window axle (3) of casement (2) symmetry both sides, window axle (3) rotate to be connected in window frame (1), its characterized in that: the window frame (1) is connected with a driving mechanism (4) used for driving a window shaft (3) to rotate, the driving mechanism (4) comprises a motor (41) used as a power source, the motor (41) is coupled with an airborne controller (5), and the airborne controller (5) is connected with a remote controller (6).
2. The infrared remote control center-hung roll-over window of claim 1, characterized in that: the window frame is characterized in that a mounting cavity (11) is formed in the side portion of the window frame (1), a transmission assembly (7) is arranged in the mounting cavity (11), one end of the window shaft (3) penetrates into the mounting cavity (11), the motor (41) is mounted on the side face of the window frame (1), an output shaft penetrates into the mounting cavity (11), and the transmission assembly (7) is linked with one end of the window shaft (3) and the output shaft of the motor (41).
3. The infrared remote control center-hung roll-over window of claim 2, characterized in that: the transmission assembly (7) comprises a driven bevel gear (71) fixed at one end of the window shaft (3) extending into the mounting cavity (11), a vertical shaft (72) rotatably connected to the mounting cavity (11) and a driving bevel gear (73) fixed on the vertical shaft (72), the vertical shaft (72) is vertical to the window shaft (3), the driving bevel gear (73) is meshed with the driven bevel gear (71), and the motor (41) drives the vertical shaft (72) to rotate.
4. The infrared remote control center-hung roll-over window of claim 3, characterized in that: the transmission assembly (7) further comprises a worm wheel (74) fixed to the vertical shaft (72) and a worm (75) meshed with the worm wheel (74), and the worm (75) is fixed to an output shaft of the motor (41).
5. The infrared remote control center-hung roll-over window of claim 1, characterized in that: the onboard controller (5) comprises a control unit,
an infrared receiving head IC1 for receiving remote control signals sent by a remote controller (6);
an on-board chip L1 coupled to the output end of the infrared receiving head;
a base electrode of the first NPN type triode Q1 is coupled with the output end of the on-board chip L1, an emitting electrode of the first NPN type triode Q1 is grounded, a collector electrode of the first NPN type triode Q1 is coupled with the first relay KT1 and is connected with a coil of the first relay KT1 in series, the first relay KT1 comprises two normally open contacts, and the two normally open contacts are respectively connected with the positive end and the negative end of the motor (41) in series;
a base electrode of the second NPN type triode Q2 is coupled with the output end of the on-board chip L1, an emitting electrode of the second NPN type triode Q2 is grounded, a collector electrode of the second NPN type triode Q2 is coupled with the second relay KT2 and is connected with a coil of the second relay KT2 in series, the second relay KT2 comprises two normally open contacts, and the two normally open contacts are respectively connected with the positive end and the negative end of the motor (41) in series;
the normally open contact of the first relay KT1 and the normally open contact of the second relay KT2 are arranged in parallel.
6. The infrared remote control center-hung roll-over window of claim 5, characterized in that: the remote controller (6) comprises a shell (61) and a remote control circuit (62) arranged in the shell (61), the remote control circuit (62) comprises,
a remote control chip L2;
a third NPN transistor Q3 having a collector coupled to the output terminal of the remote control chip L2, a collector coupled to the power supply Vcc, and an emitter grounded;
an infrared emitting diode D1, having an anode coupled to the power Vcc and a cathode coupled to the collector of the second NPN triode Q2; the infrared emitting diode D1 is used for outputting remote control signals;
a resistor R1, one end of which is coupled to an input end of the remote control chip L2, and the other end of which is coupled to a power supply Vcc;
a resistor R2, one end of which is coupled to the other input end of the remote control chip L2, and the other end of which is coupled to a power supply Vcc;
a windowing switch SB1, one end of which is coupled to the connection point of the resistor R1 and the power supply Vcc, and the other end is grounded;
a window closing switch SB2, one end of which is coupled to the connection point of the resistor R2 and the power supply Vcc, and the other end is grounded;
the contacts of the window opening switch SB1 and the window closing switch SB2 and the end of the infrared emitting diode D1 respectively extend out of the shell (61).
7. The infrared remote control center-hung roll-over window of claim 6, characterized in that: the first relay KT1 and the second relay KT2 are both power-off delay relays.
8. The infrared remote control center-hung flip window of claim 1, 6 or 7, wherein: the upper inner frame and the lower inner frame of the window frame (1) are respectively provided with a limiting plate (8), and elastic buffer sheets (81) are arranged on abutting surfaces of the limiting plates (8) and the window sashes (2).
CN201921199645.7U 2019-07-27 2019-07-27 Infrared remote control middle-suspension turnover window Active CN210659728U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921199645.7U CN210659728U (en) 2019-07-27 2019-07-27 Infrared remote control middle-suspension turnover window

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921199645.7U CN210659728U (en) 2019-07-27 2019-07-27 Infrared remote control middle-suspension turnover window

Publications (1)

Publication Number Publication Date
CN210659728U true CN210659728U (en) 2020-06-02

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112144960A (en) * 2020-09-10 2020-12-29 湖北天晟一林科技有限公司 Door and window fixing mechanism applied to aluminum alloy door and window engineering
CN112830248A (en) * 2021-02-05 2021-05-25 深圳市赛立鸿塑胶五金有限公司 Be applied to sucking disc anchor clamps of LED lamp house processing
WO2022042240A1 (en) * 2020-08-31 2022-03-03 裕克施乐塑料制品(太仓)有限公司 Rotary actuator and smart door/window having said rotary actuator

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2022042240A1 (en) * 2020-08-31 2022-03-03 裕克施乐塑料制品(太仓)有限公司 Rotary actuator and smart door/window having said rotary actuator
CN112144960A (en) * 2020-09-10 2020-12-29 湖北天晟一林科技有限公司 Door and window fixing mechanism applied to aluminum alloy door and window engineering
CN112144960B (en) * 2020-09-10 2021-12-10 湖北天晟一林科技有限公司 Door and window fixing mechanism applied to aluminum alloy door and window engineering
CN112830248A (en) * 2021-02-05 2021-05-25 深圳市赛立鸿塑胶五金有限公司 Be applied to sucking disc anchor clamps of LED lamp house processing
CN112830248B (en) * 2021-02-05 2022-04-01 深圳市赛立鸿塑胶五金有限公司 Be applied to sucking disc anchor clamps of LED lamp house processing

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