KR101703314B1 - Apparatus for generating and transmission of power - Google Patents

Abstract

[0001] The present invention relates to a power transmission and power generation apparatus, in which two cylinders are reversely operated by using a hydraulic power source or a pneumatic power source to induce a rotating power, and a moving pulley and a gear tooth structure And the power generated by the continuous motion and the increased power compared to the initial power are transmitted to the power generation body such as the generator or the like, Power generation and power generation apparatus having a new configuration for generating power to be transmitted to the power generation and power generation apparatus.
According to the present invention, a power source of hydraulic or pneumatic pressure can be used to induce and transmit rotational power, generate an increased force, and transmit the increased force to a power generation body such as a generator or the like, It is possible to provide a power transmission and power generation apparatus of a new structure capable of producing electricity by generating electricity.

Description

[0001] APPARATUS FOR GENERATING AND TRANSMISSION OF POWER [0002]

[0001] The present invention relates to a power transmission and power generation apparatus, which supplies a power source of hydraulic pressure or pneumatic pressure to generate rotational power and increase the force through a moving sheave, thereby generating an increased force as compared with an initial power source. And to a power transmission and power generation apparatus having a new structure that can transmit an increased power relative to an initial power source directly to a power generation body such as a generator.

Generally, a power generation apparatus is a device for converting electric energy into electric energy to produce electricity. Electricity produced by this power generation apparatus is used to drive our real life or to drive any article or apparatus in various industrial fields. .

Most of the power generation facilities currently use solar power, wind power, tidal power, and thermal power, and they occupy most of the power generation facilities.

However, the above-mentioned power generation apparatuses are not so large in power generation efficiency as compared with the facility investment, and there is a serious restriction on continuous power generation.

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The applicant of the present invention has proposed a power generating device using a pulley as disclosed in Korean Patent No. 10-1532411 in order to solve such a conventional problem, and continues to solve the problem.

Korean Patent Publication No. 10-1532411

It is an object of the present invention to solve the above problems and to solve the above problems and to provide a power source of hydraulic or pneumatic pressure to generate and transmit rotational power to increase the force through a moving pulley, And to provide a power transmission and power generation device having a new configuration that can generate electricity.

The present invention relates to a power transmission system for transmitting rotary power and generating an increased force by utilizing a hydraulic power source or a pneumatic power source and inducing a rotary power through a cylinder operation and combining a rotary body having a moving sheave and a gear tooth structure And it is an object of the present invention to provide a power transmission and power generation apparatus capable of directly transmitting an increased power to an electric power generation body such as a generator compared to an initial power source.

An object of the present invention is to provide a power transmission and power generation apparatus that can operate stably.

According to an aspect of the present invention, there is provided a power supply apparatus including: a power source supply unit for supplying a hydraulic or pneumatic pressure; A first cylinder (11) and a second cylinder (12) which are supplied with the hydraulic or pneumatic pressure from the power source supply unit (10) and are operated to move up and down respectively and are operated in opposite directions to each other; The first and second rotating wheels 22 and 23 are rotatably coupled to the shaft 21 so as to be connected to the first and second cylinders 11 and 12, (20); A second power transmission wheel portion 30 disposed at a side of the first power transmission wheel portion 20 and having a third rotation wheel 32 and a fourth rotation wheel 33 rotatably coupled to the shaft 31, ); A first moving sheave 40a and a second moving sheave 40b positioned below the third rotating wheel 32 of the second power transmission wheel portion 30 and below the fourth rotating wheel 33; One end is connected and fixed to the rod of the first cylinder 11 and the intermediate portion is wound on the first moving sheave 40a via the first rotating wheel 22 and the third rotating wheel 32 and the other end is fixed A first pulley connection line 41; One end is connected and fixed to the rod of the second cylinder 12 and the intermediate portion is wound on the second moving sheave 40b via the second rotating wheel 23 and the fourth rotating wheel 33 and the other end is fixed A second pulley connection line 42; The first power transmission wheel 52 and the second power transmission wheel 53 are rotatably coupled to the shaft 51 and are located below the first movable sheave 40a and the second movable sheave 40b A power transmission connection wheel portion 50; The third pulley 40a has one end fixed to the first moving sheave 40a and an intermediate portion connected to the first power transmission wheel 52 and the second power transmission wheel 53 and the other end fixed to the second moving sheave 40b. A connecting line 60; And a first half gear disposed rotatably and spaced apart from and rotatably engaged with and spaced apart from a rotating shaft 73 extending from the shaft 51 side of the power transmission coupling wheel portion 50, A rotating body 71 and a second half-gear rotating body 72; A first rotating body 81 having a first gear tooth portion 81a to be engaged with the semi-gear teeth of the first semi-gear rotating body 71; A second rotating body (82) having a second gear tooth portion (82a) to be engaged with the half gear teeth of the second semi-gear rotating body (72); The fifth rotating wheel 92 and the sixth rotating wheel 93 are rotatably disposed on both side ends of the shaft 91 and are disposed at the side of the first rotating body 81 and the second rotating body 82, A third power transmission wheel portion (90) coupled to the first power transmission wheel portion (90); A third moving sheave 101 and a fourth moving sheave 102 respectively positioned below the fifth rotating wheel 92 and the sixth rotating wheel 93 of the third power transmission wheel portion 90; A fourth sheave connecting line 111 having one end connected to the first rotating body 81 and the middle portion wound on the third moving sheave 101 via the fifth rotating wheel 92 and the other end fixed; A fifth sheave connecting rod 112 having one end fixedly connected to the second rotating body 82 and the middle portion wound on the fourth moving sheave 102 via the sixth rotating wheel 93 and the other end fixed; Both ends of which are fixedly connected to the third moving sheave 101 and the fourth moving sheave 102 and the middle portion is connected to the first one-way wheel 121 and the second one-way wheel 122, A power generation drive line 140 connected to the power generation drive line 140; The first one-way wheel 121 and the second one-way wheel 122 are coupled to the power generation drive shaft 131 provided with a gap therebetween and the force generated by the continuous operation in which both ends of the power generation drive rope 140 are alternately pulled And a power generation body (130) to be developed.

The third moving sheave 101 and the fourth moving sheave 102 are provided with a first guiding unit 160 and a second guiding unit 170 on the side of the third moving sheave 101 and the fourth moving sheave 102, So that the pulley (102) is prevented from being shaken up and down in the up and down direction, thereby performing a stable operation; The first guide means 160 includes a guide roller 162 rotatably coupled to both ends of a connecting rod 161 which is inserted through the third moving sheave 101 and is coupled to the guide roller 162 Is mounted to move up and down on a guide support 163 vertically disposed on the side surface; The second guide means 170 includes a guide roller 172 rotatably coupled to both ends of a connecting rod 171 which is inserted through the fourth moving sheave 102, Is mounted to move up and down with a guide support 173 vertically disposed on a side surface thereof.

Here, the power generation drive rope 140 is divided into two ropes, one of which is connected to a first one-way wheel 121 installed on the power generation drive shaft 131 via a first one-way wheel 121, And one row is connected to the second one-way wheel 122 via the second one-way wheel 122, and the second one-way wheel 122 is connected to the power generation drive shaft 131 via the second one- Connect; When one of the first one-way wheel 121 and the second one-way wheel 122 is actuated, the other one of the first and second one-way wheels 122 and 123 is idled so that the power generating body 130 is driven by the force generated by the continuous motion, And a power transmitting and generating device constituting the power transmission device.

According to the present invention, there is provided a structure layout design which utilizes a hydraulic power source or a pneumatic power source to induce a rotary power through a cylinder operation, and a rotary body having a moving pulley and a gear tooth structure is grafted. A power transmitting and generating device of a new structure capable of generating electricity by transmitting an increased power to a power generating body such as a generator and driving and generating the power can be provided.

The present invention can produce continuous electricity with continuous repetition motion and increase the power compared to the initial power source and can produce electricity continuously and can be implemented with stable operation by efficient structure design by combining moving pulley and guide means Can be provided.

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1 is a block diagram illustrating a power transmission and power generation apparatus according to an embodiment of the present invention.
2 is a block diagram illustrating a power transmission and power generation apparatus according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. The present invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.

As shown in FIGS. 1 and 2, the power transmission and power generation apparatus according to the embodiment of the present invention uses a power source such as an oil pressure or a pneumatic pressure to transmit power so as to generate an increased force, So as to perform power generation by moving the power generation body.

Specifically, the power transmission and power generation apparatus according to the embodiment of the present invention includes a power source supply unit 10 for supplying hydraulic pressure or pneumatic pressure; A first cylinder (11) and a second cylinder (12) that are supplied with hydraulic pressure or pneumatic pressure from the power source supply unit (10) and are respectively operated to move the rods up and down, The first and second rotating wheels 22 and 23 are connected to the first and second cylinders 11 and 12 such that the first rotating wheel 22 and the second rotating wheel 23 are rotatably supported and coupled to the shaft 21, A wheel portion 20; And a second power transmission wheel portion (34) disposed at a side of the first power transmission wheel portion (20) and having a third rotation wheel (32) and a fourth rotation wheel (33) 30); A first moving sheave 40a positioned below the third rotating wheel 32 of the second power transmission wheel unit 30 and a second moving sheave 40b positioned below the fourth rotating wheel 33; One end is connected and fixed to the rod of the first cylinder 11 and the intermediate portion is wound on the first moving sheave 40a via the first rotating wheel 22 and the third rotating wheel 32 and the other end is fixed A first pulley connection line 41; One end is connected and fixed to the rod of the second cylinder 12 and the intermediate portion is wound on the second moving sheave 40b via the second rotating wheel 23 and the fourth rotating wheel 33 and the other end is fixed A second pulley connection line (42); The first power transmission wheel 52 and the second power transmission wheel 53 are rotatably coupled to the shaft 51 and are located below the first movable sheave 40a and the second movable sheave 40b A power transmission connection wheel portion 50; The third pulley 40a has one end fixed to the first moving sheave 40a and an intermediate portion connected to the first power transmission wheel 52 and the second power transmission wheel 53 and the other end fixed to the second moving sheave 40b. A connection line 60; And a first half gear disposed rotatably and spaced apart from and rotatably engaged with and spaced apart from a rotating shaft 73 extending from the shaft 51 side of the power transmission coupling wheel portion 50, A rotating body 71 and a second half-gear rotating body 72; A first rotating body 81 having a first gear tooth portion 81a to be engaged with the semi-gear teeth of the first semi-gear rotating body 71; A second rotating body 82 having a second gear tooth portion 82a to be engaged with a half-gear tooth of the second semi-gear rotating body 72; The fifth rotating wheel 92 and the sixth rotating wheel 93 are rotatably disposed on both side ends of the shaft 91 and are disposed at the side of the first rotating body 81 and the second rotating body 82, A third power transmission wheel portion 90 coupled to the first power transmission wheel portion 90; A third moving sheave 101 positioned below the fifth rotary wheel 92 of the third power transmission wheel portion 90 and a fourth moving shear 102 positioned below the sixth rotary wheel 93; A fourth sheave connecting line 111 having one end connected to the first rotating body 81 and the middle portion wound on the third moving sheave 101 via the fifth rotating wheel 92 and the other end fixed; A fifth sheave connecting line 112 having one end fixedly connected to the second rotating body 82, the middle portion wound on the fourth moving sheave 102 via the sixth rotating wheel 93, and the other end fixed; Both ends of which are fixedly connected to the third moving sheave 101 and the fourth moving sheave 102 and the middle portion is connected to the first one-way wheel 121 and the second one-way wheel 122, A power generation drive line 140 connected to the power generation drive line 140; The first one-way wheel 121 and the second one-way wheel 122 are coupled to the power generation drive shaft 131 provided with a gap therebetween and the force generated by the continuous operation in which both ends of the power generation drive rope 140 are alternately pulled And a power generation body 130 to be developed.

The power source supply unit 10 may include a hydraulic supply system or an air supply system and is configured to perform and control supply to the first cylinder 11 and the second cylinder 12 via the solenoid valve 13. [ do.

The first to fourth pulley connecting ropes 41 to 511 and the power generating drive rope 140 may be formed of wires or chains and may have any other shapes of ropes having mechanical strength. have.

The first rotating body 81 has a structure in which a first gear tooth portion 81a is located on one side and is projected from the first rotating body 81. The second rotating body 82 has a second gear tooth portion 82a on the other side And the first gear tooth portion 81a and the second gear tooth portion 82a are formed so as to extend over the entire circumference of the circular outer circumferential surface and are arranged so as to face each other.

The third moving sheave 101 and the fourth moving sheave 102 are provided with a first guiding unit 160 and a second guiding unit 170 on the side of the third moving sheave 101 and the fourth moving sheave 102 Are prevented from being shaken during the vertical movement in the up and down direction, respectively, so as to perform a stable operation.

The fourth pulley connecting rod 111 is fixed to one side of the outer circumferential surface of the first rotating body 81 and has one end wound around the rotating position. The fifth pulley connecting rod 112 is connected to the second rotating body 82 are installed on one side of the outer circumferential surface so as to be able to wind one end according to the rotational position and are installed so as not to interfere with the first and second semi-gear rotors 71, 72, respectively.

The first guide means 160 is rotatably coupled to both ends of a connecting rod 161 which is inserted through the third moving sheave 101 and rotatably connected to the first moving means, Can be configured to ascend and descend by using a guide support 163 vertically disposed on the side surface.

A guide roller 172 is rotatably coupled to both ends of a connecting rod 171 which is inserted into and penetrated through the fourth moving sheave 102 and the guide rollers 172, Can be configured to ascend and descend by using a guide support 173 vertically disposed on the side surface.

As shown in the drawing, the power generation drive rope 140 is preferably divided into two rows, and one row is formed by connecting the first one-way wheel 121 installed on the power generation drive shaft 131 Way wheel 121 and the other one is connected to the second unidirectional wheel 122 provided on the power generation drive shaft 131 while the second unidirectional wheel 122 is connected to the second unidirectional wheel 122 So as to pass through the upper surface of the outer circumference of the outer case.

Accordingly, when a force is applied to one of the first one-way wheel 121 and the second one-way wheel 122, the other one of the first and second unidirectional wheels 121 and 122 is idled to be generated by continuous motion using the power generation drive line 140 So that the power generation body 130 can be driven to generate electric power.

Here, the first unidirectional wheel 121 and the second unidirectional wheel 122 rotate in the same direction, and when the first unidirectional wheel 121 operates, the second unidirectional wheel 122 idles, Way wheel 122 is operated so that the first unidirectional wheel 121 idles.

The first moving means 40a and the second moving sheave 40b are provided with the first guide means 160 and the second guide means 170 as described above so that the first moving sheave and the second moving means It is possible to configure the pulley so as to perform stable operation by preventing the pulley from shaking when the lifting operation is performed in the vertical direction.

The power generation drive rope 140 is disposed in the front and rear direction of the first one-way wheel 121 and the second one-way wheel 122 installed on the power generation drive shaft 131, It is preferable to arrange the guide member so as to be guided via the guide member.

The power generation body 130 may be composed of a generator 100 and may have various capacities.

Here, an AC power terminal such as a power terminal for AC 220 V may be connected to the power generating body 130 so that electricity generated from the power generating body can be used.

Here, when the AC power source terminal is provided, a transformer for converting an AC current into a DC current may be connected to supply the battery to the battery and charge the battery.

The operation of the power transmission and power generation apparatus according to the present invention having the above-described structure will be described as follows.

A hydraulic or pneumatic pressure is generated and supplied from the power source supply unit 10 and is controlled through the solenoid valve 13 so that the first cylinder 11 and the second cylinder 12 sequentially operate up and down.

The first and second pulleys 11 and 12 are sequentially operated to vertically move the first and second pulley connecting rods 41 and 42 in an alternating manner to pull and loosen the first pulley rope 41 and the second pulley rope 42, The first moving sheave 40a and the second moving sheave 40b are moved and the first moving sheave 40a and the second moving sheave 40b are alternately raised and lowered to induce the elevating operation.

The first moving sheave 40a and the second moving sheave 40b are repeatedly lifted and lowered to generate an increased force as compared with the initial power source, And continuously transmits the rotational power to the whole of the first half-gear rotation body 72 and the whole of the first half-gear rotation body 72.

Thus, the first half-gear rotator 71 having the half-gear teeth and the second half-gear rotator 72 having the half-gear teeth arranged in the direction opposite thereto continuously rotate in one counterclockwise direction.

As a result, the first rotating body 81 having the gear teeth 81a engaged with the side of the first semi-gear rotator 71 having the half-gear teeth rotates together, The second rotating body 82 having the gear teeth 82a forming the meshing structure with the second semi-gear rotating body 82 having the half-gear teeth is brought into the engaged state And turns together.

At this time, the first semi-gear rotating body 71 is continuously rotated in the counterclockwise direction, and the second rotating body 82 in the opposite direction to the first rotating body 81 is rotated to rotate the fifth sheave connecting rod 112 The first rotary member 81 is rotated in the reverse direction and the first rotary member 71 is engaged with the first rotary member 81 and rotated to pull the fourth sheath connecting rod 111, The whole body 82 is rotated in the reverse direction.

That is, this operation is repeatedly performed while the first cylinder 11 and the second cylinder 12 are alternately lifted and lowered by supplying the hydraulic or pneumatic pressure from the power source supply unit 10, and the first half- 71 and the second semi-gear rotating body 72 are mutually connected and matched with each other so as to be rotatably and counterclockwise to the first rotating body 81 and the second rotating body 82, Repeatedly transmit power continuously.

As a result, the third moving sheave 101 connected to the fourth sheave connecting line 111 is operated to vertically move the third moving sheave 101. In addition, the fifth sheave connecting line 112 So that the fourth moving sheave 102 is moved up and down by moving the fourth moving sheave 102 connected thereto.

The third moving sheave 101 and the fourth moving sheave 102 repeatedly raise and lower the power by the repeated elevating operation and act to repeatedly pull and release the power generating driving rope 140.

Thus, when the third moving sheave 101 and the fourth moving sheave 102 are moved upward and downward, the up and down movement operation is guided through the first guide means 160 and the second guide means 170, So that it can be stably operated.

In this way, when a force generated by the repeated elevating operation of the third moving sheave 101 and the fourth moving sheave 102 is applied to the power generating drive rope 140, the force is transmitted to the first unidirectional wheel 121 And the second one-way wheel 122, thereby generating a one-way rotational force with an increased force as compared with the initial one.

When the first one-way wheel 121 rotates in one direction, the second one-way wheel 122 idles and the second one-way wheel 122 Is rotated in one direction, the first unidirectional wheel 121 idles, and the transmitted force is continuously generated in only one direction.

Accordingly, the unidirectional rotational power generated through the first unidirectional wheel 121 and the second unidirectional wheel 122 and the increased force acting thereon generate power by driving the power generating body 130, Continuous and repetitive motion of the same operation can be continuously performed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of illustration, It will be apparent that various modifications and changes may be made by those skilled in the art.

10: power source supply unit 11: first cylinder
12: second cylinder 20: first power transmission wheel portion
30: second power transmission wheel portion 40a: first moving pulley
40b: second moving pulley 41: first pulley link
42: second pulley connection line 50: power transmission connection wheel part
60: third pulley connecting line 71: first half-gear rotating body
72: second anti-gear rotation body 81: first full body
81a: gear tooth portion 82: second whole body
82a: gear tooth portion 90: third power transmission wheel portion
101: Third moving pulley 102: Fourth moving pulley
111: fourth pulley connection line 112: fifth pulley connection line
121: first one-way wheel 122: second one-way wheel
130: power generation body 131: power generation drive shaft
140: power generation drive line 160: first guide means
170: second guide means

Claims (3)

A power source supply unit 10 for supplying hydraulic pressure or pneumatic pressure;
A first cylinder (11) and a second cylinder (12) which are supplied with the hydraulic or pneumatic pressure from the power source supply unit (10) and are operated to move up and down respectively and are operated in opposite directions to each other;
The first and second rotating wheels 22 and 23 are rotatably coupled to the shaft 21 so as to be connected to the first and second cylinders 11 and 12, (20);
A second power transmission wheel portion 30 disposed at a side of the first power transmission wheel portion 20 and having a third rotation wheel 32 and a fourth rotation wheel 33 rotatably coupled to the shaft 31, );
A first moving sheave 40a and a second moving sheave 40b positioned below the third rotating wheel 32 of the second power transmission wheel portion 30 and below the fourth rotating wheel 33;
One end is connected and fixed to the rod of the first cylinder 11 and the intermediate portion is wound on the first moving sheave 40a via the first rotating wheel 22 and the third rotating wheel 32 and the other end is fixed A first pulley connection line 41;
One end is connected and fixed to the rod of the second cylinder 12 and the intermediate portion is wound on the second moving sheave 40b via the second rotating wheel 23 and the fourth rotating wheel 33 and the other end is fixed A second pulley connection line 42;
The first power transmission wheel 52 and the second power transmission wheel 53 are rotatably coupled to the shaft 51 and are located below the first movable sheave 40a and the second movable sheave 40b A power transmission connection wheel portion 50;
The third pulley 40a has one end fixed to the first moving sheave 40a and an intermediate portion connected to the first power transmission wheel 52 and the second power transmission wheel 53 and the other end fixed to the second moving sheave 40b. A connecting line 60;
And a first half gear disposed rotatably and spaced apart from and rotatably engaged with and spaced apart from a rotating shaft 73 extending from the shaft 51 side of the power transmission coupling wheel portion 50, A rotating body 71 and a second half-gear rotating body 72;
A first rotating body 81 having a first gear tooth portion 81a to be engaged with the semi-gear teeth of the first semi-gear rotating body 71;
A second rotating body (82) having a second gear tooth portion (82a) to be engaged with the half gear teeth of the second semi-gear rotating body (72);
The fifth rotating wheel 92 and the sixth rotating wheel 93 are rotatably disposed on both side ends of the shaft 91 and are disposed at the side of the first rotating body 81 and the second rotating body 82, A third power transmission wheel portion (90) coupled to the first power transmission wheel portion (90);
A third moving sheave 101 and a fourth moving sheave 102 respectively positioned below the fifth rotating wheel 92 and the sixth rotating wheel 93 of the third power transmission wheel portion 90;
A fourth sheave connecting line 111 having one end connected to the first rotating body 81 and the middle portion wound on the third moving sheave 101 via the fifth rotating wheel 92 and the other end fixed;
A fifth sheave connecting rod 112 having one end fixedly connected to the second rotating body 82, the middle portion wound on the fourth moving sheave 102 via the sixth rotating wheel 93, and the other end fixed;
Both ends of which are fixedly connected to the third moving sheave 101 and the fourth moving sheave 102 and the middle portion is connected to the first one-way wheel 121 and the second one-way wheel 122, A power generation drive line 140 connected to the power generation drive line 140;
The first one-way wheel 121 and the second one-way wheel 122 are coupled to the power generation drive shaft 131 provided with a gap therebetween, and a force generated by a continuous operation in which both ends of the power generation drive rope 140 are alternately pulled A power generation body 130 to be developed; And the power transmission and generation device.
The method according to claim 1,
The third moving sheave 101 and the fourth moving sheave 102 are provided with a first guiding unit 160 and a second guiding unit 170 on the side of the third moving sheave 101 and the fourth moving sheave 102 So as not to be shaken up and down during a vertical movement, thereby performing a stable operation;
The first guide means (160)
A guide roller 162 is rotatably coupled to both ends of a connecting rod 161 which is inserted through the third moving sheave 101 and the guide rollers 162 are vertically disposed on a side 163;
The second guide means (170)
A guide roller 172 is rotatably coupled to both ends of a connecting rod 171 which is inserted through the fourth moving sheave 102 and the guide rollers 172 are mounted on a guide support 173 of the power transmission and generation device.
The method according to claim 1,
The power generation drive rope (140)
Separate the two lines to form a connection,
One row is connected to the first unidirectional wheel 121 installed on the power generation drive shaft 131 via the first unidirectional wheel 121 so as to pass through the first unidirectional wheel 121,
And the other row is connected to the second one-way wheel 122 via the second one-way wheel 122, passing through the second one-way wheel 122 on the power generation drive shaft 131;
When one of the first one-way wheel 121 and the second one-way wheel 122 is actuated, the other one of the first and second one-way wheels 122 and 123 is idled so that the power generating body 130 is driven by the force generated by the continuous motion, And the power transmission and generation device.

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