JP3979206B2 - Rotating mechanism for rotating passage opening / closing member and ventilator equipped with this rotating mechanism - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention comprises a rotation mechanism for rotating a passage opening / closing member rotatably arranged in the passage to open and close a passage such as a window space of a building, a ventilation passage, and the like, and a business building, The present invention relates to a ventilator that is provided on an outer wall of a building such as an office building or an apartment house and ventilates the inside of the building by communicating with the outside as necessary.
[0002]
[Problems to be solved by the invention]
Recently, instead of using a building with a sealed structure to ventilate the building with air conditioning, a ventilation passage that can be opened and closed with an opening and closing member is provided on the outer wall of the building to save resources. It has been proposed to open the door and naturally ventilate the building.
[0003]
By the way, with the increase in the size and height of buildings, a large number of ventilation passages will be installed, and opening and closing members will also be installed according to the number of ventilation passages. It is preferable to open and close the ventilation passage in the same manner.
[0004]
However, it is extremely difficult to open and close the ventilation passages with a large number of opening and closing members as they are due to variations in component manufacturing accuracy, mounting errors, etc., and the passages are completely closed by one opening and closing member. However, the passage closing by other opening / closing members may be incomplete.
[0005]
Measures to solve such problems by increasing parts manufacturing accuracy or eliminating mounting errors can be enormous in cost, and the problem of uneven passage closure due to aging-related parts such as seals However, such measures cannot be used immediately.
[0006]
The above problem does not occur only when a large number of ventilation passages are opened and closed by a large number of opening and closing members, but when a passage such as a window space of a building is opened and closed by an opening and closing member such as a window shoji, This can also occur when trying to open and close the door accurately.
[0007]
The present invention has been made in view of the above-described points, and an object of the present invention is to provide a rotation mechanism capable of easily and easily adjusting the open / closed state of a passage and a ventilator including such a rotation mechanism. There is to do.
[0008]
[Means for Solving the Problems]
The rotating mechanism according to the first aspect of the present invention is configured to rotate a passage opening / closing member that is rotatably supported to open and close the passage, and is rotatably connected to the passage opening / closing member at one end. One link arm, a second link arm rotatably connected to the other end of the first link arm at one end, and a rotation shaft fixed to the other end of the second link arm And a rotating means for rotating the rotating shaft, the second link arm is rotated by the rotation of the rotating shaft by the operation of the rotating means, and the first link arm is rotated by the rotation of the second link arm. The passage opening / closing member is pushed out through the shaft, and is drawn and rotated so that at least one of the first and second link arms can be continuously changed manually. First At least one of the second and second link arms includes a pair of screwed members that are screwed together, and the first link arm includes an arm portion that is rotatably connected to the passage opening and closing member, An arm portion rotatably connected to the two link arms, the pair of screw members are disposed between the arm portions, and one screw member of the pair of screw members is The arm member that is rotatably connected to the passage opening / closing member is fixed, and the other screw member of the pair of screw members rotates to the arm portion that is rotatably connected to the second link arm. An engagement recess, an engagement protrusion, or an engagement surface for engaging with a rotary tool that rotates the other screwing member is provided on one end surface inside the building of the other screwing member. Is provided.
[0009]
According to the rotation mechanism of the first aspect, since the arm length of at least one of the first and second link arms can be continuously changed manually, the rotation of the second link arm The passage closing position and the passage opening position of the passage opening / closing member that is pushed out through the first link arm and rotated by being pulled can be finely adjusted, and thus the opening / closing state of the passage can be easily and easily adjusted. In addition, it is not necessary to extremely increase the component manufacturing accuracy, and it is not necessary to worry about the component mounting error.
[0011]
The rotating tool may be a minus driver, a plus driver, a box driver, a pliers, a spanner, a hexagonal bar spanner, or other specially manufactured tools.
[0012]
In the rotating mechanism according to the first aspect, at least one of the first and second link arms is screwed with a pair of screwing members as in the rotating mechanism according to the second aspect of the present invention. A fixing member for fixing the position may be provided, and a lock nut may be mentioned as a preferable example of such a fixing member.
[0013]
Furthermore, in the rotation mechanism of any of the above aspects, the rotation means preferably transmits the rotation of the electric motor and the output rotation shaft of the electric motor to the rotation shaft, as in the rotation mechanism of the third aspect of the present invention. Rotation transmission means, and in this case, the rotation transmission means comprises a coarse adjustment mechanism capable of discretely changing the relative rotational position of the rotational shaft with respect to the rotational position of the output rotational shaft of the electric motor. It is good to have.
[0014]
When the rotation mechanism includes such a coarse adjustment mechanism, the coarse adjustment mechanism roughly adjusts the passage closing position and the passage opening position of the passage opening / closing member, and then manually changing the arm length to change the passage closing position of the passage opening / closing member and The passage opening position can be finely adjusted, and the passage closing position and the passage opening position of the passage opening / closing member can be set as desired without requiring a large manual change of the arm length.
[0015]
As in the rotation mechanism according to the fourth aspect of the present invention, the coarse adjustment mechanism is arranged on the rotation shaft side so as to mesh with a large number of teeth provided on the output rotation shaft side of the electric motor and each of the numerous teeth. It is good to have many other teeth provided.
[0016]
The ventilation device according to the first aspect of the present invention includes the rotation mechanism according to any one of the above aspects, and the passage opened and closed by the passage opening and closing member is a ventilation passage.
[0017]
In such a ventilator, the ventilator according to the second aspect of the present invention comprises support means for rotatably supporting the rotation shaft, wherein the support means is a second link arm on the rotation shaft. The rotating shaft is disposed so as to be rotatably supported adjacent to a portion to which the other end portion is fixed.
[0018]
Thus, by supporting the rotating shaft by the supporting means adjacent to the portion where the other end of the second link arm is fixed, it is possible to prevent the rotating shaft from being greatly bent when the rotating shaft is elongated.
[0019]
The ventilator according to the present invention is not limited to the one provided with a passage opening / closing member in one ventilation passage, but opens and closes another ventilation passage adjacent to the ventilation passage, like the ventilation device of the third aspect of the present invention. Other passage opening / closing members supported rotatably, other first link arms rotatably connected to other passage opening / closing members at one end, and other other first link arms The second end of the second link arm may be connected to the end portion so as to be rotatable at one end portion and fixed to the other rotation shaft at the other end portion. The passage opening / closing member is pushed and pulled to rotate by rotating the other rotating shaft by the operation of the rotating means so as to open and close the other ventilation passage in synchronization with the passage opening / closing member. At least one of the first and second link arms is the arm The may continuously has to be finely adjusted manually.
[0020]
In the ventilator according to the fourth aspect of the present invention, the rotation transmitting means transmits the rotation of the output rotation shaft of the electric motor to other rotation shafts, and the rotation of the output rotation shaft of the electric motor. In the ventilator according to the fourth aspect, the rotation transmission means includes the electric motor of the electric motor. A gear mechanism that transmits the rotation of the output rotation shaft in conjunction with both rotation shafts is provided, and the gear mechanism can be rotated manually in conjunction with both rotation shafts.
[0021]
If another coarse adjustment mechanism is provided as in the ventilation device of the fourth aspect, the open / closed state of each ventilation passage can be adjusted independently of each other, and both rotating shafts can be operated even if the gear mechanism is manually operated. Can be rotated in conjunction with each other, the adjustment result of the open / closed state of each ventilation passage can be easily confirmed.
[0022]
Next, the present invention will be described in more detail based on preferred specific examples shown in the drawings, but the present invention is not limited to these specific examples.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
1 to 5, the ventilating apparatus 1 of this example includes a hinge mechanism 7 on the upper frame 2 so as to open and close a ventilation passage 6 as a passage defined by the upper frame 2, the lower frame 3, and the lateral frames 4 and 5. A passage opening / closing member 8 rotatably supported in the directions R1 and R2, via the rotation mechanism 9 for rotating the passage opening / closing member 8 in the directions R1 and R2, and an upper cover 10 and a lower cover 11 that blind the rotation mechanism 9. It is equipped with.
[0024]
A frame 21 composed of an upper frame 2, a lower frame 3, and horizontal frames 4 and 5 is attached to the opening of the outer wall of the building by appropriate means, and the upper cover 10 is supported by the upper frame 2, The lower cover 11 connected to the frame 2 is supported by the lower frame 3 and has an opening 24 that connects the ventilation passage 6 opened to the outside of the building 22 to the inside 23 of the building. A seal member 25 having elasticity and flexibility is fitted to each of the frame 3 and the lateral frames 4 and 5.
[0025]
The hollow passage opening / closing member 8 is in contact with the seal member 25 by slightly bending the seal member 25 when the ventilation passage 6 is closed (in the state shown in FIGS. 1 to 5).
[0026]
The rotation mechanism 9 includes a link arm 34 that is rotatably connected to one end portion 32 of the passage opening / closing member 8 at one end portion 31 via a shaft 33, and a shaft 37 that is connected to the other end portion 35 of the link arm 34 at one end portion 36. A link arm 38 rotatably connected via a shaft 41, a link arm 42 rotatably connected to the other end 40 side of the passage opening / closing member 8 at one end 39 via a shaft 41, A link arm 46 rotatably connected to the end portion 43 via a shaft 45 at one end portion 44, and a rotation shaft 49 fixed to each of the other end portion 47 of the link arm 38 and the other end portion 48 of the link arm 46. And rotating means 50 for rotating the rotating shaft 49, and supporting means 51 and 52 for supporting the rotating shaft 49 so as to be rotatable around the axis O in the directions R4 and R5.
[0027]
Since the link arms 42 and 46 arranged on the other end 40 side of the passage opening / closing member 8 are configured in the same manner as the link arms 34 and 38 arranged on the one end 32 side of the passage opening / closing member 8, The link arms 34 and 38 will be described in detail. If the passage opening / closing member 8 is not so long in the lateral direction, the link arms 34 and 38 may be omitted to constitute the ventilator 1. In this case, the link arms 34 and 38 are connected to the passage opening / closing member 8. You may arrange | position in the center part of the horizontal direction. Similarly, since the support means 51 and 52 are comprised similarly, the support means 51 is demonstrated in detail hereafter.
[0028]
The link arm 34 includes an arm portion 61 formed of an L-shaped bracket rotatably connected to the passage opening / closing member 8, an arm portion 62 formed of an L-shaped bracket rotatably connected to the link arm 38, and both arm portions 61. And a pair of screwing members 63 and 64 that are arranged between and screwed to each other, and are screwed onto the screwing member 63 so as to fix the screwing positions of the pair of screwing members 63 and 64 to each other. And a fixing member 60 made of a lock nut.
[0029]
The arm portion 61 which is the one end portion 31 of the link arm 34 is rotatably connected to a fixture 65 made of an L-shaped bracket fixed to the passage opening / closing member 8 with a screw or the like via the shaft 33, and thus the arm The part 61 is rotatably connected to the passage opening / closing member 8.
[0030]
The arm portion 62 that becomes the other end portion 35 of the link arm 34 is rotatably connected to the arm portion 66 of the link arm 38 via a shaft 37.
[0031]
A screwing member 63 made of a screw rod is fixed to an arm portion 61 rotatably connected to the passage opening / closing member 8 by welding or the like at one end, and the screwing member 64 is an inner part in which the screwing member 63 is screwed. A cylindrical portion 67 having a peripheral surface, a shaft portion 68 that is formed integrally with the cylindrical portion 67 and rotatably penetrates the arm portion 62, and prevents the shaft portion 68 from coming out of the arm portion 62. Thus, the retaining ring 69 fixed to the shaft portion 68 is provided. Thus, the screwing member 64 is connected to the arm portion 62 rotatably connected to the link arm 38 with the shaft center 71 as a center. An engagement recess 70 for engaging with a rotary tool for rotating the screwing member 64 in the R3 direction, for example, a minus driver, is provided on the end surface of the shaft portion 68. .
[0032]
Such a link arm 34 engages the engagement recess 70 with the tip of a flathead screwdriver, rotates the shaft portion 68 in the R3 direction, and changes the screwing position of the screwing member 64 with respect to the screwing member 63. The arm length (distance from the center of the shaft 33 to the center of the shaft 37) can be continuously changed manually.
[0033]
The link arm 38 is integrally formed with the arm portion 66 that becomes one end portion 36 of the link arm 38, the intermediate arm portion 75 to which the arm portion 66 is fixed by a screw or the like, and the intermediate arm portion 75, and A cylindrical portion 76 serving as the other end portion 47 of the arm 38, and the rotary shaft 49 is inserted into the cylindrical portion 76 and fitted into the cylindrical portion 76. It is designed to rotate in the same direction along with the rotation in the R4 and R5 directions.
[0034]
The rotation means 50 includes an electric motor 81 and a rotation transmission means 82 that transmits the rotation of the output rotation shaft of the electric motor 81 to the rotation shaft 49. The rotation transmission means 82 is attached with the electric motor 81. In addition, the gear mechanism 84 that outputs the rotation of the output rotation shaft of the electric motor 81 as the rotation of the spline shafts 83 and 151, the rotation of the spline shaft 83 to the rotation shaft 49, and the rotation of the spline shaft 83 with respect to the rotation position. The relative rotational position of the shaft 49 can be discretely changed, and thus the relative rotational position of the rotational shaft 49 with respect to the rotational position of the output rotational shaft of the electric motor 81 can be discretely changed. An adjustment mechanism 85 and a restriction mechanism 86 for restricting rotation of the rotation shaft 49 beyond a certain level are provided.
[0035]
The gear mechanism 84 is attached to the base 91, and the base 91 is attached to the upper frame 2 and the lower frame 3 with screws or the like. The gear mechanism 84 has a manual rotation shaft 92 that can manually rotate the spline shafts 83 and 151 with a handle.
[0036]
The coarse adjustment mechanism 85 includes a cylindrical main body 102 having a through hole 101 into which one end of the spline shaft 83 is fitted, and one end of the rotating shaft 49, as shown in detail in FIGS. A cylindrical adjustment member 106 having a through-hole 103 to be fitted and a large number of serrations 105 on one surface 104, and a screw 107 arranged between the main body 102 and the adjustment member 106. And an annular adjustment member 110 having a number of teeth (serrations) 108 on one surface 109 that mesh with the plurality of teeth 105 of the adjustment member 106. The member 106 is provided with three through holes 112 through which three long screws 111 are inserted, and each of the through holes 112 extends in a circular arc shape in the circumferential direction to form a long hole. Screw 111 It is screwed to the body 102 through the section member 110.
[0037]
In this way, a rough structure is provided with a large number of teeth 108 provided on the output rotation shaft side of the electric motor 81 and a large number of other teeth 105 provided on the rotation shaft 49 side so as to mesh with each of the teeth 108. The adjustment mechanism 85 rotates the spline shaft 83 by loosening each long screw 111 and rotating the adjustment member 106 with respect to the adjustment member 110 about the axis O to change the meshing position of the tooth 105 with respect to the tooth 108. As a result of the relative rotation position of the rotary shaft 49 with respect to the position being able to be changed discretely within the range of the through hole 112, the relative rotational position of the rotary shaft 49 with respect to the rotational position of the output rotary shaft of the electric motor 81 is discrete Can be changed.
[0038]
The restricting mechanism 86 includes a stopper member 115 fixed to the outer wall of the gear mechanism 84 and an arc-shaped protrusion 116 formed integrally with the main body 102, and protrudes when the rotation shaft 49 rotates in the R4 direction. When the end surface 117 of 116 is in contact with the stopper member 115, the rotation shaft 49 is prevented from further rotating in the R4 direction, and the end surface 118 of the protrusion 116 is in contact with the stopper member 115 by the rotation of the rotation shaft 49 in the R5 direction. This prevents the rotation of the rotation shaft 49 in the R5 direction and restricts the rotation of the rotation shaft 49 beyond a certain level.
[0039]
The rotation mechanism 9 rotates the link arm 38 by rotating in the R4 and R5 directions around the axis O of the rotation shaft 49 via the rotation transmission unit 82 by the operation of the electric motor 81 of the rotation unit 50. With this rotation, the passage opening / closing member 8 is pushed out through the link arm 34, and is drawn and rotated in the R1 and R2 directions.
[0040]
The support means 51 includes a bearing portion 121 that rotatably supports the rotating shaft 49, an L-shaped support plate 122 to which the bearing portion 121 is fixed, and on the one hand, the support plate 122 is fixed by a screw or the like, and on the other hand a screw. Etc., and the bearing portion 121 rotates the rotating shaft 49 adjacent to the portion of the rotating shaft 49 where the other end portion 47 of the link arm 38 is fixed. Arranged to support freely.
[0041]
The ventilating apparatus 1 of the present example includes another passage opening / closing member 132 rotatably supported so as to open and close another ventilation passage 131 adjacent to the ventilation passage 6 on the side of the horizontal frame 4, and a passage opening / closing member at one end 133. The link arm 135 is rotatably connected to the one end portion 134 side of the 132, and the other end portion 136 of the link arm 135 is rotatably connected to the one end portion 137, and the other end portion 138 is connected to another rotating shaft 139. The link arm 140 is fixed to the other, and the other support means 141 that rotatably supports the rotary shaft 139 is provided.
[0042]
Since the ventilation passage 131, the passage opening / closing member 132, the link arms 135, 140, and the support means 141 are configured in the same manner as the passage opening / closing member 8, the link arms 34, 38, and the support means 51, detailed description thereof is omitted. Similarly to the passage opening / closing member 8, the passage opening / closing member 132 is provided with link arms and support means similar to the link arms 135 and 140 and the support means 141 on the other end side.
[0043]
The rotation shaft 139 is connected to another spline shaft 151 of the gear mechanism 84 via another coarse adjustment mechanism 152, and the rotation of the output rotation shaft of the electric motor 81 causes the gear mechanism 84, the spline shaft 151, and the coarse adjustment. Thus, the passage opening / closing member 132 is rotated in synchronization with the passage opening / closing member 8 by the rotation of the rotating shaft 139 by the operation of the electric motor 81 of the rotating mechanism 9. The arm 131 is pushed out by the link arms 135 and 140 so as to open and close, and is rotated by being pulled. That is, the gear mechanism 84 of the rotation transmission means 82 of the present example is adapted to transmit the rotation of the output rotation shaft of the electric motor 81 in conjunction with both the rotation shafts 49 and 139 and to manually operate the manual rotation shaft 92. Both rotation shafts 49 and 139 can be rotated in conjunction with rotation.
[0044]
The coarse adjustment mechanism 152 configured in the same manner as the coarse adjustment mechanism 85 is a cylindrical main body having a through hole 161 into which one end of the spline shaft 151 is fitted, as shown in detail in FIGS. 162, a cylindrical adjustment member 166 having a through-hole 163 into which one end portion of the rotation shaft 139 is fitted and having a plurality of teeth (serrations) on one surface 164, and a main body 162 and an adjustment member 166. An annular adjusting member 170 which is disposed between and fixed to the main body 162 by a screw 167, and which has a number of serrations on one surface 169 which meshes with a plurality of teeth of the adjusting member 166; The adjustment member 166 is provided with three through holes 172 into which the three long screws 171 are inserted, and each of the through holes 172 extends in a circular arc shape in the circumferential direction and extends into the long hole. Become Ri, the long screws 171 through the adjusting member 170 is screwed to the body 162.
[0045]
In the same manner as the coarse adjustment mechanism 85, the coarse adjustment mechanism 152 loosens each long screw 171 and rotates the adjustment member 166 around the axis O with respect to the adjustment member 170, thereby causing the teeth on one surface 169 of the adjustment member 170 to rotate. The relative rotational position of the rotary shaft 139 with respect to the rotational position of the spline shaft 151 can be changed discretely within the range of the through hole 172 by changing the meshing position of the teeth of the one surface 164 of the adjusting member 166 with respect to As a result, the relative rotational position of the rotational shaft 139 with respect to the rotational position of the output rotational shaft of the electric motor 81 can be discretely changed independently of the rotational shaft 49.
[0046]
In order to restrict the rotation of the rotation shaft 139 beyond a certain level, a restriction mechanism similar to the restriction mechanism 86 is fixed to the outer wall of the gear mechanism 84 and a stopper member 175 similar to the stopper member 115 is used. It may be provided.
[0047]
Moreover, the ventilation apparatus 1 may be comprised so that the other ventilation channel | path adjacent to the ventilation channel | path 6 on the side of the horizontal frame 5 may be opened and closed.
[0048]
As shown in FIG. 1, the ventilating apparatus 1 closes the ventilation passage 6 when the passage opening / closing member 8 slightly contacts the sealing member 25 by bending the sealing member 25. When the link arm 38 is rotated in the same direction by the rotation of the rotating shaft 49 by the operation and the link arm 34 is pushed forward while being rotated, the passage opening / closing member to the seal member 25 is shown in FIG. 8 is released and the passage opening / closing member 8 is rotated in the R1 direction around the hinge mechanism 7 to open the ventilation passage 6. By opening the ventilation passage 6, the inside 23 of the building is ventilated by the air flow A from the inside 23 to the outside 22 of the building.
[0049]
In the ventilation device 1, when the rotation position of the output rotation shaft of the electric motor 81 and the rotation position of the passage opening / closing member 8 do not match, first, in the coarse adjustment mechanism 85, with respect to the rotation position of the output rotation shaft of the electric motor 81. The relative rotational position of the rotary shaft 49 is roughly adjusted, and then the tip of the minus driver is engaged with the engagement recess 70, and the shaft portion 68 is rotated in the R3 direction to engage the screw member 63 with the screw member 63. The screwing position of 64 is changed to adjust the arm length of the link arm 34, and after the arm length is adjusted, the screwing position of the screwing member 64 with respect to the screwing member 63 is not changed by the fixing member 60 made of a lock nut. Lock it. Similarly, with respect to the passage opening / closing member 132, the rotation position of the output rotation shaft of the electric motor 81 and the rotation position thereof are matched, and the ventilation passage 131 is also accurately opened and closed by the passage opening / closing member 132 in conjunction with the passage opening / closing member 8. Like that.
[0050]
According to such a ventilator 1, since the arm length of the link arm 34 can be continuously changed manually as described above, the link arm 38 is pushed through the link arm 34 by the rotation of the link arm 34, and is pulled and rotated. It is possible to finely adjust the passage closing position and passage opening position of the passage opening / closing member 8 to be adjusted, and thus the opening / closing state of the ventilation passage 6 can be easily and easily adjusted, and it is necessary to extremely increase the part manufacturing accuracy. In addition, there is no need to worry about component mounting errors.
[0051]
Further, according to the ventilation device 1, after roughly adjusting the passage closing position and the passage opening position of the passage opening / closing member 8 by the rough adjustment mechanism 85, the passage closing position of the passage opening / closing member 8 is changed by manually changing the arm length of the link arm 34. The passage opening position can be finely adjusted, so that the passage closing position and the passage opening position of the passage opening / closing member 8 can be set as desired without requiring a large manual change in the arm length of the link arm 34. Since the rotary shaft 49 is supported by the support means 51 adjacent to the portion where the other end 47 of the 38 is fixed, large deflection of the rotary shaft 49 when the rotary shaft 49 is elongated can be prevented.
[0052]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, the ventilation apparatus which can adjust the opening / closing state of a ventilation passage easily and simply can be provided.
[Brief description of the drawings]
FIG. 1 is a preferred example of an embodiment of the present invention, and is a cross-sectional view taken along line II in FIG.
2 is an explanatory plan view of the example shown in FIG. 1. FIG.
FIG. 3 is an explanatory plan view of the example shown in FIG. 1;
4 is an explanatory plan view of the example shown in FIG. 1. FIG.
5 is a cross-sectional view taken along line VV shown in FIG.
6 is a cross-sectional view of the coarse adjustment mechanism of the example shown in FIG.
7 is a left side view of the coarse adjustment mechanism shown in FIG. 6. FIG.
8 is a right side view of the coarse adjustment mechanism shown in FIG. 6. FIG.
FIG. 9 is an explanatory diagram of the coarse adjustment mechanism shown in FIG. 6;
10 is an explanatory diagram of a coarse adjustment mechanism shown in FIG. 6. FIG.
11 is a cross-sectional view of another coarse adjustment mechanism of the example shown in FIG.
12 is a left side view of the coarse adjustment mechanism shown in FIG.
13 is a right side view of the coarse adjustment mechanism shown in FIG.
14 is an operation explanatory diagram of the example shown in FIG. 1. FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Ventilator 6 Ventilation passage 8 Passage opening / closing member 9 Rotating mechanism 34, 38 Link arm 49 Rotating shaft 50 Rotating means

Claims (7)

  A rotation mechanism for rotating a passage opening / closing member rotatably supported so as to open and close the passage, a first link arm rotatably connected to the passage opening / closing member at one end, and the first link arm A second link arm rotatably connected to the other end of the second link arm, a rotating shaft fixed to the other end of the second link arm, and a rotating means for rotating the rotating shaft. The second link arm is rotated by the rotation of the rotation shaft by the operation of the rotating means, and the passage opening / closing member is pushed out through the first link arm by the rotation of the second link arm, and is pulled and rotated. A pair of screwing members that are configured so that at least one of the first and second link arms, the arm length of which is manually changed continuously, are screwed together. With The first link arm includes an arm portion rotatably connected to the passage opening / closing member and an arm portion rotatably connected to the second link arm, and the pair of screwing members includes One of the pair of screw members disposed between the arm portions is fixed to an arm portion that is rotatably connected to the passage opening / closing member, and one of the pair of screw members. The other screwing member is rotatably supported by an arm portion that is rotatably connected to the second link arm, and the other screwing member is fitted to one end surface inside the building of the other screwing member. An engagement recess, an engagement protrusion, or an engagement surface for engaging with a rotary tool that rotates the member is provided, and the rotation unit is configured to rotate the rotation of the electric motor and the output rotation shaft of the electric motor. Rotation transmission means for transmitting to the motor. A coarse adjustment mechanism capable of discretely changing the rotation position of the rotation shaft relative to the rotation position of the output rotation shaft of the motor, and the coarse adjustment mechanism is provided on the output rotation shaft side of the electric motor. A rotation mechanism comprising a large number of teeth and a large number of other teeth provided on the rotary shaft side so as to mesh with each of the large number of teeth.   The rotation mechanism according to claim 1, wherein at least one of the first and second link arms includes a fixing member that fixes a screwing position of the pair of screwing members.   A ventilation apparatus comprising the rotation mechanism according to claim 1 or 2, wherein the passage opened and closed by the passage opening and closing member is a ventilation passage.   Support means for rotatably supporting the rotating shaft is provided, and this supporting means rotatably supports the rotating shaft adjacent to a portion where the other end of the second link arm is fixed on the rotating shaft. The ventilator according to claim 3, wherein the ventilator is arranged to do so.   Another passage opening / closing member rotatably supported so as to open and close another ventilation passage adjacent to the ventilation passage, and another first link arm rotatably connected to the other passage opening / closing member at one end. A second link arm that is rotatably connected at one end to the other end of the other first link arm, and is fixed to another rotating shaft at the other end. The other passage opening / closing member is pushed out by being rotated so as to open and close the other ventilation passage in synchronization with the passage opening / closing member by the rotation of the other rotation shaft by the operation of the rotating means. The ventilator according to claim 3 or 4, wherein at least one of the other first and second link arms can be continuously fine-tuned manually by the arm length.   The rotation transmitting means is adapted to transmit the rotation of the output rotation shaft of the electric motor to the other rotation shaft, and the relative rotation position of the other rotation shaft with respect to the rotation position of the output rotation shaft of the electric motor. The ventilation apparatus according to claim 5, further comprising another coarse adjustment mechanism that can be changed discretely.   The rotation transmission means includes a gear mechanism that transmits the rotation of the output rotation shaft of the electric motor in conjunction with both rotation shafts, so that the gear mechanism can be rotated in conjunction with both rotation shafts even manually. The ventilation device according to claim 5 or 6.

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