JP4741757B2 - Ventilation window opening / closing control device and cam member used in the opening / closing control device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an opening / closing control device for a ventilation window and a cam member used for the opening / closing control device, and more particularly, simplifies the mounting operation of a cam member that operates a limit switch and operates the limit switch at a desired timing. The present invention relates to a ventilation window opening / closing control device and a cam member used in the opening / closing control device.
[0002]
[Prior art]
In recent years, temperature management for keeping room temperature at an appropriate temperature has been performed in greenhouses or factories or warehouses such as vinyl houses and glass houses. For this temperature management, forced ventilation with a ventilation fan cannot sufficiently cool or heat the air due to lack of ventilation or inefficiency, so natural ventilation with a ventilation window is used. In this temperature management using natural ventilation, an open / close control device that automatically opens and closes ventilation windows such as skylights and side windows is used, and this open / close control device adjusts the opening / closing degree of the ventilation windows to control the room temperature. It is kept at an appropriate temperature.
[0003]
FIG. 6 is a cross-sectional view schematically showing an open / close control device 60 for a ventilation window 52 conventionally used in a greenhouse 50 or the like. The opening / closing control device 60 is installed directly under the ventilation window 52, and includes a motor 61 as a power source, a speed reducer 63 that decelerates and transmits the rotation of the motor 61 to the window opening / closing shaft 62, and the like. The rotation of the motor 61 is decelerated by the speed reducer 63 and transmitted to the window opening / closing shaft 62, and the window opening / closing shaft 62 is rotated by this transmission. A pinion (not shown) is fixed to the window opening / closing shaft 62, and a rack 64 is engaged with the pinion. Therefore, the rotation of the window opening / closing shaft 62 is transmitted to the rack 64 via the pinion, and the rack 64 moves up and down by the transmission. As a result, the ventilation window 52 opens and closes in conjunction with the vertical movement of the rack 64.
[0004]
Here, too much opening and closing of the ventilation window may cause excessive load on the members around the ventilation window and the opening / closing control device, causing damage to the members around the ventilation window and failure of the opening / closing control device. It is necessary to open and close the ventilation window within the opening and closing range.
[0005]
Therefore, the open / close control device generally includes a limit switch composed of a switch for stopping forward and reverse rotation of the motor and a switch for malfunction, and four cam members for operating the limit switch. Is attached to a rotating shaft that rotates according to the degree of opening and closing of the ventilation window. Specifically, the limit switch is actuated at an appropriate timing by attaching the four cam members to the rotation shaft while appropriately adjusting the four cam members to correspond to the opening / closing positions of the ventilation windows, and as a result, It opens and closes within a predetermined opening and closing range.
[0006]
[Problems to be solved by the invention]
However, in this open / close control device, it is necessary to adjust each of the four cam members with respect to one open / close control device. Therefore, there is a problem that the working time is increased and the installation cost is increased accordingly. In particular, in a large-scale greenhouse such as an agricultural greenhouse, a large number of opening / closing control devices are used, and this problem is remarkable.
[0007]
For this reason, Japanese Patent No. 2641026 discloses an opening / closing control device capable of simplifying the adjustment work. In this open / close control device, the four cam members are divided into two sets for full opening and full closing, and are integrated into two cam members. Therefore, it is only necessary to adjust two cam members for full opening and full closing for one opening / closing control device, and the adjustment can be simplified. However, the adjustment of the cam member requires the adjustment of the two cam members for full opening and full closing separately as in the case of adjusting the four cam members, and there is still a problem that much labor is still required. It was. In addition, since the four cam members are divided into two sets and integrated, the degree of freedom of adjustment is limited compared to when the four cam members are separated, and the limit switch is operated at a desired timing. There was a problem that it was not possible.
[0008]
The present invention has been made to solve the above-described problems, and simplifies the mounting work of the cam member that operates the limit switch, and opens and closes the ventilation window that can operate the limit switch at a desired timing. It aims at providing the cam member used for a control device and its opening-and-closing control device.
[0009]
[Means for Solving the Problems]
To achieve this object, a ventilating window opening / closing control device according to claim 1 is provided with a limit switch for stopping a motor and a cam member for operating the limit switch, and is opened and closed by the motor. The limit switch includes an opening operation stop switch that stops the rotation of the motor that rotates in one direction, and an opening operation stop switch that rotates in the other direction. A closing operation stop switch for stopping the rotation, and a malfunction prevention switch for stopping the rotation of the motor when the closing operation stop switch and the opening operation stop switch are not operated. A plate cam-like fully open cam that operates the open operation stop switch when the ventilation window reaches a predetermined opening degree by rotating in one direction; A plate cam-like fully closed cam that activates the closing operation stop switch when the ventilation window reaches a predetermined closing degree, and the motor is operated even when the ventilation window exceeds a predetermined opening degree. A plate cam-like open safety cam that activates the malfunction prevention switch when not stopped, and a plate cam that activates the malfunction prevention switch when the motor does not stop even if the ventilation window exceeds a predetermined closing degree And a fully closed cam, a fully closed cam, an open safety cam, and a closed safety cam that are connected to each other so that their relative positions can be adjusted and fixed. Attachment means for attaching the fully open cam, the fully closed cam, the open safety cam, and the closed safety cam to a rotating shaft that rotates according to the degree of opening and closing of the ventilation window; And a base member attached to the rotary shaft, and the fully open cam, the fully closed cam, the open safety cam, and the closed safety cam on the base member relative to the base member by at least two fixing means. Adjustable position is fixed ing.
[0010]
According to the ventilating window opening / closing control device of the first aspect, the cam member is unitized by fixing the fully open cam, the fully closed cam, the open safety cam and the closed safety cam by the fixing means. The unitized cam member is attached to the rotating shaft by attachment means. Here, when the motor rotates in one direction, the ventilation window is driven to open by the rotation, and the cam member attached to the rotating shaft that rotates according to the degree of opening and closing of the ventilation window is moved to one side. Rotate. When the ventilation window reaches a predetermined opening, the fully open cam of the cam member activates the opening operation stop switch to stop the rotation of the motor. If the motor continues to rotate even if the ventilation window exceeds a predetermined opening, the opening safety cam of the cam member activates the malfunction prevention switch and stops the rotation of the motor.
[0011]
When the motor is rotated in the other direction, the ventilation window is driven to be closed by the rotation, and the cam member is rotated in the other direction. When the ventilation window reaches a predetermined closing degree, the fully closed cam of the cam member operates the closing operation stop switch to stop the rotation of the motor. If the motor continues to rotate even if the ventilation window exceeds a predetermined closing degree, the closing safety cam of the cam member operates the malfunction prevention switch and stops the rotation of the motor.
[0012]
[0013]
Claim 2 The ventilation window opening and closing control device described is A limit switch for stopping the motor and a cam member for operating the limit switch are provided for adjusting the opening / closing degree of a ventilation window such as a greenhouse that is driven to open and close by the motor. An opening operation stop switch for stopping the rotation of the motor rotating in the direction, a closing operation stop switch for stopping the rotation of the motor rotating in the other direction, and the closing operation stop switch and the opening operation stop switch A malfunction prevention switch for stopping the rotation of the motor when the motor does not operate, and the cam member rotates when the motor rotates in one direction and the ventilation window reaches a predetermined opening degree. A plate cam-like fully open cam that activates the open operation stop switch and the closing operation stop when the motor rotates in the other direction and the ventilation window reaches a predetermined closing degree A plate cam-like fully-closed cam for operating the switch, a plate cam-like open safety cam for operating the malfunction prevention switch when the motor does not stop even when the ventilation window exceeds a predetermined opening, A plate cam-like closed safety cam that operates the malfunction prevention switch when the motor does not stop even if the ventilation window exceeds a predetermined closing degree, and these fully open cams, fully closed cams, open safety cams, and closed safety cams Means for connecting and fixing the relative positions of each other in an adjustable manner, and a fully open cam, a fully closed cam, an open safety cam, and a closed safety cam that are connected and fixed by the fixing means as a unit. Attachment means for attaching to a rotating shaft that rotates according to Position holding means for holding the fully open cam and the open safety cam or the fully closed cam and the closed safety cam connected to each other at a predetermined relative position. The position holding means is provided on one surface of the opposing surface to which the fully opened cam and the open safety cam or the fully closed cam and the closed safety cam are connected, and projects along the axial direction of the rotary shaft. A projection provided, and a fitting hole provided on the other surface of the facing surface and formed to be matable with the projection. ing.
[0014]
[0015]
Claim 3 The ventilation window opening and closing control device described is A limit switch for stopping the motor and a cam member for operating the limit switch are provided for adjusting the opening / closing degree of a ventilation window such as a greenhouse that is driven to open and close by the motor. An opening operation stop switch for stopping the rotation of the motor rotating in the direction, a closing operation stop switch for stopping the rotation of the motor rotating in the other direction, and the closing operation stop switch and the opening operation stop switch A malfunction prevention switch for stopping the rotation of the motor when the motor does not operate, and the cam member rotates when the motor rotates in one direction and the ventilation window reaches a predetermined opening degree. A plate cam-like fully open cam that activates the open operation stop switch and the closing operation stop when the motor rotates in the other direction and the ventilation window reaches a predetermined closing degree A plate cam-like fully-closed cam for operating the switch, a plate cam-like open safety cam for operating the malfunction prevention switch when the motor does not stop even when the ventilation window exceeds a predetermined opening, A plate cam-like closed safety cam that operates the malfunction prevention switch when the motor does not stop even if the ventilation window exceeds a predetermined closing degree, and these fully open cams, fully closed cams, open safety cams, and closed safety cams Means for connecting and fixing the relative positions of each other in an adjustable manner, and a fully open cam, a fully closed cam, an open safety cam, and a closed safety cam that are connected and fixed by the fixing means as a unit. An attaching means for attaching to a rotating shaft that rotates according to The fully open cam, fully closed cam, open safety cam and closed safety cam of the cam member each have a convex portion projecting from the outer edge thereof, and the limit switch is when it is stopped by the convex portion. Operate.
[0016]
Claim 4 The ventilation window opening and closing control device described is A limit switch for stopping the motor and a cam member for operating the limit switch are provided for adjusting the opening / closing degree of a ventilation window such as a greenhouse that is driven to open and close by the motor. An opening operation stop switch for stopping the rotation of the motor rotating in the direction, a closing operation stop switch for stopping the rotation of the motor rotating in the other direction, and the closing operation stop switch and the opening operation stop switch A malfunction prevention switch for stopping the rotation of the motor when the motor does not operate, and the cam member rotates when the motor rotates in one direction and the ventilation window reaches a predetermined opening degree. A plate cam-like fully open cam that activates the open operation stop switch and the closing operation stop when the motor rotates in the other direction and the ventilation window reaches a predetermined closing degree A plate cam-like fully-closed cam for operating the switch, a plate cam-like open safety cam for operating the malfunction prevention switch when the motor does not stop even when the ventilation window exceeds a predetermined opening, A plate cam-like closed safety cam that operates the malfunction prevention switch when the motor does not stop even if the ventilation window exceeds a predetermined closing degree, and these fully open cams, fully closed cams, open safety cams, and closed safety cams Means for connecting and fixing the relative positions of each other in an adjustable manner, and a fully open cam, a fully closed cam, an open safety cam, and a closed safety cam that are connected and fixed by the fixing means as a unit. An attaching means for attaching to a rotating shaft that rotates according to On the outer edge of at least one component constituting the cam member, scales that are engraved at equal intervals are provided.
[0017]
Claim 5 The ventilation window opening and closing control device described is A limit switch for stopping the motor and a cam member for operating the limit switch are provided for adjusting the opening / closing degree of a ventilation window such as a greenhouse that is driven to open and close by the motor. An opening operation stop switch for stopping the rotation of the motor rotating in the direction, a closing operation stop switch for stopping the rotation of the motor rotating in the other direction, and the closing operation stop switch and the opening operation stop switch A malfunction prevention switch for stopping the rotation of the motor when the motor does not operate, and the cam member rotates when the motor rotates in one direction and the ventilation window reaches a predetermined opening degree. A plate cam-like fully open cam that activates the open operation stop switch and the closing operation stop when the motor rotates in the other direction and the ventilation window reaches a predetermined closing degree A plate cam-like fully-closed cam for operating the switch, a plate cam-like open safety cam for operating the malfunction prevention switch when the motor does not stop even when the ventilation window exceeds a predetermined opening, A plate cam-like closed safety cam that operates the malfunction prevention switch when the motor does not stop even if the ventilation window exceeds a predetermined closing degree, and these fully open cams, fully closed cams, open safety cams, and closed safety cams Means for connecting and fixing the relative positions of each other in an adjustable manner, and a fully open cam, a fully closed cam, an open safety cam, and a closed safety cam that are connected and fixed by the fixing means as a unit. An attaching means for attaching to a rotating shaft that rotates according to The fixing means includes a fastening hole provided in any one of the components of the cam member, a fixing screw screwed into the fastening hole, and the fixing screw penetrating through the outer diameter of the fixing screw. The full-open cam, the full-close cam, the open safety cam, and the adjustment hole formed in the closed safety cam are provided in a large outer shape.
[0018]
Claim 6 The cam member according to claim 1 from 5 The opening / closing control device for a ventilation window according to any one of the above.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. FIG. 1 is a front view of an opening / closing control device 1 of the present invention. In FIG. 1, for ease of understanding, the limit switch box 6 displays only the outer shape with a two-dot chain line and shows the inside transparently.
[0020]
The open / close control device 1 is a device for automatically opening / closing a ventilation window of a greenhouse according to room temperature and weather. The opening / closing control device 1 includes a motor 2 that rotates forward and backward, a speed reducer 3 that decelerates the rotation of the motor 2, and the rotation of the motor 2 decelerated by the speed reducer 3 to the outside of the speed reducer 3. The drive shaft 3a and the rotation shaft 3b that transmit, the cam member 4 that is attached to the rotation shaft 3b and rotates in conjunction with the drive shaft 3a, and the cam member 4 disposed so as to be in contact with the cam member 4 are stopped. The limit switch 5 is provided.
[0021]
The motor 2 generates power for opening and closing a ventilation window (not shown). The motor 2 is connected to a limit switch 5 on an electric circuit, and its rotation is stopped by the limit switch 5 when the ventilation window exceeds a previously adjusted degree of opening and closing. The opening / closing degree represents the opening amount of the window including the closed state of the window.
[0022]
The decelerator 3 is for decelerating the rotation of the motor 2 and transmitting it to the drive shaft 3a. The speed reducer 3 is provided with a pulley 3d connected by a drive shaft (pulley 2a) of the motor 2 and a V belt 3c. The pulley 3d has a speed reduction gear (not shown) such as a worm gear and a worm. Are connected while being accommodated inside the main body 3e. Therefore, the rotation of the motor 2 is transmitted to the pulley 3d via the V-belt 3c, and the rotation of the pulley 3d is transmitted to the drive shaft 3a while being decelerated by the reduction gear.
[0023]
A ventilation window is connected to the drive shaft 3a through an opening / closing mechanism such as a link mechanism or a rack and pinion mechanism, and the ventilation window is opened / closed by the rotation of the drive shaft 3a. Since the rotation of the motor 2 is decelerated by the speed reducer 3 and transmitted to the drive shaft 3a, the drive shaft 3a can rotate with high torque to open and close the ventilation window.
[0024]
The speed reducer 3 includes a gear box 3f having a reduction gear (not shown), and a rotary shaft 3b is connected to the gear box 3f. The gear box 3f is for further reducing the rotation of the motor 2 decelerated by the speed reducer 3, and the rotation of the motor 2 is transmitted to the rotary shaft 3b via the speed reducer 3 and the gear box 3f. The
[0025]
Here, the reduction ratio of the gear box 3f is determined when the ventilation window is driven from the fully closed state to the fully open state, that is, when the drive shaft 3a is rotated by a predetermined rotation (for example, 30 rotations) in one direction. The rotation amount of the rotary shaft 3b is set to be 1 rotation or less. Therefore, the opening / closing degree of the ventilation window can be expressed as a rotation angle based on the position of the rotation shaft 3b in the fully closed state. For example, in the side view shown in FIG. 4, the rotating shaft 3b of the present embodiment rotates clockwise as the ventilation window is opened, and rotates approximately 3/4 round from the fully closed state to the fully opened state. It is like that. On the other hand, when the ventilation window is closed, the rotating shaft 3b of this embodiment rotates counterclockwise (counterclockwise in FIG. 4), and approximately 3/4 rounds from the fully open state to the fully closed state. It is designed to rotate.
[0026]
The cam member 4 is attached to a rotary shaft 3b that is rotated in conjunction with the drive shaft 3a, and operates a limit switch 5 that is disposed so as to be able to contact the cam member 4. The cam member 4 is housed in a limit switch box 6 connected to the gear box 3f of the speed reducer 3 together with the limit switch 5 so that the operation is not hindered due to adhesion of dust and dirt after installation.
[0027]
Next, the cam member 4 of the present embodiment will be described with reference to FIG. FIG. 2 is an exploded perspective view of the cam member 4 of the present embodiment. In FIG. 2, the grooves 10 f, 13 f, and 14 f provided on the outer edges of the members are omitted from the shape and indicated by lines.
[0028]
The cam member 4 includes a cylindrical base member 10 disposed at the center of the cam member 4, a fully open cam 12 and an open safety cam 14 connected to one end surface of the base member 10, and the fully open cam 12. And a fully closed cam 11 and a closed safety cam 13 formed in the same shape as the open safety cam 14 and connected to the other end surface of the base member 10, the fully closed cam 11 and the closed safety cam 13, a fully opened cam 12 and The open safety cam 14 is separately fixed to the base member 10 and the two fixing screws 15 for unitizing the cam member 4 and the unitized cam member 4 are attached to the rotating shaft 3b (see FIG. 1). And a set screw 16 with a hexagonal hole.
[0029]
The base member 10 is formed in a cylindrical shape having a shaft hole 10a through which the rotating shaft 3b (see FIG. 1) is inserted, and a screw hole for screwing a fixing screw 15 outside the shaft hole 10a. 10b penetrates and is screwed. The screw holes 10b are arranged at three equal intervals along the outer periphery of the shaft hole 10a. The fixing screw 15 is screwed into the screw hole 10b, and the fully closed cam 11 and the closed safety cam 13, and the fully opened cam 12 and the opened safety cam 14 are connected and fixed to both end surfaces of the base member 10, respectively. The cam member 4 is unitized.
[0030]
The base member 10 is screwed with a screw hole 10c from the outer edge toward the axis. The screw hole 10c communicates with the shaft hole 10a, and the set cam 16 screwed into the screw hole 10c presses the rotating shaft 3b (see FIG. 1), whereby the unitized cam member 4 is rotated. Attach to 3b.
[0031]
The fully open cam 12 and the open safety cam 14 connected to one end surface of the base member 10 actuate the limit switch 5 that stops the rotation of the motor 2 in the open direction when the ventilation window reaches a predetermined opening degree. It is something to be made. The fully open cam 12 and the open safety cam 14 are formed in a disc shape having shaft holes 12b and 14b through which the rotation shaft 3b (see FIG. 1) is inserted at the center, and limit switches 5 are provided on the outer edges of the discs. Protrusions 12a and 14a for operating are projected.
[0032]
The fully open cam 12 and the open safety cam 14 are provided with adjusting holes 12c and 14c, respectively, which are formed in an arc shape having a substantially 1/3 circumference along the outer periphery of the shaft holes 12b and 14b. The opening widths of the adjustment holes 12c and 14c in the radial direction are wider than the outer diameter of the male screw portion 15a of the fixing screw 15 and narrower than the outer shape of the head portion 15b.
[0033]
Therefore, the cam member 4 can be unitized by inserting the fixing screw 15 into the adjustment holes 12c and 14c of the fully open cam 12 and the open safety cam 14 and tightening the fixing screw 15 into the screw hole 10b of the base member 10. it can. At this time, the fully open cam 12 and the open safety cam 14 can rotate within a range of about 1/3 of the circumference of the base member 10 using a gap generated between the adjustment holes 12c, 14c and the male screw portion 15a. It is in a state. Therefore, the relative positions of the fully open cam 12 and the open safety cam 14 with respect to the base member 10 can be adjusted, and as a result, the timing for operating the limit switch 5 can be freely adjusted.
[0034]
When the convex portions 12a and 14a are positioned outside the rotatable range of the fully open cam 12 and the open safety cam 14, the screw holes 10b for fixing the fixing screws 15 are separately selected from three locations. As a result, the convex portions 12a and 14a can be positioned at desired positions over the entire circumference. Therefore, the timing for operating the limit switch 5 can be freely adjusted.
[0035]
The adjustment holes 12c and 14c do not need to be drilled in an arc shape. If the shape of a part of the head 15b of the fixing screw 15 overlaps a part of the fully opened cam 12 in a side view, another shape such as a rectangular shape is obtained. But it ’s okay. Moreover, the screw holes 10b screwed to the base member 10 can also be reduced by making the length of the adjustment holes 12c and 14c drilled in an arc shape into approximately ½ circumference.
[0036]
The open safety cam 14 is provided with two projections 14d along the axial direction of a shaft hole 14b through which the rotary shaft 3b (see FIG. 1) passes, which is a side surface connected to the fully open cam 12. The fully opened cam 12 is provided with four fitting holes 12d that can be fitted into the protrusions 14d of the opened safety cam 14.
[0037]
By inserting the projections 14d into the two fitting holes 12d out of the four fitting holes 12d, the convex portion 14a of the open safety cam 14 is approximately 10 degrees in the circumferential direction with respect to the convex portion 12a of the fully opened cam 12. It is arranged at a shifted position. Further, when fitted into the other two fitting holes 12d, the convex portion 14a of the open safety cam 14 is arranged at a position displaced by approximately 10 degrees on the opposite side in the circumferential direction with respect to the convex portion 12a of the fully opened cam 12. . Thus, by fitting the protrusion 14d into the fitting hole 12d, the convex portion 14a of the open safety cam 14 can be positioned at a certain relative position with respect to the convex portion 12a of the fully open cam 12.
[0038]
Note that the two protrusions 14d protrude in a columnar shape having a diameter of about 2 mm. Therefore, it can be easily excised with pliers or the like as necessary, and when excised, the convex portion 14a of the open safety cam 14 with respect to the convex portion 12a of the fully open cam 12 is continuously adjusted to a free position. Can do.
[0039]
The fully closed cam 11 and the closed safety cam 13 connected to the other end face of the base member 10 are provided with a limit switch 5 that stops the rotation of the motor 2 in the closing direction when the ventilation window reaches a predetermined closing degree. It is to be operated. A member having substantially the same shape as the fully open cam 12 is used for the fully closed cam 11, and a member having approximately the same shape as the open safety cam 14 is used for the closed safety cam 13. Therefore, the same symbols as those of the fully-open cam 12 and the open safety cam 14 are attached to the respective portions formed on the fully-closed cam 11 and the closed safety cam 13, and the description thereof is omitted. For example, the shaft hole of the fully closed cam 11 formed in the same shape as the shaft hole 12b of the fully opened cam 12 is represented by the shaft hole 11b, and is formed in the same shape as the adjustment hole 14c of the open safety cam 14, for example. The adjustment hole of the closed safety cam 13 is represented by an adjustment hole 13c.
[0040]
The closed safety cam 13 and the open safety cam 14 positioned on both sides of the base member 10 operate the same limit switch 5 (malfunction prevention switch 5b, see FIG. 3), and sandwich the base member 10 therebetween. It is arranged to face each other. The convex portions 13a and 14a of the closed safety cam 13 and the open safety cam 14 are projected along the axial direction of the base member 10 by projecting the convex portions 13a and 14a projecting in a semicircular shape toward the base member 10 side. It is extended to about half of the length. Therefore, the convex portions 13a and 14a of the closed safety cam 13 and the open safety cam 14 can operate the same limit switch 5 (malfunction prevention switch 5b) disposed above the base member 10.
[0041]
The outer edge of the base member 10 is provided with a plurality of grooves 10e and 10f drilled with two types of widths along the axial direction. The plurality of grooves 10e and 10f are used as scales for confirming the relative positions of the component parts when unitized. The plurality of grooves 10e and 10f are divided into a thick groove 10e provided at every 90 degrees in the circumferential direction and a width of the thick groove 10e which is narrower than the thick groove 10e. And a narrow groove 10f provided every 15 degrees.
[0042]
Further, the closed safety cam 13 and the open safety cam 14 are provided with grooves 13e, 13f, 14e, and 14f that are formed at the same intervals as the grooves 10e and 10f. These grooves are also used as scales like the grooves 10e and 10f. By using these grooves 10e, 10f, 13e, 13f, 14e, and 14f, when the cam member 4 is unitized, the relative positions of the four convex portions 11a to 14a formed on the outer edge of the cam member 4 are determined. Adjustments can be made based on the scale.
[0043]
The base member 10, the fully closed cam 11, the fully opened cam 12, the closed safety cam 13 and the open safety cam 14 constituting the cam member 4 of the present embodiment are formed by cutting using an aluminum alloy as a material. However, the components of the cam member 4 may be formed using iron or stainless steel as a material, or may be formed by casting.
[0044]
Next, the cam member 4 and the limit switch 5 will be described with reference to FIGS. 3 and 4. 3 is an enlarged front view of the cam member 4 and limit switch 5 of FIG. 1, and FIG. 4 is a side view of the cam member 4 and limit switch 5 of FIG. In FIG. 3, the grooves 10e, 10f, 13e, 13f, 14e, and 14f are shown in black for easy understanding. In FIG. 4, the limit switch 5 shows only the opening operation stop switch 5a, and omits the malfunction prevention switch 5b and the closing operation stop switch 5c.
[0045]
The cam member 4 is unitized by two fixing screws 15 and is fixed to the rotary shaft 3 b by a set screw 16 inserted through the base member 10. A closed safety cam 13 and a fully closed cam 11 are connected to the cam member 4 on the base side of the rotating shaft 3b (the right side in FIG. 3) with respect to the base member 10 disposed in the center. An open safety cam 14 and a fully open cam 12 are connected to the distal end side (left side in FIG. 3) of the rotating shaft 3b from the base member 10.
[0046]
Further, as shown in FIG. 4, the cam member 4 is formed in a circular shape in a side view, and four convex portions 11 a to 14 a projecting in a semicircular shape on the outer periphery thereof are arranged at predetermined positions along the circumferential direction. Has been placed. These convex portions 11a to 14a rotate together with the rotation shaft 3b, and when the actuators 20a to 20c of the limit switch 5 described later are pressed, the limit switch 5 is activated and the rotation of the motor 2 is stopped.
[0047]
The limit switch 5 is for stopping the rotation of the motor 2 and is operated by being pushed by the convex portions 11 a to 14 a of the cam member 4. The limit switch 5 is provided at a position corresponding to the fully open cam 12 and is opened by an open operation stop switch 5a that is pressed by the convex portion 12a. The limit switch 5 is provided at a position corresponding to the base member 10. A malfunction prevention switch 5b which is turned off by being pushed by the convex portions 13a, 14a of the safety cam 14, and a closing operation stop switch 5c which is provided at a position corresponding to the fully closed cam 11 and is turned off by being pushed by the convex portion 11a. It consists of and.
[0048]
The opening operation stop switch 5a, the malfunction prevention switch 5b, and the closing operation stop switch 5c are provided above the actuators 20a to 20c that can come into contact with the cam member 4, and above the actuators 20a to 20c (upper side in FIG. 3). Each of the followers 21a to 21c is provided. The limit switches 5 are arranged in order from the speed reducer 3 side (the right side in FIG. 3) to a closing operation stop switch 5c, a malfunction prevention switch 5b, and an opening operation stop switch 5a.
[0049]
The open operation stop switch 5a, the malfunction prevention switch 5b, and the close operation stop switch 5c turn off the internal contacts via the followers 21a to 21c when the actuators 20a to 20c are pressed by a predetermined amount. . That is, the limit switch 5 is normally on and is used in a normally closed state (B contact) in which the followers 21a to 21c are pushed and turned off. If the limit switch 5 is not used for a long period of time, the followers 21a to 21c may be fixed and difficult to operate. However, the convex portions 11a to 14a hold the limit switch 5 to prevent the follower 21a. Since the limit switch 5 can be operated by forcibly removing the sticking to 21c, the rotation of the motor 2 can be stopped reliably.
[0050]
Here, when the rotating shaft 3b rotates clockwise from the state shown in FIG. 4, the convex portion 12a of the fully opened cam 12 is positioned above the rotating shaft 3b (upper side in FIG. 4), and the opening operation stop switch 5a The actuator 20a is pushed up. When the actuator 20a is pushed up by a predetermined amount, the internal contact is turned off via the follower 21a driven by the actuator 20a, and the opening operation stop switch 5a is turned off. The opening operation stop switch 5a is disposed at a position where it is operated at a position lower than the top of the convex portion 12a, and the malfunction prevention switch 5b and the closing operation stop switch 5c are also disposed at the same position in side view. Yes.
[0051]
Further, when the cam member 4 rotates approximately 10 degrees clockwise, the convex portion 14a of the opening safety cam 14 is positioned above the rotating shaft 3b (upper side in FIG. 4), and the rear side (FIG. 4) of the opening operation stop switch 5a. The actuator 20b of the malfunction prevention switch 5b (not shown) provided on the back side in the vertical direction of the paper surface is pushed upward (upper side in FIG. 4). When the actuator 20b is pushed up by a predetermined amount, the internal contact is turned off via the follower 21b driven by the actuator 20b, and the malfunction prevention switch 5b is turned off.
[0052]
On the other hand, when the rotating shaft 3b rotates approximately 3/4 times counterclockwise from the state shown in FIG. 4, the convex portion 11a of the fully closed cam 11 is positioned above the rotating shaft 3b (upper side in FIG. 4), and the closing operation is stopped. The actuator 20c of the switch 5c (not shown) is pushed up. When the actuator 20c is pushed up by a predetermined amount, the internal contact is turned off via the follower 21c driven by the actuator 20c, and the closing operation stop switch 5c is turned off.
[0053]
Further, when the cam member 4 is rotated approximately 10 degrees counterclockwise, the convex portion 13a of the closed safety cam 13 is positioned above the rotating shaft 3b (upper side in FIG. 4), and a malfunction prevention switch 5b (not shown) is placed. The actuator 20b is pushed upward (upper side in FIG. 4). When the actuator 20b is pushed up by a predetermined amount, the internal contact is turned off via the follower 21b driven by the actuator 20b, and the malfunction prevention switch 5b is turned off.
[0054]
Next, the connection of the limit switch 5 will be described with reference to FIG. FIG. 5 is a circuit diagram showing the connection of the limit switch 5.
[0055]
As described above, the limit switch 5 includes the opening operation stop switch 5a, the closing operation stop switch 5c, and the malfunction prevention switch 5b. The opening operation stop switch 5a is for stopping the rotation of the motor 2 in the forward direction in which the ventilation window is opened, and the closing operation stop switch 5c is in the reverse direction in which the ventilation window is closed. Is to stop the rotation of the. The malfunction prevention switch 5b stops the rotation of the motor 2 in both the forward and reverse directions when the opening operation stop switch 5a and the closing operation stop switch 5c do not operate.
[0056]
Therefore, as shown in FIG. 5 (a), the limit switch 5 is connected in such a manner that the open operation stop switch 5a and the close operation stop switch 5c are arranged in parallel, and the close operation stop switch 5c and the open operation stop switch 5a malfunction. The prevention switch 5b is connected in series. Therefore, even when the opening operation stop switch 5a or the closing operation stop switch 5c does not operate due to a failure, the circuit is reliably interrupted by the malfunction prevention switch 5b, and the motor 2 is stopped.
[0057]
As shown in FIG. 5 (b), the limit switch 5 of the opening / closing control device 1 in a state where the ventilation window is fully closed is such that the open operation stop switch 5a and the malfunction prevention switch 5b are on and the close operation stop switch 5c is off. It is in a state. That is, the convex portion 11a of the fully closed cam 11 is positioned above the rotating shaft 3b (upper side in FIG. 4) and the closing operation stop switch 5c is turned off. Since a closing button (button for rotating the motor 2 in the direction in which the ventilation window is closed) of the operation unit (not shown) is provided in series with the closed operation stop switch 5c that is turned off, in the direction in which the ventilation window is closed. The rotation of the motor 2 is impossible.
[0058]
On the other hand, the opening operation stop switch 5a in the ON state is provided with a button for opening an operation unit (not shown) in series so that the motor 2 can be rotated in the opening direction of the ventilation window. Therefore, when the release button is pressed from the state shown in FIG. 5B (fully closed), the motor 2 rotates in the forward direction and the drive shaft 3a rotates. In conjunction with the rotation of the drive shaft 3a, the ventilation window is opened through an opening / closing mechanism linked to the drive shaft 3a. The rotation of the motor 2 in the forward direction is also transmitted to the rotating shaft 3b, and the cam member 4 attached to the rotating shaft 3b is rotated in the opening direction (clockwise in FIG. 4).
[0059]
When the cam member 4 starts to rotate in the opening direction, the closing operation stop switch 5c is turned on with the convex portion 11a of the fully closing cam 11 being separated from the actuator 20c of the closing operation stop switch 5c (FIG. 5A). State). When the cam member 4 is rotated approximately 3/4 in the opening direction (clockwise in FIG. 4) and the convex portion 12a of the fully-open cam 12 is positioned above the rotating shaft 3b (upper side in FIG. 4), the actuator 20a is pushed. The opening operation stop switch 5a is turned off (state shown in FIG. 5C), and the rotation of the motor 2 in the forward direction is stopped. The convex portion 11a of the fully closed cam 11 and the convex portion 12a of the fully opened cam 12 are adjusted to positions corresponding to a predetermined opening / closing degree before the ventilation window is opened and closed, and the ventilation window reaches a predetermined opening degree. Stop.
[0060]
Even if the convex portion 12a of the fully open cam 12 presses the actuator 20c of the opening operation stop switch 5a by a predetermined amount, if the opening operation stop switch 5a does not operate due to a failure (state shown in FIG. 5A), the motor 2 is in the positive direction. As the ventilation window is further opened, the cam member 4 continues to rotate in the opening direction (clockwise in FIG. 4). When the convex portion 14a of the open safety cam 14 is positioned above the rotating shaft 3b (upper side in FIG. 4), the malfunction prevention switch 5b is turned off (the state shown in FIG. 5D), and the motor 2 rotates in the forward direction. The movement stops.
[0061]
Further, when a closing button of an operation unit (not shown) is pressed in a predetermined open state (the state shown in FIG. 5C), the motor 2 rotates in the reverse direction and the drive shaft 3a rotates. In conjunction with the rotation of the drive shaft 3a, the ventilation window is closed through an opening / closing mechanism linked to the drive shaft 3a. The rotation of the motor 2 in the reverse direction is also transmitted to the rotating shaft 3b, and the cam member 4 attached to the rotating shaft 3b is rotated in the closing direction (counterclockwise in FIG. 4).
[0062]
When the cam member 4 starts to rotate in the closing direction, the opening operation stop switch 5a is turned on with the convex portion 12a of the fully opening cam 12 being separated from the actuator 20a of the opening operation stop switch 5a (FIG. 5A). Status). When the cam member 4 rotates approximately 3/4 of a turn in the closing direction (counterclockwise in FIG. 4) and the convex portion 11a of the fully closed cam 11 is positioned above the rotating shaft 3b (upper side in FIG. 4), the actuator 20c is pushed. The closed operation stop switch 5c thus turned off (the state shown in FIG. 5B) stops the rotation of the motor 2 in the reverse direction. The ventilation window reaches a predetermined closing degree and stops.
[0063]
Even if the convex portion 11a of the fully closed cam 11 presses the actuator 20c of the closing operation stop switch 5c by a predetermined amount, if the closing operation stop switch 5c does not operate due to a failure (the state of FIG. 5A), the motor 2 is reversed. The ventilation window is further closed by rotating in the direction, and the cam member 4 also continues to rotate in the closing direction (counterclockwise in FIG. 4). When the convex portion 13a of the closed safety cam 13 is positioned above the rotating shaft 3b (upper side in FIG. 4), the malfunction prevention switch 5b is turned off (the state shown in FIG. 5D), and the motor 2 rotates in the reverse direction. The movement stops.
[0064]
As described above, the limit switch 5 is turned off in accordance with the degree of opening and closing of the ventilation window, so that excessive opening and closing of the ventilation window places an extra load on the members around the ventilation window and the opening and closing device, and the surroundings of the ventilation window. It is possible to reliably prevent damage to the members and failure of the switchgear.
[0065]
Next, with reference to FIG. 4, the adjustment work of the opening / closing control apparatus 1 will be described. In the opening / closing control apparatus 1 of the present invention, the cam member 4 is unitized in advance using a dedicated jig at a factory or the like and then attached to the rotary shaft 3b.
[0066]
In this unitization, the opening / closing amount that the ventilation window can be opened / closed without any problem is predicted from the opening / closing mechanism linked to the opening / closing control device 1 and the hinge structure of the ventilation window, and the rotation shaft 3b rotates according to the opening / closing amount. Calculate the corner. The fully closed cam 11 and the fully opened cam 12 are arranged based on the calculated rotation angle.
[0067]
In the present embodiment, the rotation shaft 3b is fully opened with respect to the convex portion 11a of the fully closed cam 11 because the ventilation window rotates from the fully closed state by approximately 3/4 turns clockwise in FIG. The convex portion 12a of the cam 12 is arranged at a position shifted approximately 3/4 turn clockwise in FIG. The closed safety cam 13 and the open safety cam 14 are arranged by fitting the projections 13d and 14d into the fitting holes 11d and 12d provided in the fully closed cam 11 and the fully opened cam 12.
[0068]
After the fully closed cam 11, the fully opened cam 12, the closed safety cam 13 and the open safety cam 14 are arranged, the fixing screw 15 is tightened to the base member 10, whereby the cam member 4 whose relative position has been adjusted is unitized.
[0069]
Subsequently, the unitized cam member 4 is attached to the opening / closing control device 1 on site. When the cam member 4 is attached, a ventilation window is installed in the greenhouse, and the opening / closing mechanism and the opening / closing control device 1 are installed in the ventilation window. Many of the greenhouse ventilation windows are opened upward and closed downward, and these ventilation windows are completely closed by their own weight during work. Thus, the unitized cam member 4 is attached to the rotating shaft 3b with the ventilation window closed. At the time of attachment, the convex portion 11a of the fully closed cam 11 is positioned above the rotating shaft 3b (upper side in FIG. 4), and the actuator 20c of the closing operation stop switch 5c is pushed upward (upper side in FIG. 4). After the adjustment, the set screw 16 of the cam member 4 is tightened. Since the closing operation stop switch 5c pressed by the actuator 20c is turned off (the state shown in FIG. 5B), the rotation of the motor 2 in the reverse direction is stopped, and the ventilation window is further forcibly closed and damaged. There is nothing.
[0070]
When the set screw 16 is tightened and the cam member 4 is fixed, the convex portion 12a of the fully-open cam 12 is automatically set at a position previously arranged in accordance with the opening / closing amount with respect to the convex portion 11a of the fully-closed cam 11. Be placed. Further, the convex portion 13a of the closing safety cam 13 that activates the malfunction prevention switch 5b is automatically arranged at a position delayed by about 10 degrees from the convex portion 11a of the fully closed cam 11 when the ventilation window is closed. . Further, the convex portion 14a of the opening safety cam 14 is automatically arranged at a position delayed by about 10 degrees from the convex portion 12a of the fully opened cam 12 when the ventilation window is opened, and the adjustment work is completed.
[0071]
Thus, in the cam member 4 of the present embodiment, if any one of the convex portions 11a to 14a of the cam member 4 is adjusted to an appropriate position and the cam member 4 is attached in a unitized state, 4 The two convex portions 11a to 14a are arranged at appropriate positions. Therefore, it is not necessary to separately adjust and attach a plurality of cam members as in the prior art. Therefore, since the adjustment work at the site is simplified, the installation cost can be sufficiently suppressed.
[0072]
Moreover, in the cam member 4 unitized by the fixed screw 15, the relative position of the convex portions 11a to 14a can be freely adjusted by loosening the fixed screw 15, so that the limit switch for the degree of opening and closing of the ventilation window The timing which operates 5 can be changed arbitrarily.
[0073]
For example, when adjusting the opening, in the state where the cam member 4 is attached to the rotating shaft 3b, one fixing screw 15 for fixing the fully opened cam 12 and the opened safety cam 14 is loosened, and the convex portions 12a, The position of 14a can be adjusted. At this time, the fully closed cam 11 and the closed safety cam 13 fixed to the opposite side via the base member 10 are kept fixed to the base member 10 by another fixing screw 15 and may be moved carelessly. Absent. Therefore, the adjustment work can be performed efficiently.
[0074]
Further, for example, when it is desired to change the operation timing of the malfunction prevention switch 5b with respect to the opening operation stop switch 5a, the projection 14b provided on the opening safety cam 14 is cut off with a pliers or the like, whereby the convex portion of the fully opening cam 12 The position of the convex portion 14a of the open safety cam 14 relative to 12a can be freely adjusted.
[0075]
Furthermore, when changing the opening / closing degree of the ventilation window in the greenhouse in which the plurality of opening / closing control devices 1 are installed, first, the cam member 4 is provided to the one opening / closing control device 1 while opening / closing the ventilation window. The relative positions of the projected portions 11a to 14a are adjusted. When the adjustment of one opening / closing control device 1 is completed, the convex portion 11a that has been adjusted using the scales (grooves 10e, 10f, 13e, 13f, 14e, 14f) provided on the outer edge of the cam member 4 is used. The relative position of ˜14a can be confirmed. The unadjusted cam member 4 may be adjusted so that the confirmed relative positions of the convex portions 11a to 14a are substantially the same, and the adjustment time of the second and subsequent opening / closing control devices 1 can be shortened.
[0076]
The present invention has been described above based on the embodiments. However, the present invention is not limited to the above-described embodiments, and various modifications and changes can be easily made without departing from the spirit of the present invention. Can be inferred.
[0077]
For example, in this embodiment, the four convex portions 11 a to 14 a provided on the cam member 4 are brought into contact with the normally closed (B contact) limit switch 5 to turn off the limit switch 5. Instead of the portions 11a to 14a, the cam member 4 may be partially provided with a recess, and the limit switch actuator may be dropped into the recess to turn off the normally open (A contact) limit switch. As a result, the limit switch 5 can be reliably operated even when the cam member 4 falls off for some reason.
[0078]
In this embodiment, the fully closed cam 11 and the closed safety cam 13, and the fully opened cam 12 and the opened safety cam 14 are separately connected and fixed to both sides of the base member 10 by using two fixing screws 15. However, the base member may be formed in a cylindrical shape, and the fully open cam, the fully closed cam, the open safety cam, and the closed safety cam may be provided in parallel on the outer edge of the base member. In this case, screw holes are screwed separately from the outer edges of the fully open cam, fully closed cam, open safety cam and closed safety cam to the inside, and fixing screws are screwed into the four screw holes. Combined and unitized.
[0079]
【The invention's effect】
Claim 1 To any of 5 According to the ventilating window opening / closing control device described above, the cam member full open cam, full close cam, open safety cam and closed safety cam (hereinafter, these four cams are referred to as each cam) are connected and fixed by fixing means. Thus, the unit can be unitized while adjusting the relative position of each cam in advance. Moreover, the attachment means which attaches the unitized cam member to a rotating shaft is provided. That is, since the cam member whose relative position of each cam is adjusted in advance can be attached to the rotating shaft in a united state, the cam member unitized with respect to one opening / closing control device at the site. It is only necessary to position and attach to the predetermined position. Therefore, unlike the prior art, there is no need to adjust each cam separately, and the work can be simplified. In addition, since the cams fixed by the fixing means are fixed so that their relative positions can be adjusted, the degree of opening and closing of the ventilation window can be adjusted by adjusting the relative position of the fully opened cam or the fully closed cam. The malfunction prevention switch is operated with respect to the opening operation stop switch or the closing operation stop switch by adjusting the relative position of the fully opening cam and the opening safety cam or the fully closing cam and the closing safety cam. There is an effect that the timing can be freely adjusted.
[0080]
Claim 1 According to the ventilation window opening and closing control device described , Mosquito The base member includes a base member attached to the rotating shaft, and each cam is fixed to the base member by at least two or more fixing means so that the relative position to the base member can be adjusted. Therefore, for example, the fully opened cam and the open safety cam for adjusting the opening degree are fixed by one fixing means, and the fully closed cam and the closed safety cam for adjusting the closing degree are fixed by other fixing means. be able to. Therefore, since the other cam is not moved when adjusting one of the opening degree or the closing degree, there is an effect that the adjustment work can be efficiently advanced.
[0081]
Claim 2 According to the ventilation window opening and closing control device described ,all Since the open cam and the open safety cam, or the fully closed cam and the closed safety cam are held in a state of being connected at a predetermined relative position by the position holding means, the opening operation stop switch or the closing operation stop switch is operated. On the other hand, there is an effect that the opening degree or the closing degree of the ventilation window can be adjusted without changing the timing of operating the malfunction prevention switch.
[0082]
Claim 3 According to the ventilation window opening and closing control device described ,each Each cam has a convex portion projecting from the outer edge thereof, and the limit switch operates when the limit switch is pressed by the convex portion. Here, if the limit switch is not used for a long time, the follower for operating the switch may be fixed. However, since the convex portion of each cam presses the limit switch, the follower can be forcibly removed to operate the limit switch, so that the rotation of the motor can be stopped reliably. effective.
[0083]
Claim 4 According to the ventilation window opening and closing control device described , Mosquito On the outer edge of at least one of the parts constituting the drum member, scales that are engraved at equal intervals are provided. Therefore, there is an effect that the relative position of each cam can be easily adjusted based on the scale.
[0084]
Claim 5 According to the ventilation window opening and closing control device described , Solid The fixing means includes a fastening hole, a fixing screw screwed into the fastening hole, and an adjustment hole formed in each cam with an outer shape larger than the outer diameter of the fixing screw. Therefore, by loosening the fixing screw, each cam can be moved using a gap generated between the fixing screw and the adjustment hole, so that the relative position of each cam can be easily adjusted, There is an effect that each cam can be easily fixed by tightening the fixing screw.
[0085]
Claim 6 According to the described cam member, 5 There exists an effect that the cam member which show | plays the effect similar to the opening / closing control apparatus of the ventilation window in any one of these can be provided.
[Brief description of the drawings]
FIG. 1 is a front view of a ventilation window opening / closing control device according to the present invention.
FIG. 2 is an exploded perspective view of a cam member.
FIG. 3 is an enlarged front view showing a cam member and a limit switch.
FIG. 4 is a side view showing a cam member and a limit switch.
FIG. 5 is a circuit diagram showing connection of limit switches.
FIG. 6 is a cross-sectional view showing an open / close control device installed in a greenhouse.
[Explanation of symbols]
1 Open / close control device
2 Motor
3b Rotating shaft
4 Cam member
5 Limit switch
5a Open operation stop switch
5b Switch for malfunction prevention
5c Close operation stop switch
10 Base member
10b Screw hole (part of fixing means, fastening hole)
10c Screw hole (part of attachment means)
10e, 10f, 13e, 13f, 14e, 14f Groove (Scale)
11 Fully closed cam
12 Fully open cam
13 Closed safety cam
14 Open safety cam
11a-14a Convex part
11c-14c adjustment hole (a part of fixing means)
11d, 12d Mating hole
13d, 14d protrusion
15 Fixing screw (part of fixing means)
16 Set screw (part of attachment means)

Claims (6)

In a ventilation window opening / closing control device that includes a limit switch for stopping the motor, and a cam member that operates the limit switch, and adjusts the opening / closing degree of a ventilation window such as a greenhouse that is opened and closed by the motor.
The limit switch is an opening operation stop switch for stopping the rotation of the motor rotating in one direction,
A closing operation stop switch for stopping the rotation of the motor rotating in another direction;
A malfunction prevention switch for stopping the rotation of the motor when the closing operation stop switch and the opening operation stop switch do not operate,
The cam member is a plate cam-like fully open cam that operates the open operation stop switch when the motor rotates in one direction and the ventilation window reaches a predetermined opening degree;
A plate cam-like fully closed cam that operates the closing operation stop switch when the motor rotates in the other direction and the ventilation window reaches a predetermined closing degree;
A plate cam-shaped open safety cam that activates the malfunction prevention switch when the motor does not stop even if the ventilation window exceeds a predetermined opening;
A plate-cam-like closed safety cam that activates the malfunction prevention switch when the motor does not stop even if the ventilation window exceeds a predetermined closing degree;
A fixing means for fixing these fully open cams, fully closed cams, open safety cams, and closed safety cams so that their relative positions are adjustable and fixed;
Attachment means for attaching the fully open cam, the fully closed cam, the open safety cam, and the closed safety cam connected and fixed by the fixing means to the rotating shaft that rotates according to the degree of opening and closing of the ventilation window ;
A base member attached to the rotating shaft,
The fully open cam, the fully closed cam, the open safety cam and the closed safety cam are fixed to the base member by at least two fixing means so that the relative position to the base member is adjustable . Open / close control device. In a ventilation window opening / closing control device that includes a limit switch for stopping the motor, and a cam member that operates the limit switch, and adjusts the opening / closing degree of a ventilation window such as a greenhouse that is opened and closed by the motor.
The limit switch is an opening operation stop switch for stopping the rotation of the motor rotating in one direction,
A closing operation stop switch for stopping the rotation of the motor rotating in another direction;
A malfunction prevention switch for stopping the rotation of the motor when the closing operation stop switch and the opening operation stop switch do not operate,
The cam member is a plate cam-like fully open cam that operates the open operation stop switch when the motor rotates in one direction and the ventilation window reaches a predetermined opening degree;
A plate cam-like fully closed cam that operates the closing operation stop switch when the motor rotates in the other direction and the ventilation window reaches a predetermined closing degree;
A plate cam-shaped open safety cam that activates the malfunction prevention switch when the motor does not stop even if the ventilation window exceeds a predetermined opening;
A plate-cam-like closed safety cam that activates the malfunction prevention switch when the motor does not stop even if the ventilation window exceeds a predetermined closing degree;
A fixing means for fixing these fully open cams, fully closed cams, open safety cams, and closed safety cams so that their relative positions are adjustable and fixed;
Attachment means for attaching the fully open cam, the fully closed cam, the open safety cam, and the closed safety cam connected and fixed by the fixing means to the rotating shaft that rotates according to the degree of opening and closing of the ventilation window ;
Position holding means for holding the fully open cam and the open safety cam, or the fully closed cam and the closed safety cam in a connected state at a predetermined relative position;
The position holding means is provided on one surface of the facing surface where the fully opened cam and the open safety cam or the fully closed cam and the closed safety cam are connected to each other, and protrudes along the axial direction of the rotating shaft. A ventilating window opening / closing control device comprising: a projection formed on the other surface of the opposing surface; and a fitting hole formed so as to be fitted to the projection . In a ventilation window opening / closing control device that includes a limit switch for stopping the motor, and a cam member that operates the limit switch, and adjusts the opening / closing degree of a ventilation window such as a greenhouse that is opened and closed by the motor.
The limit switch is an opening operation stop switch for stopping the rotation of the motor rotating in one direction,
A closing operation stop switch for stopping the rotation of the motor rotating in another direction;
A malfunction prevention switch for stopping the rotation of the motor when the closing operation stop switch and the opening operation stop switch do not operate,
The cam member is a plate cam-like fully open cam that operates the open operation stop switch when the motor rotates in one direction and the ventilation window reaches a predetermined opening degree;
A plate cam-like fully closed cam that operates the closing operation stop switch when the motor rotates in the other direction and the ventilation window reaches a predetermined closing degree;
A plate cam-shaped open safety cam that activates the malfunction prevention switch when the motor does not stop even if the ventilation window exceeds a predetermined opening;
A plate-cam-like closed safety cam that activates the malfunction prevention switch when the motor does not stop even if the ventilation window exceeds a predetermined closing degree;
A fixing means for fixing these fully open cams, fully closed cams, open safety cams, and closed safety cams so that their relative positions are adjustable and fixed;
A fully-open cam, a fully-closed cam, an open safety cam, and a closed safety cam that are connected and fixed by the fixing means and attached to a rotating shaft that rotates according to the degree of opening and closing of the ventilation window. ,
The fully open cam, the fully closed cam, the open safety cam, and the closed safety cam of the cam member each have a convex portion protruding from the outer edge thereof,
The opening / closing control device for a ventilation window, wherein the limit switch is activated when the limit switch is stopped by the convex portion . In a ventilation window opening / closing control device that includes a limit switch for stopping the motor, and a cam member that operates the limit switch, and adjusts the opening / closing degree of a ventilation window such as a greenhouse that is opened and closed by the motor.
The limit switch is an opening operation stop switch for stopping the rotation of the motor rotating in one direction,
A closing operation stop switch for stopping the rotation of the motor rotating in another direction;
A malfunction prevention switch for stopping the rotation of the motor when the closing operation stop switch and the opening operation stop switch do not operate,
The cam member is a plate cam-like fully open cam that operates the open operation stop switch when the motor rotates in one direction and the ventilation window reaches a predetermined opening degree;
A plate cam-like fully closed cam that operates the closing operation stop switch when the motor rotates in the other direction and the ventilation window reaches a predetermined closing degree;
A plate cam-shaped open safety cam that activates the malfunction prevention switch when the motor does not stop even if the ventilation window exceeds a predetermined opening;
A plate-cam-like closed safety cam that activates the malfunction prevention switch when the motor does not stop even if the ventilation window exceeds a predetermined closing degree;
A fixing means for fixing these fully open cams, fully closed cams, open safety cams, and closed safety cams so that their relative positions are adjustable and fixed;
A fully-open cam, a fully-closed cam, an open safety cam, and a closed safety cam that are connected and fixed by the fixing means and attached to a rotating shaft that rotates according to the degree of opening and closing of the ventilation window. ,
An opening / closing control device for a ventilation window, characterized in that at least one part constituting the cam member is provided with a scale engraved at equal intervals . In a ventilation window opening / closing control device that includes a limit switch for stopping the motor, and a cam member that operates the limit switch, and adjusts the opening / closing degree of a ventilation window such as a greenhouse that is opened and closed by the motor.
The limit switch is an opening operation stop switch for stopping the rotation of the motor rotating in one direction,
A closing operation stop switch for stopping the rotation of the motor rotating in another direction;
A malfunction prevention switch for stopping the rotation of the motor when the closing operation stop switch and the opening operation stop switch do not operate,
The cam member is a plate cam-like fully open cam that operates the open operation stop switch when the motor rotates in one direction and the ventilation window reaches a predetermined opening degree;
A plate cam-like fully closed cam that operates the closing operation stop switch when the motor rotates in the other direction and the ventilation window reaches a predetermined closing degree;
A plate cam-shaped open safety cam that activates the malfunction prevention switch when the motor does not stop even if the ventilation window exceeds a predetermined opening;
A plate-cam-like closed safety cam that activates the malfunction prevention switch when the motor does not stop even if the ventilation window exceeds a predetermined closing degree;
A fixing means for fixing these fully open cams, fully closed cams, open safety cams, and closed safety cams so that their relative positions are adjustable and fixed;
A fully-open cam, a fully-closed cam, an open safety cam, and a closed safety cam that are connected and fixed by the fixing means and attached to a rotating shaft that rotates according to the degree of opening and closing of the ventilation window. ,
The fixing means includes a fastening hole provided in any one of the components of the cam member, a fixing screw screwed into the fastening hole, and the fixing screw penetrating through the outer diameter of the fixing screw. An opening / closing control device for a ventilation window, which has a large outer shape, and includes a fully open cam, a fully closed cam, an open safety cam, and an adjustment hole formed in the closed safety cam . Cam member, characterized in that in any one of claims 1 to 5 is intended for use in opening and closing control device of the ventilation window according.

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