JP5751930B2 - Ventilation equipment - Google Patents

Description

  The present invention relates to a ventilation device that can be switched between an automatic ventilation mode and a fixed ventilation mode.

Generally, this type of ventilation device has a device main body in which a ventilation passage that communicates the interior and the exterior is formed inside, as described in Patent Document 1 below. An operating member, a movable member, a first spring, and a second spring are provided inside the apparatus main body. An operation member is provided on a front surface portion facing the room of the apparatus main body.

When the operating member is positioned at the automatic ventilation mode position, the movable member is moved by the first and second springs according to the indoor or outdoor temperature, and the operating member associated with the movable member is moved between the open position and the closed position. It is displaced to any position in between. Accordingly, the ventilation device is automatically adjusted to any state between the open state and the closed state.

When the operating member is positioned in the fixed ventilation mode, the movable member is fixed in position, and the operating member is fixed in the open position or the closed position. Thereby, a ventilator is maintained in an open state or a closed state.

JP 2007-232253 A

  In the conventional ventilator, the first spring or the second spring may deteriorate over time, or the operation member may be worn and play may occur. In such a case, a deteriorated or worn part is replaced with a new part. However, in order to replace parts, the ventilator must be removed from the wall of the house, etc., and the ventilator must be disassembled in order to replace the parts. There was a problem that it took.

The present invention has been made in order to solve the above-described problem. The apparatus main body is provided with a ventilation passage that communicates the interior and the interior of the apparatus, the closed position for closing the ventilation passage in the apparatus main body, and the ventilation. An actuating member provided to be displaceable between an open position for opening the passage, and a device body is provided to be movable between a first position and a second position, and the first position from the first position is the first position. When moved to position 2, the actuating member is displaced from the closed position to the open position, and when moved from the second position to the first position, the actuating member is displaced from the open position to the closed position. As described above, the movable member connected to the operating member, the first direction from the first position toward the second position, and the second direction from the second position toward the first position. Attached to either direction of 2 And a first spring made of a shape memory alloy whose urging force changes according to temperature, and a first spring that urges the movable member in either one of the first direction and the second direction. 2 and an operation member provided on the apparatus main body so as to be displaceable between an automatic ventilation mode position and a fixed ventilation mode position, and the operation member is located at the automatic ventilation mode position. The movable member is allowed to move between the first position and the second position, and when the movable member is in the fixed ventilation mode position, the movable member is moved to the first position and the second position. In the ventilation device that is fixed at any one of the positions, a housing portion that is open toward the room is formed in the device body, and a casing is detachably mounted from the room to the housing portion. Inside the casing The movable member, the first spring, the second spring, and the operation member are provided, and a part of the movable member is protruded from the casing into the apparatus main body, and then to the apparatus main body of the casing. At the time of installation from the inside, a part of the movable member protruding from the casing into the apparatus main body is detachably connected to the operating member.
In this case, it is desirable that the inside of the casing is communicated with either the room or the outside and is blocked with respect to the other.

  According to the present invention having the above-described configuration, the first and second springs that deteriorate over time and the operating member that wears are incorporated in the casing. Therefore, when they are replaced, it is only necessary to remove the casing from the apparatus main body. Often, it is not necessary to remove or disassemble the device body from the wall of the house. Therefore, the labor required for maintenance and inspection of the ventilation device can be greatly reduced. In addition, since a part of the movable member protruding from the casing can be engaged with the operating member so that it can be inserted and removed from the room, the movable member is engaged with the operating member at the same time that the casing is mounted on the housing portion of the apparatus main body. Can be made. Thereby, the 1st spring, the 2nd spring, the movable member, and the operation member were integrated in the casing, and it was united.

FIG. 1 is a partially omitted vertical sectional view of a double window in which a first embodiment of a ventilating apparatus according to the present invention is adopted. FIG. 2 is a view taken in the direction of the arrow X in FIG. FIG. 3 shows the embodiment in the state where the operation member is located at the automatic ventilation mode position and the operation plate is located at an intermediate position between the closed position and the open position, along the line XX in FIG. It is sectional drawing. FIG. 4 is a cross-sectional view similar to FIG. 3 showing the embodiment in a state where the operation member is located at the automatic ventilation mode position and the operation plate is located at the closed position. FIG. 5 is a cross-sectional view similar to FIG. 3 showing the embodiment in a state where the operation member is located at the automatic ventilation mode position and the operation plate is located at the open position. FIG. 6 is a cross-sectional view similar to FIG. 3 showing the embodiment in a state where the operation member is positioned at the fixed open mode position. FIG. 7 is a cross-sectional view similar to FIG. 3, showing the embodiment in a state where the operation member is located at the fixed closed mode position. 8 is a cross-sectional view taken along line XX in FIG. 9 is a cross-sectional view taken along line YY of FIG. FIG. 10 is an exploded perspective view in which a part of the embodiment is omitted. FIG. 11 is a diagram showing a control unit used in the embodiment, in which FIG. 11 (A) is a front view thereof, FIG. 11 (B) is a plan view thereof, and FIG. 11 (C) is a left side view thereof. 11D is a right side view thereof, and FIG. 11E is a cross-sectional view taken along line EE of FIG. 11B. FIG. 12 is a cross-sectional view similar to FIG. 8 showing the filter unit removed from the apparatus main body. FIG. 13 is a cross-sectional view similar to FIG. 8, showing the filter unit and the control unit removed from the apparatus main body. FIG. 14 is a partially omitted front view showing the apparatus main body of the same embodiment. It is. FIG. 15 is a cross-sectional view similar to FIG. 8 for explaining a method of mounting the control unit on the apparatus main body of the same embodiment. It is sectional drawing similar to FIG. 3 which shows 2nd Embodiment of the ventilation apparatus which concerns on this invention. It is sectional drawing similar to FIG. 4 which shows the same embodiment. It is sectional drawing similar to FIG. 5 which shows the same embodiment. 19 is a cross-sectional view taken along line XX in FIG. 20 is a cross-sectional view taken along line XX of FIG. FIG. 21 is a sectional view taken along line XX in FIG.

The best mode for carrying out the present invention will be described below with reference to the drawings.
1 to 15 show a first embodiment of the present invention. In this embodiment, as shown in FIG. 1, a ventilator 1 according to the present invention is attached to a double window of a house. Therefore, first, the double window of the house will be described. The side wall W of the house is provided with an opening W1. The sliding doors S1 and S2 are provided at the end of the opening W1 on the outdoor O side, and a screen door R is provided outside thereof. On the other hand, a pair of left and right vertical rods (not shown) are provided at the left and right ends of the opening at the end of the opening W1 on the room I side. An upper rod K1 and a lower rod K2 are provided between the upper and lower ends of the pair of vertical rods, respectively. A ventilation device 1 according to the present invention is attached to the lower surface of the upper rod K1. The ventilator 1 is horizontally arranged with its longitudinal direction facing the left-right direction, and extends from one downspout to the other downspout. Sliding shojis S3 and S4 are provided in a rectangular space surrounded by a pair of left and right vertical gutters, a ventilator 1 and a lower gutter K2. In addition, you may arrange | position the ventilation apparatus 1 toward the up-down direction, without arrange | positioning the longitudinal direction in the horizontal direction.

The sliding screens S1, S2 and the sliding screens S3, S4 are separated from each other by a predetermined distance in the indoor and outdoor directions, and a space S is formed between them. The ventilation device 1 ventilates the air between the space S and the room I. However, the space S communicates with the outdoor O by another ventilator (not shown) different from the ventilator 1. Therefore, here, the space S is also regarded as a part of the outdoor, and the ventilation device 1 ventilates through the room I, the outdoor O, and the space S. When the ventilation device 1 is provided in a normal single window, the ventilation device 1 directly ventilates the room I and the outdoor O. In addition, the other ventilation apparatus which ventilates between the space S and the outdoor O is provided in the shoji S1 or S2, for example, or is provided up and down along either the left or right edge part of the inner surface of the opening part W1. .

  Next, the ventilation apparatus 1 which concerns on this invention is demonstrated. As shown in FIGS. 2 to 10, the ventilation device 1 includes a device main body 2, an operation member 3, and a control unit 4 as main components.

  The apparatus main body 2 includes a main body 21 and two end plates 22 and 22. The main body 21 is formed by combining a plurality of aluminum molds, and is formed in a rectangular tube shape having a substantially rectangular cross section. Both end openings in the longitudinal direction of the main body 21 are closed by end plates 22 and 22. In this way, the apparatus main body 2 is configured.

The apparatus main body 2 is arranged with its longitudinal direction facing the left-right direction. The left and right ends of the apparatus main body 2 are supported by left and right vertical hooks, respectively, and the upper end is supported by the upper hook K1. Sealing members 23 made of an elastic material are provided on both left and right end surfaces and the upper surface of the apparatus main body 2. The seal member 23 is pressed against the left and right vertical rods and the upper rod K1, so that the space between the apparatus main body 2 and the left and right vertical rods and the upper rod K1 is hermetically sealed.

  As shown in FIGS. 2 to 7, 12, and 13, the outer wall portion 21 a that faces the space S of the main body portion 21 is formed with a large number of outer ventilation holes 21 b that penetrate through the outer wall portion 21 in the indoor / outdoor direction. Each ventilation hole 21b is formed as a long hole that is long in the vertical direction, and is arranged at regular intervals in the left-right direction. An opening 21c is formed in a portion of the main body 21 facing the room I. The opening 21 c is formed over the entire length of the main body 21. A partition wall 21 d is formed inside the main body 21. The partition 21d divides the interior of the main body 21 into an outdoor O side portion and an indoor I side portion. A large number of inner ventilation holes 21e are formed in the partition wall 21d so as to penetrate the partition wall 21d in the indoor / outdoor direction. Each ventilation hole 21e is formed as a long hole that is long in the vertical direction, and is arranged at regular intervals in the left-right direction. The space S (outdoor O) and the room I communicate with each other by the outer ventilation hole 21b, the internal space of the main body 21, the inner ventilation hole 21d, and the opening 21c. As is clear from this, a ventilation passage 24 that connects the outdoor O and the room I is constituted by the outer ventilation hole 21b, the internal space of the main body 21, the inner ventilation hole 21d, and the opening 21c.

  An operation plate (operation member) 3 is provided inside the apparatus main body 2. The operation plate 3 is brought into contact with the surface of the partition wall 21d facing the room I. Moreover, the operation plate 3 is provided in the apparatus main body 2 so as to be movable in the left-right direction. The movement range of the operating plate 3 is restricted between the closed position shown in FIGS. 4 and 6 and the open position shown in FIGS. 5 and 7. A configuration for restricting the movement range of the operation plate 3 between the closed position and the open position will be described later.

  A large number of through holes 31 are formed in the working plate 3 so as to penetrate the working plate 3 in the indoor and outdoor directions. Each through-hole 31 is formed as a long hole that is long in the vertical direction, and is arranged at regular intervals in the left-right direction. As shown in FIGS. 4 and 6, each through hole 31 is separated in the left-right direction with respect to the ventilation hole 21 e when the operation plate 3 is located at the closed position. Then, the substantial part of the action | operation board 3 located between the through-holes 31 and 31 covers the ventilation hole 21e from the room I side. As a result, the ventilation passage 24 is closed and the ventilation device 1 is closed. When the ventilation device 1 is closed, the space S and the room I are blocked by the ventilation device 1. On the other hand, when the operation plate 3 is located at the open position, the entire through hole 31 faces the ventilation hole 21e. As a result, the ventilation passage 24 is opened and the ventilation device 1 is opened. When the ventilation device 1 is opened, the space S and the room I communicate with each other through the ventilation passage 24 of the ventilation device 1. As shown in FIG. 3, when the operation plate 3 is positioned between the closed position and the open position, only the left and right portions of the through hole 31 are opposed to and communicated with the ventilation hole 21e. As a result, the ventilation passage 24 is in a half-open state, and consequently the ventilation device 1 is in a half-open state. The opening degree of the ventilation passage 24 at the time of half-opening changes according to the position of the operation plate 3 in the left-right direction.

  As shown in FIGS. 14 and 15, a housing portion 25 is formed at the right end of the apparatus main body 2 in FIGS. 3 to 7. That is, a hole 21f is formed in the partition wall 21d by cutting out a portion having a predetermined length from the right end thereof over its entire width (full width in the vertical direction). The housing portion 25 is configured by the hole 21f and the right end portion of the opening 21c adjacent thereto. A first engagement portion 21 g is formed on the right end surface of the apparatus main body 2 facing the housing portion 25. The right end portion facing the hole 21f of the partition wall 21d is the second engaging portion 21h.

  The accommodation unit 25 accommodates the control unit 4 so that it can be inserted and removed from the room I side. The control unit 4 is for controlling the position of the operation plate 3. When the control unit 4 is set to the automatic ventilation mode, the position of the operation plate 3 is automatically controlled according to the temperature of the room I. Further, when the control unit 4 is set to the fixed closed mode (fixed ventilation mode), the operation plate 3 is fixed at the closed position, and the ventilation device 1 is maintained in the closed state. When the control unit 10 is set to the fixed open mode (fixed ventilation mode), the operation plate 3 is fixed at the open position, and the ventilator 1 is maintained in the open state. The control unit 4 is provided at the right end of the apparatus main body 2 in correspondence with the housing 25 being formed at the right end of the apparatus main body 2. 2 may be provided at the left end portion or at the center portion.

  The control unit 4 having the above function will be described. The control unit 4 has a casing 41. The casing 41 is formed in a hollow rectangular parallelepiped shape by integrally fixing two members made of hard resin with screws or other fixing means. The two members can be separated even after being fixed. By separating the two members from each other, a movable member 42, a first spring 43, a second spring 44, a receiving member 46, and an operation member, which will be described later, in the casing 41. 47 can be accommodated or replaced.

  The casing 41 is disposed with its longitudinal direction oriented in the horizontal direction, and is inserted into the accommodating portion 25 so as to be removable from the room I. Of course, the end of the outdoor side of the casing 41 is inserted into the hole 21f of the housing part 25 so as to be detachable from the room I side. Here, the insertion portion of the casing 41 into the hole 21f has the same cross-sectional shape and dimensions as the hole 21f. Therefore, when the casing 41 is inserted into the accommodating portion 25, the hole 21f is closed. Therefore, in a state where the control unit 4 is housed in the housing portion 25, the room I and the space S (outdoor O) do not communicate with each other through the hole 21f. The room I and the room O communicate with each other only through the inner ventilation hole 21e of the partition wall 21d.

As shown in FIG. 3 to FIG. 7 and FIG. 11, first and second engagement pieces 41 a and 41 b are formed on both left and right ends of the casing 41, respectively. First and second engagement pieces 41a, 41b is elastically deformable, when inserted into the receiving portion 25 of the casing 41 from the indoor I, strikes thrust the first and second engagement portions 21g, to 21h, respectively. And it elastically deforms with the insertion of the casing 41. When the casing 41 is inserted into the housing portion 25 to a predetermined mounting position, the first and second engaging pieces 41a and 41b are elastically restored and deformed to engage with the first and second engaging portions 21g and 21h, respectively. . As a result, the casing 41 is attached to the accommodating portion 25 in a fixed position with a predetermined amount of force. Of course, when a force of a predetermined magnitude or more is applied to the casing 41 toward the room I side, the first and second engagement pieces 41a and 41b are elastically deformed, and the first and second engagement pieces 41a and 41b. And the first and second engagement portions 21g and 21h are released from the respective engagement states. Therefore, the casing 41 can be extracted from the housing portion 25 toward the room I.

  As shown in FIGS. 3 to 7, a movable member 42 is provided inside the casing 41. The movable member 42 has a rod shape, and is arranged with its longitudinal direction oriented in the same direction as the longitudinal direction of the casing 41. The movable member 42 is movable in the longitudinal direction (left-right direction) with respect to the casing 41. The moving range of the movable member 42 is restricted between the first position shown in FIGS. 4 and 6 and the second position shown in FIGS. 5 and 7. The first position of the movable member 42 is determined by the right end surface of the movable member 42 abutting against the right end surface inside the casing 41 as shown in FIGS. 4 and 6. The second position of the movable member 42 is determined by the step 42 a formed at the left end of the movable member 42 abutting against the left end surface inside the casing 41.

The movement range of the movable member 42 may be regulated by other methods. For example, while a shaft body is fixedly provided in the casing 41, a long hole extending in the longitudinal direction is formed in the movable member 42, and the shaft body is inserted into the long hole so as to be relatively movable in the longitudinal direction of the long hole. In this way, the position of the movable member 42 when the shaft body hits one end portion of the long hole is set as the first position, and the position of the movable member 42 when the shaft body hits the other end portion of the long hole. Can be the second position.

  The left end portion of the movable member 42 penetrates the left end wall of the casing 41 so as to be movable in the left-right direction and protrudes into the apparatus main body 2. A left end portion (a part of the movable member 42 protruding from the casing 41) 42b of the movable member 42 protruding from the casing 41 is opposed to a surface of the operation plate 3 facing the room I side. A protruding portion 42 c that protrudes toward the operating plate 3 is formed at the left end of the surface of the left end 42 b that faces the operating plate 3. The protruding portion 42c is inserted into the through hole 31 disposed on the rightmost side among the many through holes 31 formed in the operation plate 3 so as to be insertable / removable in the room direction and immovable in the left / right direction. The protrusion 42c does not necessarily need to be inserted into the rightmost through-hole 31 and may be inserted into the second and subsequent through-holes 31 from the right. Alternatively, a hole different from the through hole 31 may be formed as an engagement hole, and the protruding portion 42C may be inserted into the engagement hole so as to be detachable and immovable in the left-right direction. Since the protrusion 42c is inserted in the through-hole 31 so as not to move in the left-right direction, when the movable member 42 moves in the left-right direction, the operation plate 3 moves in the left-right direction together with the movable member 42. When the movable member 42 is positioned at the first position, the operating plate 3 is positioned at the closed position, and when the movable member 42 is positioned at the second position, the operating plate 3 is positioned at the open position. Thereby, the closed position and open position of the action | operation board 3 are defined.

  The projecting portion 42c is located at the same time as the casing 41 is inserted into the housing portion 25 from the indoor I side toward the outdoor O side by positioning the movable member 42 and the operating plate 3 at positions corresponding to each other. It can be inserted into the through hole 31. For example, the movable member 42 is positioned at the first position, and the operation plate 3 is positioned at the closed position. Alternatively, the movable member 42 is positioned at the second position, and the operation plate 3 is positioned at the open position. In this state, when the casing 41 is inserted into the accommodating portion 25 to a predetermined mounting position, the protruding portion 42 c is inserted into the through hole 31.

  A first spring 43 and a second spring 44 are accommodated in the casing 41. The first and second springs 43 and 44 are arranged with the longitudinal direction thereof in the same direction as the longitudinal direction of the casing 41. The first spring 43 is disposed on the indoor I side from the movable member 42, and the second spring 43 is disposed on the outdoor O side from the movable member 42. The first spring 43 may be disposed on the outdoor side of the movable member 42, and the second spring 44 may be disposed on the indoor side of the movable member 43. Alternatively, the first and second springs 43 and 44 may be arranged on the same side with respect to the movable member 42. In this case, it may be arranged on either the indoor I side or the outdoor O side.

  The first spring 43 has a left end connected to the casing 41 and a right end connected to the movable member 42. The first spring 43 biases the movable member 42 toward the casing 41 in the direction from the first position to the second position (one direction), that is, to the left in FIG. On the other hand, the second spring 44 has a left end connected to the movable member 43 and a right end connected to the casing 41 via a pin 45. The second spring 44 biases the movable member 42 toward the casing 41 in the direction from the second position to the first position (the other direction), that is, in the right direction in FIG. As long as the urging direction of the first spring and the urging direction of the second spring 44 with respect to the movable member 42 are opposite to each other, they may be opposite to those of this embodiment.

Since the urging directions of the first and second springs 43 and 44 with respect to the movable member 42 are opposite to each other, the movable member 42 urges the urging force of the first spring 43 against the movable member 42 and the second spring 44. It is moved to a position where the biasing force is balanced. Here, the second spring 44 is made of steel. Therefore, the urging force of the second spring 44 against the movable member 42 is constant in a normal temperature range, for example, a range of about 10 ° C. to 50 ° C. below zero. On the other hand, the first spring 43 is made of a shape memory alloy, and the urging force increases linearly as the temperature rises in the normal temperature range as described above. Therefore, when the air temperature changes, particularly in this embodiment, when the air temperature in the room I changes, the urging force of the first spring 43 changes, and the movable member 42 is moved correspondingly in the left-right direction. For example, when the room temperature is 20 ° C., the movable member 42 is moved to a substantially central position between the first position and the second position, and when the room temperature becomes 10 ° C. or less, the movable member 42 moves to the first position. When the room temperature reaches 30 ° C. or higher, it is moved to the second position.

  The urging force of the second spring 44 against the movable member 42 can be adjusted as appropriate by changing the position of the pin 45. In the ventilation device 1, a plurality of holes 41 c into which the pins 45 are inserted and fixed are formed in the casing 41, and the holes 41 c are arranged apart from each other in the longitudinal direction of the casing 41. Therefore, the urging force of the second spring 44 against the movable member 42 can be changed by appropriately selecting the hole 41c into which the pin 45 is inserted. When the urging force of the second spring 44 changes, the balance of the urging force of the first and second springs 43 and 44 with respect to the movable member 42 changes accordingly. As a result, each temperature when the movable member 42 is located at the closed position, the intermediate position, and the open position changes.

  A window hole 41d is formed in the front wall portion of the casing 41 facing the room I. The air in the room I flows into the casing 41 from the window hole 41d, and the temperature in the casing 41 becomes almost the same as that in the room I. Thereby, the urging force of the first spring 43 is changed according to the temperature in the room I. The biasing force of the first spring 43 may be changed according to the temperature in the space S. In that case, while closing the window hole 41d, a window hole instead of the window hole 41d is formed in the wall portion of the casing 41 located on the space S side from the end plate 22, and the air in the space S is introduced into the casing 41. do it. When introducing the air in the space S into the casing 41, it is desirable to dispose the first spring 43 on the outdoor O side from the movable member 42.

  When the position of the movable member 42 changes, the position of the operation plate 3 changes between the closed position and the open position following the change. As a result, the opening degree of the ventilator 1 automatically changes corresponding to the room temperature. When the mode in which the opening degree of the ventilator 1 automatically changes according to the room temperature (air temperature) is referred to as an automatic ventilation mode, the ventilator 1 has a fixed closed mode (fixed ventilation mode) in addition to the automatic ventilation mode. ) And fixed open mode (fixed ventilation mode) can be selected. The mode is selected manually as follows.

  That is, as shown in FIGS. 3 to 7, the spring receiver 46 and the operation member 47 are accommodated in the right end portion inside the casing 41. The spring receiver 46 is pressed against the space S side portion of the inner surface of the casing 41 so as to be slidable in the longitudinal direction of the casing 41. On the other hand, the operation member 47 has a cylindrical main body 47a that is open on the space S side. Inside the main body 47a, the end of the spring receiver 46 on the room I side is fitted so as not to move in the left-right direction. Therefore, the operation member 47 and the spring receiver 46 move integrally in the longitudinal direction of the casing 41. Further, a spring receiver 46 is fitted to the main body 47a so as to be slidable indoors and outdoors. Therefore, the operation member 47 is movable in the indoor / outdoor direction with respect to the spring receiver 46.

  A long hole 42 d is formed at the right end of the movable member 42. The long hole 42 d penetrates the movable member 42 in the indoor / outdoor direction and extends in the longitudinal direction of the casing 41. The main body 47a of the operation member 47 is inserted into the elongated hole 42d so as to be movable in the longitudinal direction of the casing 47.

When the operation member 47 moves to the right (first direction) in FIG. 3 and the main body 47a hits the right end of the long hole 42d, the movable member 42 moves to the right together with the operation member 47. To do. As shown in FIG. 6, when the movable member 42 reaches the first position and hits the right inner end surface of the casing 41, the movable member 42 can no longer move to the right, and the operation member 47 also moves to the right. It becomes impossible to move to. The position of the operating member 47 at this time is the fixed closed mode position. When the operation member 47 is located at the fixed closed mode position, the movable member 42 is fixed at the first position, and the operation plate 3 is fixed at the closed position. As a result, the ventilation device 1 is maintained in the closed state. The mode of the ventilation device 1 at this time is the fixed closed mode.

When the operation member 47 moves to the left (second direction) in FIG. 3 and the main body 47a hits the left end of the long hole 42d, the movable member 42 moves to the left together with the operation member 47. To do. As shown in FIG. 7 , when the movable member 42 reaches the second position and hits the left inner end surface of the casing 41, the movable member 42 can no longer move to the left, and the operation member 47 also moves to the left. It becomes impossible to move to. The position of the operation member 47 at this time is the fixed open mode position. When the operation member 47 is located at the fixed open mode position, the movable member 42 is fixed at the second position, and the operation plate is fixed at the open position. As a result, the ventilation device 1 is maintained in the open state. The mode of the ventilation device 1 at this time is the fixed open mode.

  The central position between the fixed closed mode position and the fixed open mode position is the automatic ventilation mode position of the operation member 47. As shown in FIG. 3, when the operation member 47 is positioned at the automatic ventilation mode position, the movable member 42 is longer than the operation member 47 in the longitudinal direction of the casing 41 by the difference between the length of the long hole 42 d and the size of the main body 47 a. It becomes possible to move to. As shown in FIG. 4, when the movable member 42 moves to the right and the left end surface of the long hole 42d hits the main body 47a, the movable member 42 cannot move to the right with respect to the operation member 47. . At this time, the movable member 42 substantially abuts against the right inner end surface of the casing 41 and is located at the first position. As shown in FIG. 5, when the movable member 42 moves to the left and hits the right end surface of the long hole 42 d, the movable member cannot move to the left with respect to the operation member 47. At this time, the movable member 42 abuts against the right inner end surface of the casing 41 and is located at the second position. As described above, when the operation member 47 is positioned at the automatic ventilation mode position, the movable member 42 can move between the first position and the second position, and the first and second springs 43 and 44 can be moved. Thus, the movable member 42 is automatically moved between the first position and the second position in accordance with the temperature in the room I. Then, the operation plate 3 follows the movement of the movable portion 42 and moves between the closed position and the open position. As a result, the opening degree of the ventilation device 1 is automatically adjusted between the closed state and the open state.

  An operation hole 41 e is formed at the right end of the wall portion facing the room I of the casing 41. The main body 47a of the operation member 47 is inserted into the operation hole 41e. The operation hole 41 e is formed as a long hole extending in the longitudinal direction of the casing 41, and the length thereof is longer than the dimension of the main body portion 47 a in the longitudinal direction of the casing 41. Therefore, the operation member 47 is movable in the operation hole 41e in the longitudinal direction of the casing 41, and the operation hole 41e allows the operation member 47 to move between the fixed closed mode position and the fixed open mode position. It is long enough to do.

An operation projection 47b is formed on an end surface of the operation member 47 facing the room I from the operation hole 41e of the main body 47a. The operation member 47 can be moved in the left-right direction by grasping the operation protrusion 47 with a finger.

  Arm portions 47c and 47c projecting in the left-right direction are formed on the left and right sides of the main body 47a. Each arm portion 47 c is pressed against the inner surface of the casing 41 located on the room I side by an urging means 48 such as a compression coil spring provided between the spring receiver 46 and the operation member 47. An engagement protrusion 41f is formed on the inner surface of the casing 41 against which the arm portion 47c is pressed. On the other hand, first, second, and third engaging recesses 47d, 47e, and 47f are formed on the surface of the arm portion 47c facing the room I side. The first, second and third engaging recesses 47d and 47e are arranged apart from each other in the longitudinal direction of the casing 41.

As shown in FIG. 3, when the operation member 47 is positioned at the automatic ventilation mode position, the second engagement recesses 47e and 47e of the pair of arm portions 47c and 47c are engaged with the engagement protrusions 41f and 4f, respectively. As a result, the operation member 47 is fixed at the automatic ventilation mode position. The position fixing force with respect to the operation member 47 due to the engagement between the engagement protrusions 41f and 4f and the second engagement recesses 47e and 47e is at least larger than the maximum difference in the urging force between the first spring 43 and the second spring 44. . Therefore, when the operation member 47 is positioned at the automatic ventilation mode position, the operation member 47 does not move from the automatic ventilation mode position unless it is manually operated. This is the same when the operation member 47 is positioned at the fixed closed mode position or the fixed open mode position.

  As shown in FIG. 6, when the operation member 47 is positioned at the fixed closed mode position, the third engagement recess 47f of the left arm 47c is engaged with the engagement protrusion 41f, and the first arm 47c of the right arm 47c is engaged. The engaging recess 47d engages with the engaging protrusion 41f. As a result, the operating member 47 is maintained in the fixed closed mode position. As shown in FIG. 7, when the operation member 47 is positioned at the fixed open mode position, the first engagement recess 47d of the left arm 47c is engaged with the engagement protrusion 41f and the third arm 47c of the right arm 47c is engaged. The engaging recess 47f engages with the engaging protrusion 41f. As a result, the operation member 47 is maintained in the fixed open mode position.

  When the operating projection 47b is pushed to the outdoor O side and moved to the outdoor O side against the urging force of the urging means 48 until the operating member 47 abuts against the spring receiver 46, the first, second or third engaging recess 47d. , 47e, 47f and the engagement protrusion 41f are disengaged. By moving the operation member 47 in the left-right direction while maintaining this state, the operation member 47 can be moved to the automatic ventilation mode position, the fixed closed mode position, or the fixed open mode position.

  The filter unit 5 is detachably provided in the opening 21c of the apparatus main body 2. The filter unit 5 includes a support body 51 and a filter 52. The support 51 is made of a metal or hard resin plate, and is detachably attached to the opening 21c of the apparatus main body 2. Moreover, the support 51 covers not only the entire portion of the opening 21c except the right end where the control unit 4 is provided, but also covers the portion of the casing 41 of the control unit 4 in which the window hole 41d is formed. ing. A large number of through holes 51 a are formed in the support 51. The through holes 51 a are formed as long holes that are long in the vertical direction, and are arranged at predetermined intervals in the longitudinal direction of the support 51. Since the support body 51 covers the opening 21c, air always passes through the through hole 51a during ventilation.

  A filter 52 is detachably attached to the surface of the support 51 that faces the outdoor O side. The filter 52 covers all the through holes 51a. Accordingly, it is possible to prevent dust or the like in the outdoor O from entering the room I. The support body 51 and the filter 52 also cover the portion of the casing 41 where the window hole 41d is formed. This prevents the first spring 43 from being visually observed from the room I through the through hole 51a and the window hole 41d.

  In the ventilator 1 having the above-described configuration, when the first spring 43 made of, for example, a shape memory alloy deteriorates with time and needs to be replaced, the filter unit 5 is first removed from the apparatus body 2. Thereafter, the control unit 4 is extracted from the apparatus main body 2 to the room I side. The extracted control unit 4 is replaced with a new control unit 4. Alternatively, after removing the control unit 4 from the apparatus main body 2, the casing 41 is disassembled by separating the two members constituting the casing 41 from each other. Then, the first spring 43 is replaced with a new first spring 43. Thereafter, the two members of the casing 41 are assembled and fixed to constitute a new control unit 4. In any case, the taken-out control unit 4 is replaced with a new control unit 4, and the new control unit 4 is inserted into the accommodating portion 25 of the apparatus main body 2 from the room I. At this time, by setting the position of the operation plate 3 and the position of the movable member 42 in the longitudinal direction of the apparatus main body 2 (longitudinal direction of the casing 41) to correspond to each other, At the same time, the movable member 42 can be connected to the operation plate 3. Thereafter, by attaching the filter unit 5 to the apparatus main body 4, the replacement of the first spring 43 is completed. Such an operation is the same when the second spring 44 or the operation member 47 or the like needs to be replaced.

  As described above, since the movable member 42 can be connected to the operation plate 3 at the same time when the control unit 4 is mounted in the accommodating portion 25 of the apparatus main body 2, the movable member 42 and related components are provided. The first and second springs 43 and 44 and the operation member 47 that need to be replaced in a short period of time as compared with the constituent members of FIG. As a result, when the maintenance and inspection of the ventilation device 1 are performed, it is only necessary to remove the control unit 4 from the device main body 2 and replace the control unit 4 with a new control unit 4. The device main body 2 is removed from the side wall W of the house. There is no need to remove or disassemble. In particular, when replacing the entire control unit 4 with a new control unit 4, it is not necessary to disassemble and assemble the casing 41. Therefore, the labor required for the repair and inspection of the ventilation device 1 can be greatly reduced.

  Moreover, since the inside of the casing 41 is only communicated with the room I through the window hole 41d and is blocked from the outdoor O, only air in the room I enters the casing 41. , Outdoor O air does not enter. Therefore, the urging force of the first spring 43 is not affected by the temperature of the outdoor O and depends only on the temperature of the room I. Therefore, in the automatic ventilation mode, the opening degree of the ventilation device 1 can be accurately adjusted according to the temperature of the room I. This also applies to the case where the inside of the casing 41 is communicated only with the outdoor O and is shut off with respect to the indoor I. In that case, the opening degree of the ventilator 1 is accurately determined only corresponding to the temperature of the outdoor I. Can be adjusted.

  16 to 21 show a second embodiment of the ventilation device according to the present invention. In the ventilation device 1A of this embodiment, an operation plate 3A is used instead of the operation plate 3. The operation plate 3A not only moves in the left-right direction, but also opens and closes the inner ventilation hole 21e by rotation, thereby opening and closing the ventilation passage 24.

  That is, the operating plate 3A does not have the through hole 31 of the above-described embodiment, and the entire operating plate 3A is formed as a flat plate continuous in the longitudinal direction of the apparatus main body 2. The operating plate 3A is disposed on the space S (outdoor O) side with respect to the partition wall 21d. The upper end portion of the operating plate 3A is disposed so as to substantially contact the upper end portion of the partition wall 21d, and is supported by the apparatus main body 2 so as to be rotatable about an axis extending in the longitudinal direction. 3 A of actuating plates can rotate between the 1st rotation position shown in FIG. 17, and the 2nd rotation position shown in FIG.

  The lower end portion of the operating plate 3 </ b> A is engaged with a cam member 6 fixed to the apparatus main body 2. When the operating plate 3A moves to the right in FIGS. 16 to 18, the cam member 6 moves the lower end portion of the operating plate 3A so as to approach the partition wall 21d, and the operating plate 3A is counterclockwise in FIGS. Rotate direction. Further, when the operating plate 3A moves to the left in FIGS. 16 to 18, the cam member 6 moves the lower end portion of the operating plate 3A away from the partition wall 21d, and the operating plate 3A is moved in FIGS. Rotate clockwise.

Now, assuming that the operation member 47 is located at the automatic ventilation mode position, the movable member 42 can move between the first position shown in FIG. 17 and the second position shown in FIG. The operating plate 3A, which is connected to the movable member 42 so as to be immovable in the left-right direction, is movable between a first movement position shown in FIG. 17 and a second movement position shown in FIG.

When the movable member 42 moves to the right in FIGS. 16 to 18, the operation plate 3 </ b> A moves to the right following the movement. Then, the operating plate 3A is rotated by the cam member 6 so that the lower end portion of the operating plate 3A approaches the partition wall 21d. When the operating plate 3A reaches the first movement position shown in FIG. 17, the operating plate 3A is brought into contact with the partition wall 2d. The rotation position of the operation plate A at this time is the first rotation position. When the operation plate 3A is rotated to the first rotation position, the operation plate 3A in contact with the partition wall 2d closes the inner ventilation hole 21e. As a result, the ventilation passage 24 is closed and the ventilation device 1A is closed. As is clear from this, the operation plate 3A moves to the first movement position, and the position of the operation plate 3A when it is positioned at the first rotation position is the closed position.

  When the movable member 42 moves to the left in FIGS. 16 to 18, the operation plate 3 </ b> A moves to the left following the movement. Then, the operating plate 3A is rotated by the cam member 6 so that the lower end portion of the operating plate 3A is separated from the partition wall 21d. When the operating plate 3A reaches the second movement position shown in FIG. 18, the operating plate 3A is greatly separated from the partition wall 2d except for the upper end portion thereof, so that the inner ventilation hole 21e is opened and the ventilation passage 24 is opened. As a result, the ventilator 1A is opened. The rotation position of the operating plate 3A at this time is the second rotation position. The position of the actuation plate 3A when the actuation plate 3A moves to the second movement position and rotates to the second rotation position is the open position.

  When the air temperature in the room I is within a predetermined range, the operating plate 3A is displaced between the closed position and the open position. That is, the entire operation plate 3A moves in the left-right direction, and the operation plate 3A rotates around its upper end. Thereby, the opening degree of the ventilation channel | path 24 is adjusted, and by extension, the opening degree of 1 A of ventilation apparatuses is adjusted.

  When the operation member 47 is moved to the fixed closed mode position, the operation plate 3A is moved to the first movement position by the operation member 47 via the movable member 42 and is rotated to the first rotation position by the cam member 6. Thereby, 1 A of ventilation apparatuses are maintained in a closed state. When the operation member 47 is moved to the fixed opening mode position, the operation plate 3A is moved to the second movement position by the operation member 47 via the movable member 42 and is rotated to the second rotation position by the cam member 6. Thereby, 1 A of ventilation apparatuses are maintained in an open state.

  Since the operation plate 3A is disposed on the space S side from the partition wall 21d, the protruding portion 42c of the movable member 42 penetrates the partition wall 21d so as to be movable by a predetermined length in the left-right direction. That is, the movable member 42 penetrates the movable member 42 with a length that allows the movable member 42 to move between the first position and the second position. Further, the protruding length of the protruding portion 42c is determined so that the protruding portion 42c of the movable member 42 does not come off from the operating plate 3A when the operating plate 3A rotates away from the partition wall 21d.

In the ventilator 1A, when the movable member 42 is located at the first position, the movable member 42 is separated from the right inner end surface of the casing 41, and the movable member 42 is located at the second position. The stepped portion 42a is separated from the left inner end surface of the casing 41 when it is in position, but may be brought into contact with the right inner end surface and the left inner end surface of the casing 41, respectively, as in the above embodiment. Other configurations are the same as those in the above embodiment.

In addition, this invention is not limited to said embodiment, In the range which does not deviate from the summary, it can change suitably.
For example, in the above embodiment, the movable member 42 is directly connected to the operation plates 3 and 3A. However, the movable member 42 may be connected to the operation plates 3 and 3A via a swing link or the like. . In that case, when the control unit 4 is mounted on the apparatus main body 2, the movable member 42 is detachably engaged with the swing link from the room I side.
Further, the projecting portion 42c is formed on the movable member 42, and this projecting portion 42c is engaged with the through hole 31 of the actuating plates 3 and 3A. , 3A may be formed with a protrusion that engages with the recess or hole so as to be inserted into and removed from the room.
Further, in the above-described embodiment, the operation member 47 can be positioned as two fixed ventilation mode positions, that is, a fixed closed mode position and a fixed open mode position. It may be located only at one of the mode position and the fixed open mode position.

I Indoor O Outdoor 1 Ventilator 1 A Ventilator 2 Device body 3 Actuation plate (actuation member)
3A Actuating plate (actuating member)
4 Control unit 24 Ventilation passage 25 Housing part 41 Casing 42 Movable member 42b Left end of movable member (part of movable member protruding from casing)
43 1st spring 44 2nd spring 47 Operation member

Claims (6)

An apparatus main body in which a ventilation passage that communicates the inside and the outside is formed inside;
An operating member provided in the apparatus main body so as to be displaceable between a closed position for closing the ventilation passage and an open position for opening the ventilation passage;
The apparatus main body is provided so as to be movable between a first position and a second position. When the apparatus main body is moved from the first position to the second position, the operating member is displaced from the closed position to the open position. A movable member coupled to the actuating member so that the actuating member is displaced from the open position to the closed position when moving from the second position to the first position;
The movable member is urged in one of a first direction from the first position toward the second position and a second direction from the second position toward the first position. A first spring made of a shape memory alloy whose biasing force changes according to temperature;
A second spring for urging the movable member in either one of the first direction and the second direction;
The apparatus body includes an operation member provided to be displaceable between an automatic ventilation mode position and a fixed ventilation mode position,
The operation member is allowed to move between the first position and the second position when the operation member is located at the automatic ventilation mode position, and is located at the fixed ventilation mode position. In the ventilator for fixing the position of the movable member at any one of the first position and the second position,
A housing part opened toward the room is formed in the apparatus body, and a casing is detachably attached to the housing part from the room,
Inside the casing, the movable member, the first spring, the second spring, and the operation member are provided,
The operation member has an operation projection that protrudes indoors from the casing, and is maintained in the casing at the automatic ventilation mode position and the fixed ventilation mode position,
The apparatus main body has a partition wall at a position retracted in the outdoor direction from the end surface on the indoor side, and the partition wall is formed with a ventilation hole and a part of the ventilation passage,
The accommodating portion includes a part of the opening of the apparatus main body opened to the indoor side from the partition, and the hole of the partition.
The casing is inserted into the hole of the partition wall, protrudes from the partition wall to the indoor side and the outdoor side,
A part of the movable member is protruded from the casing to the other part of the opening of the apparatus main body, and when the casing is attached to the apparatus main body from the room, the opening of the apparatus main body is removed from the casing . A ventilator characterized in that a part of the movable member protruding to the other part is detachably connected to the operating member.   The ventilation apparatus according to claim 1, wherein the inside of the casing is communicated with either one of the room and the outside and is blocked with respect to the other. The apparatus main body and the opening extend linearly and elongate, the part of the opening constituting the housing part occupies one end in the longitudinal direction, and the part of the movable member is the length of the apparatus main body. Extending in the direction and projecting to the other part of the opening,
An elongated hole extending in the longitudinal direction of the apparatus main body is formed in the movable member, and the operation member is inserted into the elongated hole,
The operating member hits one end of the elongated hole at the fixed ventilation mode position, and the movable member is positioned at one of the first position and the second position, and the movable member is positioned at the one position. The ventilation apparatus according to claim 1, wherein the ventilation apparatus hits a casing. The fixed ventilation mode position includes two positions, a fixed closed mode position and a fixed open mode position, and the operation member hits one end of the elongated hole of the movable member in the fixed closed mode position, and the fixed ventilation mode position is in the fixed open mode position. When the movable member hits the other end of the elongated hole, the movable member has inner end surfaces at both ends in the longitudinal direction of the casing at the first position corresponding to the fixed closed mode position and the second position corresponding to the fixed open mode position. The ventilator according to claim 3, wherein each of the ventilators corresponds to the above. The ventilator according to claim 3 or 4, wherein the other part of the opening is covered with a filter unit detachably provided on the apparatus main body. The casing includes elastically deformable engagement pieces, and the casing is attached to the apparatus main body by elastically engaging the engagement pieces with an engagement portion formed on the apparatus main body. The ventilator according to any one of claims 1 to 5.

Images