JP3199136U - Cooling / heating fan - Google Patents

Abstract

An object of the present invention is to achieve the purpose of sending out cold air or hot air by controlling the movement of a heating element holder using a drive unit, and because the assembly process is simplified due to its simple structure, production The present invention provides a cooling / heating fan in which the efficiency of use and the control of the drive unit are more agile, so that the use performance of the cooling / heating fan can be improved. A slide rail including a casing, an air path unit, a blower opening, a heating element and a heating element holder is provided, and the casing is provided with a slide rail for supporting the heating element holder, and the heating element holder is provided at one end of the heating element holder. Is fixedly connected to a drive unit that drives the slider to move on the slide rail. [Selection] Figure 4

Description

  The present invention relates to the technical field of household fan devices, and more particularly to a fan that can be used for both cooling and heating.

  As the standard of living improves and the demands for the living environment increase, the types of products used continue to increase, and the demand for the practicality of products continues to increase. For example, the types of home appliances that have already been widely used are very diverse, including air conditioners, washing machines, dehumidifiers, and electric heaters. However, if many home appliances are accommodated in a limited indoor space, a more cramped feeling will arise in the indoor space that is not larger than the original. Therefore, in order to solve such a problem, the prior art provides a fan capable of integrating both functions of heating and cooling.

  For example, in Patent Document 1, rollers are mounted on both upper and lower sides of a heat generating member holder, first and second magnets and first and second reed switch sensors are mounted on both left and right sides, and two upper and lower portions are mounted on a blower opening of a housing. The guide is fixed, the roller is located in the guide and is slidable, the first reed switch sensor and the first magnet are engaged, the second reed switch sensor and the second magnet are engaged, heating and blowing The tower type fan for both ventilation and heating which switches the function of is disclosed. However, in this technical method, since it is necessary to realize function switching using two or more rollers, guides, magnets, reed switch sensors and the like at the same time, there are many members, the structure is complicated, and the assembly is complicated. Also, the engagement of the magnet and the reed switch sensor is easily affected by external factors, and the control becomes unstable, so the switching of the fan heating / fan function may not be smooth or may fail. .

Chinese Patent Publication No. CN102322428A

  In order to solve the technical problem that the conventional heating and air-blowing fan has a complicated structure and is complicated to assemble, and the function switching becomes unsmooth or breaks due to unstable control. The device provides a new cooling / heating fan.

  In order to achieve the above object, the present invention uses the following technical scheme. That is, a housing, an air path unit, an air outlet provided in the housing, a heating element that is mounted in the casing and is selectively arranged to face the air outlet, and a heating element holder that supports the heating element. A slide rail that supports the heating element holder is provided on the housing, and a drive unit that drives the heating element holder to reciprocate on the slide rail is fixedly connected to one end of the heating element holder. A fan for cooling and heating is provided.

  The drive unit includes a transmission member fixed to the heating element holder, a synchronous motor connected to the transmission member, and a first microswitch and a second microswitch provided at both ends of the slide rail, respectively.

  The air passage unit includes an air passage fixed to the casing, an air drum mounted in the air passage, and a motor connected to the air drum and coaxially connected to rotate the air drum.

  The slide rail is a slide plate extending upward, and a slide groove that engages with the slide plate is provided at the bottom of the heating element holder.

  The transmission member includes a rack connected to the heating element holder and a gear meshing with the rack, and the gear and the synchronous motor are connected coaxially.

  Slide rails are provided at both ends of the casing, and the first micro switch and the second micro switch are provided at both ends of the slide rail near the drive unit.

  The first micro switch and the second micro switch are each provided with a button on a surface facing the heating element holder.

  The first micro switch is provided at one end of the slide rail near the air outlet, and the second micro switch is provided at one end of the slide rail spaced from the air outlet.

  When the heating element holder moves to one end of the slide rail near the air blowing port, the heating element holder comes into contact with the button of the first micro switch, and the heating element becomes a position facing the air blowing port. When the body holder moves to one end of the slide rail that is separated from the air blowing port, the heating element holder comes into contact with the button of the second micro switch, and the heating element is located at a position away from the air blowing port.

  The heating element is a PTC heating element.

  By using the above technical scheme, the present invention can obtain the following beneficial technical effects. That is, by providing a slide rail for supporting the heating element holder in the housing and providing a driving unit connected to the heating element holder at one end of the heating element holder, the heating element holder can be slid on the slide rail. Become. Thereby, the object of selectively setting the heating element to a position facing the air blowing port and sending out cold air or hot air is achieved. Further, in the present invention, the movement of the heating element holder is controlled by using the synchronous motor and the transmission member of the drive unit, and the position of the heating element holder is detected by the micro switch of the drive unit to control the operation of the synchronous motor. Then, the heating element is selectively moved in and out of the position facing the air outlet. Further, since the assembly process is simplified due to the simple structure, the production efficiency is increased. Further, since the force required to press and release the micro switch is small and the switch is quickly turned on and off, the control performance is very agile, and the use performance of the cooling / heating fan is enhanced. As described above, the conventional heating / air-blowing fan has a complicated structure and is complicated to assemble, and the technical problem that the function switching becomes unsmooth or breaks due to unstable control is solved. .

  The present invention will be further described below in combination with the drawings and examples.

FIG. 1 is a view showing a three-dimensional structure of a cooling / heating fan according to the present invention. FIG. 2 is a view showing a three-dimensional structure of the cooling / heating fan according to the present invention in a direction different from that of FIG. FIG. 3 is an exploded view of the cooling / heating fan according to the present invention. FIG. 4 is a view showing a structure in which the casing of the cooling / heating fan according to the present invention is partially removed. FIG. 5 is a view showing the structure of the microswitch according to the present invention. FIG. 6A is a structural diagram showing a state of the cooling / heating fan according to the present invention when the cool air is delivered. FIG. 6B is a cross-sectional view of FIG. FIG. 7A is a structural diagram showing the state of the cooling / heating fan according to the present invention when warm air is delivered. FIG. 7B is a cross-sectional view of FIG.

  In order to solve the technical problem that the conventional heating and air-blowing fan has a complicated structure and is complicated to assemble, and the function switching becomes unsmooth or breaks due to unstable control. In the main technical scheme used by the device, a slide rail for supporting the heating element holder is provided in the housing, and a driving unit connected to the heating element holder is provided at one end of the heating element holder. In the drive unit, the heating element holder is moved on the slide rail by driving the transmission member to move using a synchronous motor. Micro switches are provided at both ends of the slide rail, and when the heating element holder moves to one end of the slide rail, it contacts the micro switch. When the button of the micro switch is touched, the synchronous motor is triggered to stop the operation of the synchronous motor. If function switching is required, start the synchronous motor and rotate it in the opposite direction, so that the heating element holder contacts the micro switch on the other end and contacts the button on the micro switch, and the synchronous motor operates. Move to the other end of the slide rail until it stops. By including a microswitch, a synchronous motor, and a drive unit for transmission members, the heating element can be selectively moved in and out of the position facing the air outlet, so the purpose of selectively sending out cold air or hot air Is achieved.

  Hereinafter, the technical scheme of the present invention will be described in detail in combination with specific embodiments.

  1 and 2 are views showing three-dimensional structures in different directions of the cooling / heating fan according to the present invention, respectively. From the drawing, it can be seen that the cooling / heating fan includes the casing 1, the air path unit 100, and the air blowing port 40 provided in the casing 1. The air path unit 100 includes an air path 10 provided in the housing 1, an air drum 20 mounted in the air path 10, and a motor 30 that is connected coaxially with the air drum 20 and rotates the air drum 20.

  FIG. 3 is a diagram illustrating an exploded structure of the cooling / heating fan according to the embodiment of the present invention. The housing 1 of this embodiment is composed of both upper housing 11 and lower housing 12. The air passage 10 is provided in the upper housing 11 and may be fixed to the upper housing 11 with screws, engaging claws or the like, or may be integrally formed with the upper housing 11. The air drum 20 is mounted in the air passage 10 and has a substantially cylindrical shape. The cylindrical main body is provided with a plurality of fixed blades and is used for generating wind when the air drum 20 rotates. The two circular end surfaces of the air drum 20 are provided with a fixed shaft 21 that extends and can be inserted into the fixed hole of the air passage 10, and a shaft hole that is joined to the fixed shaft 31 of the motor 30. When the air drum 20 is mounted on the air passage by the fixed shaft 21, the cylindrical main body can be rotated under the drive of the motor 30. The air blowing port 40 is provided in the lower housing 12. In order to make the entire fan look better, in this embodiment, a cover plate 90 that covers the air outlet 40 is further provided. The cover plate 90 is formed with a grid for blowing air, but the grid may be a rectangle or a rhombus according to the taste of the customer.

  FIG. 4 is a view showing a structure in which the casing of the cooling / heating fan according to the embodiment of the present invention is partially removed. In combination with FIG. 3, it can be seen that a heating element 50 and a heating element holder 60 that supports the heating element 50 are provided in the housing 1. Specifically, the heating element holder 60 to which the heating element 50 is fixed is located between the air passage 10 and the air blowing port 40. The heating element 50 is fixed to the heating element holder 60 with a holder, a screw or the like. The heating element holder 60 is further provided with a heating element pressure plate 61 that covers the connection line of the heating element 50. For example, the power line connected to the heating element 50 is covered under the heating element pressure plate 61 so as to eliminate confusion in wiring and increase the orderliness of the entire structure. The heating element pressure plate 61 can be fixed to the heating element holder 60 with a fixture. In the present embodiment, it is preferable that the heating element 50 is a PTC heating element that has both adhesiveness and mechanical advantages, is excellent in heat conduction and heat dissipation performance, and is highly efficient, safe, and highly reliable. Further, the heating element holder 60 is preferably made of a material that has good insulation and is difficult to conduct heat.

  The housing 1 is provided with a slide rail 70 that supports the heating element holder 60 in order to make the heating element holder 60 move more smoothly. In the present embodiment, in order to enable the heating element holder 60 to move reliably on the slide rail 70, slide rails are provided at both ends of the lower housing 12, and the slide rail 70 is joined to the bottom of the heating element holder 60. It is preferable to provide a slide groove. In the present embodiment, the slide rail 70 is a slide plate extending upward, and it is preferable to facilitate the movement of the heating element holder 60 with a simple structure.

  One end of the heating element holder 60 is connected to the heating element holder 60 and is provided with a drive unit 80 that reciprocates the heating element holder 60 on the slide rail 70. In order to make the fan structure more balanced, in this embodiment, it is preferable to provide the drive unit 80 at the other end of the housing 1 opposite to the end where the motor 30 is provided. The drive unit 80 includes a transmission member 81 fixedly connected to the heating element holder 60, a synchronous motor 82 connected to the transmission member 81, and at least two micro switches 83 and 84 provided at both ends of the slide rail 70, respectively. The transmission member 81 includes a rack 811 and a gear 812 that meshes with the rack 811. The rack 811 is provided with a through hole 8111 for being fixedly connected to the heating element holder 60 and the rack 811 by being coupled to the positioning tool 62 protruding on the heating element holder 60. The gear 812 is connected coaxially to the synchronous motor 82 provided in the lower housing 12. Preferably, the synchronous motor 82 is fixed to the synchronous motor holder 85 on the lower housing 12. The micro switches 83 and 84 are provided at both ends of the slide rail 70. In order to explain the problem more clearly, here, the two micro switches are referred to as a first micro switch 83 and a second micro switch 84, respectively. The first micro switch 83 is provided at one end of the slide rail 70 near the air outlet 40, and the second micro switch 84 is provided at one end of the slide rail 70 separated from the air outlet 40.

  FIG. 5 is a diagram showing the structure of the microswitch 83. Hereinafter, the operation principle of the microswitch will be described using the microswitch 83 as an example. A touch button 831 is provided outside the micro switch 83. When the button 831 is pressed by external contact, the spring 832 is compressed and the elastic piece 837 moves downward, and the dynamic contact 833 and the static contact 834 are joined. Thus, the circuit of the COM end 835 and the NO end 836 becomes conductive, and the COM end 835 and the NO end 836 are connected to the control circuit. As a result, the power supply of the synchronous motor 82 is cut off by the control circuit. When the button is released, the spring 832 is restored to its original state by the action of its elastic restoring force, the dynamic contact 833 and the static contact 834 are separated, and the circuit of the COM end 835 and the NO end 836 is disconnected. The As a result, the operation of the synchronous motor is restored.

  The button 831 of the first micro switch 83 and the button of the second micro switch 84 are respectively provided on the surface facing the heating element holder 60 so as to easily come into contact with the heating element holder 60.

  Next, the process in which the cooling / heating fan sends out cool air and warm air will be described in detail with reference to FIGS. 6 (a), 6 (b), 7 (a), and 7 (b).

  FIG. 6A is a structural diagram showing a state of the cooling / heating fan of the present embodiment when cold air is delivered, and FIG. 6B is a cross-sectional view of FIG. 6A. When the user selects cool air delivery, the synchronous motor 82 is turned on and rotates the gear 812. When the gear 812 rotates, the rack 811 engaged with the gear 812 moves horizontally. Specifically, the rack 811 moves in a direction away from the air outlet 40. Since the heating element holder 60 and the rack 811 are fixedly connected, the horizontal movement of the rack 811 causes the heating element holder 60 to come into contact with the second micro switch 84 to contact the button of the second micro switch 84, and the second micro switch 84. The heating element holder 60 can be moved away from the air outlet 40 until the operation of the switch 84 is triggered and the synchronous motor 82 stops operating. At this time, the heating element holder 60 exits from the position facing the air blowing port 40 and is detached from the air blowing port 40. Therefore, as shown in FIG. 6B, the wind sent from the air drum 20 is sent as it is from the blower opening 40 via the air passage 10 without passing through the heating element 50. It becomes cold wind.

  FIG. 7A is a structural diagram showing a state of the cooling / heating fan of this embodiment when warm air is delivered, and FIG. 7B is a cross-sectional view of FIG. 7A. When the user selects hot air delivery, the synchronous motor 82 is turned on and rotates the gear 812 in the opposite direction to that during cold air delivery. When the gear 812 rotates, the rack 811 engaged therewith moves horizontally in the opposite direction. Specifically, the rack 811 moves in a direction approaching the air outlet 40. Since the heating element holder 60 and the rack 811 are fixedly connected, the heating element holder 60 comes into contact with the first micro switch 83 and contacts the button 831 of the first micro switch 83 by the horizontal movement of the rack 811, and the first The heating element holder 60 can be moved in a direction approaching the air outlet 40 until the operation of the micro switch 83 is triggered and the synchronous motor 82 stops operating. At this time, the heating element holder 60 is just at a position facing the air blowing port 40. Therefore, as shown in FIG. 7B, the wind sent from the air drum 20 is sent from the air passage 10 through the heating element 50 through the air outlet 40, so that the sent wind becomes warm air.

  As described above, the movement of the heating element holder 60 is controlled using the synchronous motor 82 and the transmission member 81, the position of the heating element holder 60 is detected by the microswitch, and the movement of the synchronization motor 82 is controlled. The heating element 50 fixed to 60 can be selectively placed at a position directly facing the blower opening 40. That is, when the fan sends cool air, the heating element 50 is provided so as to be separated from the position facing the air blowing port 40, and when the fan sends warm air, the heating element 50 faces the air blowing port 40. Therefore, it is possible to realize the object that the fan can selectively send cold air or hot air with a simple structure. In addition, since the force required to press and release the micro switch is small, and the on / off is quickly performed, the control of the synchronous motor becomes very agile, and the use performance of the cooling / heating fan is improved. As a result, the conventional heating and air-blowing fan has a complicated structure and is difficult to assemble, and the technical problem that function switching becomes unstable or fails due to unstable control is solved. .

  It should be understood by those skilled in the art that the above is only an optimal embodiment of the present invention and can be improved or changed based on the above description. For example, the transmission member is not limited to a gear rack type, and may be replaced with a worm and a worm wheel. In addition, any improvements and changes implemented without requiring creative labor shall be within the scope of protection sought by the claims of the present invention.

Claims (10)

  A housing (1), an air channel unit (100), a blower port (40) provided in the housing (1), and mounted in the housing (1) to selectively face the blower port (40). In a cooling / heating fan including a heating element (50) disposed and a heating element holder (60) for supporting the heating element (50), a slide for supporting the heating element holder (60) on the casing (1) A rail (70) is provided, and a driving unit (80) for driving the heating element holder (60) to reciprocate on the slide rail (70) is fixedly connected to one end of the heating element holder (60). Cooling and heating fan characterized by being made.   The drive unit (80) includes a transmission member (81) fixed to the heating element holder (60), a synchronous motor (82) connected to the transmission member (81), and both ends of the slide rail (70). The fan for cooling and heating according to claim 1, further comprising a first micro switch (83) and a second micro switch (84) provided respectively on the first and second micro switches.   The air passage unit (100) is connected to the air passage (10) fixed to the housing (1), the air drum (20) mounted in the air passage (10), and the air drum (20) coaxially. The cooling / heating fan according to claim 2, further comprising a motor (30) that rotates the air drum (20).   The slide rail (70) is a slide plate extending upward, and a slide groove that engages with the slide plate is provided at the bottom of the heating element holder (60). Cooling and heating fan.   The transmission member (81) includes a rack (811) connected to the heating element holder (60) and a gear (812) meshing with the rack (811), and the gear (812) and the synchronous motor (82). The fan for cooling and heating according to claim 2, wherein the fan is connected coaxially.   Slide rails are provided at both ends of the housing (1), and the first micro switch (83) and the second micro switch (84) are both ends of the slide rail (70) near the drive unit (80). The cooling / heating fan according to claim 2, wherein the cooling / heating fan is provided.   The fan for cooling and heating according to claim 2, wherein the first micro switch (83) and the second micro switch (84) are provided with a button on a surface facing the heating element holder (60). .   The first micro switch (83) is provided at one end of the slide rail (70) near the air blowing port (40), and the second micro switch (84) is provided in the air blowing port (40) of the slide rail (70). 3. The cooling / heating fan according to claim 2, wherein the cooling / heating fan is provided at one end separated from the fan.   When the heating element holder (60) moves to one end of the slide rail (70) near the air blowing port (40), the heating element holder (60) comes into contact with the button of the first micro switch (83), When the heating element (50) is in a position facing the air blowing port (40) and the heating element holder (60) is moved to one end of the slide rail (70) spaced from the air blowing port (40), the heat generation The body holder (60) is in contact with the button of the second micro switch (84), and the heating element (50) is in a position removed from the air blowing port (40). Cooling and heating fan.   The cooling / heating fan according to claim 1, wherein the heating element (50) is a PTC heating element.