DE2900983C2 - Hot air shower - Google Patents

Description

50

The invention relates to a hot air shower with a blower chamber, a drive motor and a includes a fan driven by the motor, an air heater, an air inlet opening and an approximately coaxially connected to the blower chamber, divided in the longitudinal direction by a partition Air outlet duct with two inlet openings, one of which can be optionally through a closure element is lockable.

The usual hair dryers contain z. B. a fan motor, a fan driven by the motor is driven and an air heater, which is arranged in an air duct and which the air from the Fan is supplied so that the air heated by the air heater via an outlet opening is delivered. Usually only the air heater is switched off to release cold air, see above that a certain time elapses, which is necessary for the drying device from the hot air output in the Bring the state of cold air delivery. There is a time delay of three seconds or more with the usual hot air showers required after switching off the air heater, which heats itself up strongly has been to achieve a cooling of the air heater, during which time the temperature the airflow gradually decreases. When the drying device from the heated state to the cold air state is switched and then switched back to the warmed state, the air heater is activated inevitably exposed to the cold air while the cold air is being blown off, allowing a further period of time about three seconds elapse until the air heater returns to a sufficient glow temperature, after it has been turned on. These time delays are common among users Hair drying devices perceived as a nuisance.

From DE-OS 24 34 865 a hair dryer of the type indicated is known, which a elongated, tubular component with air inlet slots extending approximately over the entire length for sucking in cold air and a pipe divided into two chambers by a partition having opposite outlet openings for heated air. This well-known device has the Disadvantage that only warm air can be blown out of it, hair treatment with cold air not can be done. In FR-PS 6 43 562 a can be connected to a vacuum cleaner, can be used as a hair dryer Additional device disclosed in which the strength of the air flow and thus via a throttle valve its temperature is adjustable. In a hair dryer described in FR-PS 15 46 750, the warm air temperature is adjustable by several independently excitable heating resistors. With none With these known devices, there is the possibility of quickly changing from the hot air to the cold air state and vice versa to switch so that no satisfactory hair treatment can be carried out with them.

The invention is therefore based on the object of specifying a hot air shower in which optionally hot air or cold air can be blown out without delay in the temperature change.

This object is achieved according to the invention by what is stated in the characterizing part of claim 1 Features solved.

A separate cold air duct and a hot air duct are provided in the hot air shower in which there is an air heater, whereby these channels can be used alternatively by switching. At a The embodiment of the invention is the air duct in the axial direction through a partition into a cold air duct and a hot air duct containing the heater divided, which has a guide flap on its inlet side have which the air flow generated in the blower chamber either in the cold air duct or into the warm air duct.

Further features of the invention are specified in the subclaims and are based on The following description of an exemplary embodiment which is illustrated in the drawings.

Fig. 1 shows a vertical section through a hot air shower according to the invention, in which the Warm air duct with the partition is visible.

F i g. 2 is a partial section through the hot air shower of FIG. 1, which compared to FIG. 1 is rotated by 90 ° and

shows the relative location of the air ducts and the flap.

F i g. 3 is a section along line XX ' of FIG. 2.

F i g. 1 shows an embodiment of the subject matter of the invention with a warm air blower 1, a Blower chamber 2, an air duct 3. a nozzle cap 4 and a handle 5. In the blower chamber 2, a fan 7 is arranged, which is driven by a blower drive motor 6 is driven. In the blower chamber 2 there is an air inlet 8 opposite the Fan 7, so that cold air is sucked into the blower chamber 2 as the fan rotates. The one in the Blower chamber: air located in 2 is directed to the outside via the air duct 3 and the nozzle cap 4.

As can be seen from FIG. 2, the air duct 3 is in Axially divided by a partition 9 into two channels, namely a cold air channel 10 and one Warm air duct 11. An air heater 12 is provided in the warm air duct 11. A guide plate or Distribution plate 16, which is pivotable about a hinge 15, is for the air inlet openings 13 and 14 in the Cold air duct 10 or the warm air duct i i arranged. When in Fi g. 2 covers the state shown Guide flap 16, the air inlet opening 14 of the warm air duct 11, and that of the blower chamber 2 Air flow passes through the cold air duct 10, as indicated by the arrow in FIG. 2 is indicated. The air comes in the nozzle cap 4, where it is braked or throttled before the outlet, namely as cold air at the air outlet opening 17 of the nozzle cap 4. When the guide flap is in the position shown in FIG. 2 shown in dashed lines Position is pivoted so that the air inlet opening of the cold air duct 13 is covered by the flap, flows the air from the blower chamber 2 through the warm air duct 11, in which it is passed through the air heater 12 is warmed up when it is switched on, and then passes the nozzle cap 4, in which it is braked, before it leaves the air outlet opening 17 as warm air.

As shown in FIG. 3, the air duct 3 is designed so that the warm air duct 11 has a cross-sectional area has, which is slightly larger than that of the cold air duct 10 to space for the installation of the Air heater 12 to win. The partition wall 9 is supported by supports 18 and 19 and the hinge 15 is mounted pivotably between the supports 18 and 19 and the partition 9 at the bearing point 20. The pillars 18 and 19 are carried by a cylindrical member 21, which at the two air inlet openings 13 and 14 is provided. Although this is not apparent from the drawing, the cylindrical member 21 is with a V-shaped groove provided on the side facing the fan of the drive motor 6, so that he can be covered by the flap 16.

The nozzle cap 4 is placed on the outlet opening of the air duct 3 in order to prevent heat from flowing away to prevent the air heater 12, which could take place through the air outlet opening 17 of the cap 4. The inner walls of the nozzle cap 4 and the warm air duct 11 are covered with a heat insulating material, e.g. asbestos 31 isolated. In the embodiment shown in Figure 2, the air outlet opening 17 beveled on both sides of the nozzle cap 4, but only one bevel can also be used be made on one side of the cold air duct 10.

The hot air shower shown in FIG. 1 is provided with a switch to activate the fan motor 6 to be able to turn it on and off. This switch 30 can be arranged at a suitable location on the hot air shower and turns on to operate the fan motor when the hot air shower is in use. By pressing an actuator, e.g. B. in the form of a push button 22 on the handle part of the Hot air shower against spring pressure 23 causes the joint 15 to be pivoted so that the flap 16 covers the air inlet opening 13, as shown in dashed lines in FIG. If the Push button 22 is pressed, becomes a metal molding 24 pressed against the spring 23 in the drawing to the right and by a pawl device that is not shown in detail, recorded. The molded part 24 is mechanically attached to a pivot lever 26 hinged at point 25, and the pivot lever 26 can about a pivot point 27 in a clockwise direction be pivoted to move a control pin 28 to the right in the drawing. An eccentric 29 is then pivoted about the pivot point 15 and causes the flap 16 to open the inlet opening «3 of the Air duct covers. If the molded part 24 from the in F i g. 1 position shown to the right! will, a lever 3Γ of the switch 30 is pivoted clockwise to turn the switch 30 on. Of the Air heater 12 is then switched on.

When the push button 22 is pressed again, the pawl releases the component 24 so that the lever 26 is pivoted counterclockwise and the control pin 28 is moved to the left in the drawing is while the eccentric 29 is rotated so that the flap 16 the front of the air inlet port 14 as shown in Fig. 2 covered. At the same time, the switch 30 for the air heater is switched off.

In the illustrated embodiment, the switch 30 is switched on for the air heater to the air heater 12 to heat up when the push button 22 is depressed, so that the component of the ratchet device is being held. At the same time, the flap 16 is moved so that the front of the air inlet opening

^{4 (1} 13 of the cold air duct is covered so that the air flow coming from the blower chamber 2 is directed into the warm air duct 11 and exits the outlet opening 17 in the form of heated air.

When the push button 22 is depressed again to cause the switch to move from the Warm air position in the Kaltluftstellur.g passes, the flap 16 is automatically pivoted so that it the Covering the front of the air inlet opening 14 of the warm air duct and causing a flow of cold air is passed out of the blower chamber 2 via the cold air duct and exits at the air outlet opening 17. In this position, the air flow is not passed through the warm air duct 11, so that an immediate and Immediate switchover from the warm air state to the cold air state takes place. Although the power supply to the air heater is switched off in this operating state, the distributed through the air heater 12 generated heat in the warm air duct 11, so that the inside of the warm air duct for a given time is kept at high temperature. When the push button 22 is depressed, the Bring the switch back to the warm air state while the high temperature is still in the warm air duct prevails, the air flow is back through the

^{b 'J} WarrMuftkanal passed 11 and still present in the hot air passage 11 from heat occurs immediately at the air outlet opening 17 and, since the heater 12 is switched on again, this results in a rapid

Transition from the cold air state to the warm air state.

The hot air shower described here can not only be used to dry hair, but can be designed so that it can be used, for. B. As ί Tester for Semiconductor Devices (IC Devices) can be used. In such an application, the behavior of the IC arrays be checked for temperature changes by z. B. Hot air is directed onto the ICs to keep them in given time and then cool down by switching the hot air duct to the cold air duct will.

As can be seen from the above description, it is possible, with the device described, optionally ι> and quickly change from the cold air state to the warm air state and vice versa by means of a baffle is used. Therefore, when the device is used as a hair dryer, it enables rapid Switching from the warm air state to the cold air state a quick setting and getting ready one Hairstyle that has been prepared in the warm air condition. without deformation or unintentional changes, which are sometimes unavoidable, can occur. In particular, it is by inevitable Cooperation between the open and closed position of the flap and the in and out Switching off the air heater is possible, switching between the hot air state and the cold air state to undertake. In addition, the design is such that heat radiation from the air heater from opening the cap is avoided. on in this way it can be avoided that the surface temperature of the hair immediately after switching is additionally heated to the cold air condition by radiation.

For this purpose 2 sheets of drawings

Claims (4)

Patent claims: 1. Hot air shower with a blower chamber that has a drive motor and one of the motor contains driven fan, an air heater, an air inlet opening and an approximately coaxially connected to the blower chamber, divided in the longitudinal direction by a partition Air outlet duct with two inlet openings, one of which can be optionally through a closure element is lockable, characterized in that that the air outlet duct (3) in a cold air duct (10) and the air heater (12) containing warm air duct (11) is divided, so that a generated in the blower chamber (2) Air flow either through depending on the position of the closure element designed as a guide flap (16) the cold air duct (10) or the warm air duct (11) is directed that the inner wall of the hot air duct (11) with a heat insulating material (31) is coated and that a nozzle cap (4) is arranged at the outlet opening of the air outlet duct (3) is, so that when the inlet opening of the warm air duct is closed by the guide flap (16) (11) the heat generated by the air heater distributed within the warm air duct (11) and the Heat radiation is shielded. 2. Hot air shower according to claim 1, characterized in that the inner wall of the nozzle cap is provided with a heat insulating material (315). 3. Hot air shower according to claims 1 and 2, characterized in that the guide flap (16) so is designed that it closes either the cold air duct or the warm air duct, namely in 3i Dependence on a ratchet device that is controlled by an actuating element (22) on the Hot air shower can be operated, and that the pawl device is in drive connection with a switch (30) which switches the air heater on and off turns off. 4. Hot air shower according to claim 3, characterized in that the guide flap (16) is designed is that it is freely pivotable about a hinge (15) which is at the end of the partition wall (9) and which on an eccentric (19) which is pivoted by the ratchet device.