EP2397639B1 - Revolving door - Google Patents

Description

The invention relates to an automated, d. H. revolving door provided with a motor drive.

From the EP 2 072 737 A2 is a revolving door known, which has a motor drive in a ceiling construction above the turnstile of the revolving door system. The turnstile is formed by means of a rotary column with attached revolving door wings. A drive motor is operatively connected via an output shaft and a deflection gear with the rotary column. The output shaft extends approximately perpendicular to the longitudinal extent of the rotary column.

Due to the enormous torque that has to apply the drive for rotating the hub of such a door, the drive motors are relatively large dimensions, resulting in a huge space above or below the turnstile. Therefore, revolving door drives are usually mounted above the turnstile, resulting in a visually unfavorable, high ceiling construction.

DE 10 2004 033 304 A1 discloses a revolving door according to the preamble of claim 1.

The object of the invention is to reduce the disadvantages of the prior art.

This object is solved by the subject matter of claim 1. Advantageous developments of the invention are specified in the subclaims.

A revolving door according to the invention has a drive which is rotationally drivingly connected to a turnstile of the revolving door of this turnstile. The drive comprises a drive motor designed as a multi-pole electric motor, whose axis of rotation runs parallel or coaxial with the axis of rotation of the turnstile, and which has a height equal to or smaller than 80 mm. The revolving door further has a bottom which essentially comprises a shell and a cover layer in which a receptacle for the drive is formed, wherein an upwards, i.e., an opening, is provided in the receptacle. in the direction of revolving door open receiving box is used.

Thus, the drive according to the invention in a bottom portion of the revolving door, ie underfloor, can be arranged so that no work on the shell of the building must take place, in which the revolving door should be integrated.

According to the invention, the revolving door further comprises an adjusting device which is adapted to change the insertion position of the drive in the ground. This makes it possible to align the drive to the turnstile that brought both elements in the aforementioned drive-active connection can be.

This adjustment allows height adjustment of the drive in the ground, whereby the drive can be arranged regardless of the depth of the bottom section at the correct distance from the turnstile.

Additionally or alternatively, the adjustment device allows a tilt adjustment of the drive with respect to the ground by the drive comprises a housing, in particular in the form of a pot-like lid, which is placed on a bottom plate, in turn, three visible support screws on the underbody of the receiving box and so that it is supported on the shell. As a result, the drive can also be used with respect to the turnstile inclined floors without special precautions for the operative connection between the turnstile and the drive are necessary.

Preferably, the drive has a height equal to or less than 60 mm. For standard building floors, there is a cover layer at least 65 mm high on the shell. If the cover layer is removed in the region of the drive, or if it is not provided at all in this area, the drive according to the invention has a clearance in height in the receiving space created thereby and can be balanced with respect to the installation depth in the receiving space thus formed in the cover layer the drive reaches or even exceeds the limit of the receiving space. The receiving space is thus a portion of the floor in which the drive according to the invention is to be used. The bottom section is thus arranged between the turnstile of the revolving door and a shell of a building. The bottom section rests on the shell or is arranged above this shell.

Figur 1

eine Karusselltür gemäß einer ersten Ausführungsform der Erfindung und mit Bodenausnehmung im Schnitt,

Figur 2

die Karusselltür von Figur 1 mit geschlossen dargestelltem Boden,

Figur 3

den Antrieb von Figur 1 in größerem Detail,

Figur 4

eine Anordnung mit einer Karusselltür gemäß einer zweiten Ausführungsform der Erfindung und

Figur 5

eine Anordnung mit einer Karusselltür gemäß einer dritten Ausführungsform der Erfindung.

Further features and advantages of the invention will become apparent from the following description of preferred embodiments. Show it:

FIG. 1

a revolving door according to a first embodiment of the invention and with a bottom recess in section,

FIG. 2

the revolving door of FIG. 1 with closed bottom,

FIG. 3

the drive of FIG. 1 in greater detail,

FIG. 4

an arrangement with a revolving door according to a second embodiment of the invention and

FIG. 5

an arrangement with a revolving door according to a third embodiment of the invention.

FIG. 1 shows a revolving door 100 according to a first embodiment of the invention. The revolving door 100 is designed free-standing. Ie. she is as an independent part integrated into a not shown building. The revolving door 100 comprises a turnstile, which is formed by means of a rotary column 105, to which a plurality of rotary vanes 120 are fastened in a known manner. The rotary blades 120 are exemplarily designed as glass door wings, each comprising a frame profile 122, in which a respective glass panel 121 is inserted. The rotary column 105 with the rotatably mounted thereon rotary blades 120 is mounted on a drive 130 and recorded freely rotatable in the revolving door 100. The drive 130 is recessed in a bottom 10 of the housing.

The floor 10 substantially comprises a shell 12 and a cover layer 13, in which a receiving space or a receptacle 11 for the drive 130 is formed. In the case shown here, the cover layer 13 is simply omitted in the region of the receptacle 11. Alternatively, the cover layer 13 is thinned in this area. The receptacle 11 can also be formed by means of a recessed into the ground, towards the revolving door 100 open box. The cover layer 13 may be a screed spread on the shell 12.

In the receptacle 11 in the example shown, an upwardly, ie in the direction of revolving door 100 open receiving box 107 is used. The drive 130 comprises a housing 131 here in the form of a pot-like lid, which is placed on a bottom plate 132, which in turn is here supported by three visible support bolts 136 on the lower bottom of the receiving box 107 and thus on the shell 12. The support screws 136 thus allow for a height adjustment of the drive 130, ie a vertical adjustment in FIG. 1 if all support screws 136 are rotated simultaneously. On the other hand, it is also possible, by means of the support screws 136, to change the inclination of the drive 130 with respect to the turnstile or the floor 10 and thus to the conditions to be able to adapt on site by only a part of the support screws 136 is rotated.

The drive 130 has on its upper side a cover plate 137 which protects the drive 130 from contamination in the region of the operative connection with the rotary column 105. The drive 130 is in the upper area laterally in FIG. 1 surrounded by another cover plate 106 which closes the remaining, pointing in the direction of revolving door 100 area of the receiving box 107 dirt-proof. The cover plate 106 is supported in the region of the drive 130 advantageously on support elements 133, which in turn are here supported on the bottom plate 132. This ensures a safe shaft pitch of the cover plate 106 over the entire area. At in relation to the drive 130 right and left ends in FIG. 1 the cover plate 106 is sealingly placed on upper edge portions of the receiving box 107. To control the drive 130, the latter is coupled via one or more lines 104 to a panel 140, which is coupled via another line or lines 104 to a sensor 103 arranged in the upper area of the revolving door 100. The sensor 103 may also be omitted. The sensor 103 is used here in a ceiling 110 or ceiling construction of the revolving door 100. Outside to the right and to the left in FIG. 1 the revolving door 100 is enclosed by means of drum walls 102. As can be seen, the panel 140 is disposed in the left drum wall 102 of the revolving door 100, and exemplarily, regardless of any activation by the sensor 103, allows the revolving door 100 to be stopped or moved.

FIG. 2 shows the revolving door 100 of FIG. 1 wherein the drive 130 is visible only through the housing 131 and the upper cover plate 137. The not explicitly designated panel 140 includes in the example shown three elements 141, which are formed for example as 55 mm inserts and can have any configuration (switch, display, sensor, ...).

FIG. 3 shows the drive 130 in greater detail. Particularly clearly, the bottom plate 132 can be seen, on which both the support elements 133 and the housing 131 are placed. In the middle of the housing 131 is formed open at the top. In this area, a shaft portion 134 is arranged, which is actively co-rotating with the turnstile not shown here. In the middle, the shaft part 134 has a turnstile coupling section 135, for example in the form of a receiving opening with internal toothing. This is a particularly simple way, the hub or the rotary column 105 (with a projection with a complementary internal teeth for external teeth) with the drive 130 and its shaft part rotatably wirkzuverbinden.

The shaft member 135 is frictionally received in the housing via a bearing or has the housing 131 a predetermined distance.

Alternatively, protruding out of the shaft part 135 in the direction of the revolving door 100, not shown, is a protrusion, for example in the form of an outer quadrant, onto which the turnstile with a complementarily formed receptacle is mounted in a form-fitting manner. The cover plate 137, not shown here, may be attached or formed on the rotary column 105, also not shown, and sealingly surround the shaft part 135, so that there is no or negligibly low risk of contamination in the area of the rotating parts.

In order for the drive 130 to be as shallow as possible despite the torque to be applied, a multi-pole drive motor is provided as the drive motor. Whose stator preferably comprises electric coils, which are annularly fixed, for example, on the inner peripheral side of the housing 131 and interconnected in accordance with drive. The rotor or rotor of the drive motor is rotationally connected to the turnstile coupling 135 and has, for example, annularly arranged permanent magnets, which are arranged in such a way that, when the electric coils are energized, they enter into electromagnetic drive interaction with them. The axis of rotation of the rotor or drive motor runs parallel or even coaxially to the axis of rotation of the turnstile coupling 135 and thus also to the axis of rotation of the rotary column 105 or of the entire turnstile. The rotational engagement can be formed by means of a speichenrad-, disc-like or otherwise shaped part which mechanically or physically rotatably coupled to the rotor or rotor with the turnstile coupling or connects. This type of drive motor has the advantage that the electromagnetic drive force is generated in a remote location from the motor rotation axis. According to the leverage laws, the forces generated by the drive motor in the interaction region between the stator and the rotor are much lower than the torque to be applied to the motor shaft, turnstile clutch 135 or rotary column 105. This allows the use of shallow stators and rotors, whereby the inventive low height can be achieved.

Instead of permanent magnets and electric coils or parts of ferromagnetic materials can be provided.

FIG. 4 shows a revolving door 100 according to a second embodiment of the invention. The revolving door 100, like the first embodiment, in turn has an underfloor drive 130, which is connected to the Turnstile of the revolving door 100 is operatively connected. The turnstile is here formed by means of three glass door leaves 120, the frame profiles 122 are attached to the covered by them rotary column 105. The ceiling 110 of the revolving door 100 is formed by means of a circumferential, ring-shaped ceiling frame 111, which is intersected by a transverse strut 112. Between the frame 111 and the transverse strut 112, two glass plates 113, which are semicircular in cross section, are preferably used here. The rotary blades 120 equipped with glass panels 121 are in turn surrounded on both sides by two drum walls 102.

The underfloor arranged drive 130 allows an extremely filigree ceiling 110 or ceiling construction. In particular, if no additional elements such as sensors and the like are required in the upper area, very visually appealing solutions are possible.

As can be seen, such a revolving door 100 can be visually integrated into glass facades which, as here, comprise glass panels 1 which can be arranged abutting one another, for example via seals or filigree struts 112, and form a glass façade preferably extending to the floor 10 , Since above the carousel door 100 no more drive must be attached, this filigree can continue into the revolving door 100 inside, resulting in a visually very appealing overall impression.

FIG. 5 shows a revolving door 100 according to a third embodiment of the invention. With respect to the rotary wings 120 and the turnstile, the revolving door 100 is formed like the previous embodiments. It therefore has a ceiling 110 with an annular ceiling frame 111. In addition, the revolving door 100 is enclosed on both sides by two posts 101, which are preferably located in the respective center of the respectively adjacent one

Drum wall 102 are arranged. The underside, in turn, the drive 130 is arranged. The posts 101 and the crossbar 112 separate the panels 1 of the glass facade from each other.

The invention is not limited to the previous embodiments. The ceiling construction 110 can be designed in various ways. For example, the cross member 112 can be omitted. In addition, even the annular ceiling frame 111 itself can be omitted, provided that the turnstile is received freely rotatably at its upper end, for example in a ceiling or the like. In that case, the ceiling 110 of the revolving door 100 could be at least partially open.

Further, it is possible to provide only a glass plate 113, which is advantageously disposed in an area corresponding to an exterior of the building.

The rotary vanes 120 may be formed in any embodiment, for example, thermally insulating. The same of course applies to the drum walls 102 of the revolving door 100.

Essential to the invention is the extremely flat drive 130, which makes it possible to sink the drive 130 in the bottom 10, without the shell 12 would have to be processed.

LIST OF REFERENCE NUMBERS

1

glass panel

10

ground

11

admission

12

shell

13

topcoat

100

revolving door

101

Frame post

102

drum wall

103

sensor

104

management

105

rotating column

106

cover

107

receiving box

110

blanket

111

ceiling frame

112

crossmember

113

glass plate

120

rotary wing

121

glass panel

122

frame profile

130

drive

131

Lid / housing

132

baseplate

133

supporting

134

shaft part

135

Hub coupling portion

136

support screw

137

cover plate

140

paneling

141

Operating / display / sensor element

Claims (3)

1. A revolving door (100) including a drive (130), which

   • is operatively connected to a turnstile (105, 120) of the revolving door (100) and rotationally drives the turnstile,

   • comprises a drive motor,

   - the axis of rotation thereof extending coaxially to the axis of rotation of the turnstile (105, 120), and

   - which has a height equal to or smaller than 80 mm,

   characterized in that

   - the drive motor is configured as a multi-pole electrical motor, and

   - the revolving door (100) includes a floor (10), which essentially comprises an unfinished floor (12) and a cover layer (13), in which a reception (11) for the drive (130) is configured, wherein a reception casing (107), which is open to the top, i. e. in the direction of the revolving door (100), is inserted into the reception (11), wherein

   - the revolving door (100) furthermore has an adjusting device (136), which is adapted to modify the insert position of the drive (130) in the floor (10), wherein

   - the adjusting device (136) allows for height adjustment of the drive (130) in the floor (10), and/or

   - the adjusting device (136) allows for inclination adjustment of the drive (130) with regard to the floor (10), in that

   - the drive (130) comprises a housing (131), in particular in the shape of a pot-shaped cover, which housing is placed onto a floor plate (132), which in turn is supported on the subfloor of the reception casing (107) and therefore on the unfinished floor (12), via three visible support bolts (136) of the adjusting device.
2. The revolving door (100) according to claim 1, wherein the height of the drive motor is such that the drive (130) has a height of equal to or smaller than 60 mm.
3. The revolving door (100) according to any of the preceding claims, wherein the floor portion (11) is disposed between the turnstile (105, 120) and an unfinished floor (12) of a building.

Images