FI121668B - Security lock and procedure for adapting the safety lock to the safety arrangement in an elevator - Google Patents

Description

SECURITY LOCK AND METHOD FOR ADJUSTING THE LOCK LOCK TO THE LIFT SECURITY SYSTEM

The present invention relates to a security lock 5 according to the preamble of claim 1 and to a method of adapting the security lock to the security arrangement of the elevator according to the preamble of claim 13.

Security locks have been used as part of the building security arrangements, for example in connection with elevator level doors. In this case, in addition to the 10 locking devices, monitoring devices are required to ensure safety, which ensure the locking security. For example, elevator regulations require that the locking of elevator level doors must be monitored, both by measuring the status of the lock and by measuring the position of the locking platform door. The position of the level door has traditionally been measured by means of a separate safety switch, which is adapted for forced opening at the level door opening. Said safety switch is mounted on the level door separately.

EP1441091 discloses a security lock in which the first safety switch measures the operation of a manual emergency release device and the second safety switch measures the locking.

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EP1473511 describes a measuring arrangement implemented with hall sensors, for example, for monitoring the position of a plane door.

EP1110900 describes a safety arrangement for service spaces in an elevator shaft where the safety device controlling the position of the level door is mechanically connected to the door mechanism.

It is an object of the present invention to provide a new type of security lock, in which both the locking control and the measurement of the position of the plane door are made by a safety switch fitted inside the body of the security lock 30. It is also an object of the invention to provide an adaptation of the safety lock to the elevator security system, in particular in connection with the elevator level doors.

2

The security lock according to the invention is characterized by what is disclosed in the characterizing part of claim 1 and the method according to the invention for adapting the security lock to the security arrangement of the elevator is characterized by what is presented in the characterizing part of claim 13. Other embodiments of the invention are characterized by what is stated in the other claims. Inventive embodiments are also disclosed in the specification of this application. The inventive content contained in the application may also be defined otherwise than as set forth in the claims below. The inventive contents of the invention may also consist of several separate inventions, particularly if the invention is considered in the light of the express or implied subtasks, or in terms of the benefits or classes of benefits achieved. Thus, some of the attributes contained in the claims below may be redundant for individual inventive ideas.

15

The security lock according to the invention comprises a body part and a lock. The safety lock also comprises a latch controlled via a control interface and a safety switch fitted inside the body. The latches can be subjected to a control force through the control interface, by means of which the latch can be moved to another position. The Oh-20 sensing interface may have, for example, a control magnet attached to the latches, which exerts a force on the latches between the control magnet and the counter magnet nearby. For example, the counter magnet may be at the door handle of the level door, whereby the control magnet is aligned with the counter magnet when the door is closed, and when the door is opened, said control force ceases to be effective. The corresponding guiding force 25 can also be exerted by a spring instead of a magnet. By "safety switch" is meant a forced opening switch which may have one or more switch elements.

In the method of the invention for adapting the safety lock to the elevator safety arrangement 30, the safety lock is fitted to the elevator level door and a signal comprising the position information of the first switch element of the safety switch is applied through the electrical interface Said signal comprising the position information of the first 3 switching elements may be any prior art signal indicating the position of the switch. The signal may be a parallel or serial analog or digital signal, and may be transmitted via a signal cable or wireless, for example, whereby the security interface of the security lock 5 also includes a transmitter. Said first switching element may also be arranged in a series switching circuit together with the first switching elements of other planar safety switches, wherein said switching elements together form a safety door for the level doors.

The invention achieves at least one of the following advantages: - Since it is possible to control both the locking and the position of the lockable door by means of a safety lock, there is no need to install a separate door position measurement arrangement required by security regulations.

15 - Since, as shown in the invention, the safety switch can be enclosed in a separate protective housing, the protection of the safety switch, for example against dirt and moisture, is improved, thereby also improving the reliability of the safety switch.

The security lock according to the invention is compact in all dimensions, so that it can be easily fitted to a door, even when modernizing existing doors to comply with new security regulations. In this case, the mechanical interface of the lock can also be designed so that the lock fits into the existing attachment. The material of the lock body can also be freely selected and may also be made of steel, making the lock durable.

- The cover body of the lock can be made, for example, of transparent plastic, whereby the structure of the lock can be visually inspected without opening the body.

- The electrical interface of the lock body portion 30 can be designed such that the lock can be adapted to electrical building control systems and security systems such as the elevator system security system and the elevator door control system.

4 - Since the safety lock comprises a locking spring instead of a conventional locking weight, the locking position does not affect the closing force, so that the locking position can be freely selected.

Since the safety lock comprises a safety switch fitted to the door, such as measuring the position of the elevator shaft level door 5 mounted in the frame part, the security lock can be used to generate monitoring information about the installer moving into the elevator shaft, thereby limiting movement of the elevator car outside the elevator service spaces.

The invention will now be described in more detail by way of example with reference to the accompanying drawings, in which Figure 1 shows a security lock according to the invention 15 Figure 2 shows a security lock according to the invention Figure 3 shows a lock control part according to the invention

Fig. 4 shows an elevator safety arrangement according to the invention having a safety lock according to the invention

Figure 1 shows a security lock 1 in the closed position according to the invention. Figure 2 shows a safety lock according to the invention in the open position. Figure 3 shows a lock control part 9 according to the invention. The safety lock is here fitted to the elevator door. The security lock 1 comprises a body part 2 and, in connection with the body part, a lock 4. The locking catch is arranged to pivot about its pivot point 5. The locking hook comprises an arm portion 6, a latch portion 7, and a separate guide portion 9 attached to the other locking hook. The guide part 9 is here a plastic part separate from the rest of the lock pin 4 for ease of manufacture, but it can also be integrated with the other lock pin. The guide part 9 comprises a guide surface 10 and a guide groove 11. A locking part 20 is provided in connection with the guide groove 11. The safety lock also comprises a lock lever 5 which is adapted to transfer a force to itself to rotate the lock relative to the hinge point 5. This force effect can be achieved, for example, in the elevator system by the elevator door motor, whereby the locking lever 24 is connected to the other elevator door machinery.

On the other hand, a force effect can also be achieved, for example, manually by means of an emergency door opening device.

The safety lock also comprises a latch 3 which allows the latch 4 to be locked in the open position when the door is open. The security lock has a control interface 17,19, 10 having a locking magnet 17 attached to the latches. When the door is closed, the locking magnet is subjected to a thrust from a counter magnet 19 disposed on the door lock 18 at the locking magnet. A latching spring 16 is disposed around the latch pivot point 14, which again applies a latching force opposite to the thrust of the closing magnet on the latches 3. When the thrust of the closing magnet 15 begins to act on the latches 3, the latch pivots substantially to its first position 21, allowing the latch guide 15 to move relative to the lock 4 in the guide groove 11. The lock latch can then freely pivot and lock.

When the lock is turned to the open position and the door is opened, the thrust of the closing magnet counter-magnet 19 fitted to the door handle 18 ceases. The opposite locking force exerted by the latching spring 16 on the latches pivots the latch to its substantially second position 22. Now, the latch guide 15 moves to the latch portion 20 associated with the guide groove, and the latch 3 locks the guide latch 25 to the 4 open position. The lock can be disengaged by closing the door, thereby bringing the locking magnet 17 and the counter magnet 19 close to each other, whereby the thrust forces the latch into its first position 21, the latch guide 15 moves into the guide groove and the latch loses locking.

The safety switch 8 comprises first and second forced-release clutch elements, and in conjunction therewith a safety switch operating lever 12 supported by a roll 13 on the locking guide surface 10. The driving lever 12 moves as the roller 13 moves along the guide surface when the locking hook is rotated. When the latch hook 4 is in the closed position, the latch latch 7 is outside to lock the door. The first and second switch elements of the safety switch 8 are then closed. When the latch pivots to the open position, the safety switch actuation lever 12 moves in accordance with the movement of the control 5 surface 10, and a change in the position of the actuation lever forces the safety switch clutch elements to open. In this case, the opened switch elements indicate that the lock is in the open position. This information is passed to the elevator security arrangement which compares the information to at least the elevator car door control command, and if the data is not consistent, the security arrangement concludes that the level door has opened to the elevator-10 shaft. In this case the movement of the elevator car in the elevator shaft is restricted. One of the switching elements of the safety switch 8 is also in the level door safety circuit, so the opening of the switch element interrupts the level door safety circuit. In this case, the power supply to both the mechanical brake brake control circuit 29,31 and the elevator motor 27 is prevented from driving the elevator.

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Since the latch 3 locks the guide hook in the open position when the level door is open, also the open elements of the safety switch 8 indicate the position of the level door. The switching elements of the safety switch can only change their position after the level door closes, whereby the guide hook is unlocked and the guide hook can be moved to the closed position.

The safety lock 1 also comprises a locking spring 23 disposed between the body part 2 and the lock 4. The closing spring exerts a force on the latch 4 which tends to hold the latch in the closed position.

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As shown in Figure 1, the position switch 25 is disposed in the safety lock such that when the lock 4 moves to the open position, the control member 9 is pressed against the position switch, whereby the position switch 25 changes its position to the lock 4 based on the position.

Figure 4 shows an elevator safety arrangement according to the invention. Here, the elevator car 30 is moved within the elevator shaft 33 by the elevator motor 36 via the elevator ropes. The power supply to the motor 36 is controlled by the frequency converter 34. In the security system, the safety doors according to the invention are fitted to the level doors 26. According to the invention, the safety locks comprise safety switches 8, and a signal comprising the position information of the first switching element of each safety switch 8 is applied through the electrical access interface of the body 2 to the safety switch 5 connected to the security circuit by conductors passed through the electrical interface of the security lock body. A signal comprising position information of the second switching element of each safety switch 8 is fed by a wire through the electrical interface 10 of the safety lock 1 frame 2 to the elevator level measuring circuit 28. The measuring circuit comprises a resistor 29 connected to each of the second switching elements. , and the position of the level doors is determined by measuring the impedance of the serial connection. A signal comprising state information 15 of position switch 25 of each safety lock 1 is passed through the electrical interface of lock body 2 via a signal line to elevator car door control 32, and the door operator control receives position plane door status information.

The elevator safety arrangement is adapted to prevent movement of the elevator car 30, if necessary, by interrupting the power supply to the elevator motor 36 and controlling the elevator car mechanical braking device, such as a machine brake or elevator car wedge 31, at least based on the position of the first switch element. The elevator safety arrangement is also adapted to restrict the movement of the elevator car in the elevator shaft 33 outside the elevator shaft service spaces based on at least the position information of the second switch element 25 of the safety switch 8.

The security lock according to the invention can be used generally for locking doors in any building, especially in situations where security regulations require monitoring of the locking and lockable door position.

30 8

It will be apparent to one skilled in the art that various embodiments of the invention are not limited to the above example, but may vary within the scope of the following claims.

Claims (15)

Security lock (1), comprising: - a frame part (2) and, in connection with the frame part, a: 5 lock (4), - a latch (3) which can be controlled via a control interface (17,19), and - a frame part. (2) fitted safety switch (8) characterized in that a locking part (20) is provided in the lock (4) in connection with the guide groove (11) and that the latch guide (15) is arranged to move in the guide groove 10 (11) in the first position (21) and that the latch guide is arranged to lock into the latch portion (20) in a substantially second position of the latch (22). Security lock according to Claim 1, characterized in that the locking pin (4) comprises a guide part (9), the guide part comprising a guide surface (10) and a guide groove (11). Security lock according to claim 1 or 2, characterized in that the safety switch (8) comprises a safety switch operating lever (12), the safety switch operating lever being supported by a roller (13) on the locking surface (10), Security lock according to one of the preceding claims, characterized in that said pawl (3) is arranged to pivot about its point (14) and that the pawl has a guide (15) disposed in the guide groove (11). Security lock according to claim 4, characterized in that the latch comprises a locking spring (16) and a locking magnet (17). Security lock according to one of the preceding claims, characterized in that the security lock comprises a locking magnet counter-magnet (19) to be fitted to the door handle (18), the polarity of the counter-magnet being anti-locking magnet (17). Security lock according to one of the preceding claims, characterized in that the security lock comprises a locking spring (23), which locking spring is arranged between the body part (2) and the lock (4). Security lock according to one of the preceding claims, characterized in that the security lock comprises a locking lever operating lever (24) adapted to transfer a force effect on itself to turn the lock (4) relative to the pivot point (5). Security lock according to one of the preceding claims, characterized in that the security lock comprises a position switch (25) adapted to change its state in the lock (4) on the basis of the position. Security lock according to one of the preceding claims, characterized in that the locking hook (4) comprises a separate guide part (9), which guide part is attached to the other locking hook. Security lock according to one of the preceding claims, characterized in that the security lock comprises an electrical interface in the housing (2). Security lock according to one of the preceding claims, characterized in that said safety switch (8) comprises a protective housing and first and second switching elements mounted in the protective housing. A method of adapting a safety lock (1) to an elevator security arrangement, comprising: - fitting a safety lock into the elevator level door (26) - applying a signal including position information of the first switch element of the safety switch (8) to the security platform (27) providing: - a signal comprising position information of the second switching element of the safety switch via an electrical interface of the frame part to the measuring circuit of the elevator level door (28); A method according to claim 13, characterized by: 25. adjusting the elevator safety arrangement to prevent movement of the elevator car (30), if necessary, by switching off the power supply to the elevator motor (27) and controlling the mechanical car brake braking device (29,31) adjusting the elevator safety arrangement to restrict the movement of the elevator car in the elevator shaft (33) outside the elevator shaft maintenance spaces based on at least the position information of the second switch element of the safety switch (8); A method according to claim 13 or 14, characterized by: - transmitting a signal comprising the status of the lock position switch (25) via the electrical interface of the frame (2) to the elevator car door actuator control (32); based on a status signal of the position switch (25) 10