CN112796616A

CN112796616A - Multifunctional induction door

Info

Publication number: CN112796616A
Application number: CN202110165201.7A
Authority: CN
Inventors: 陈林
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-02-06
Filing date: 2021-02-06
Publication date: 2021-05-14

Abstract

The invention discloses a multifunctional induction door which comprises a door frame, a control device, two induction doors, a first driving mechanism and a second driving mechanism, wherein the first driving mechanism and the second driving mechanism are used for driving the first induction door and the second induction door to open or close, the control device comprises an infrared sensor, a remote control receiver and a processor, the processor is electrically connected with the first driving mechanism and the second driving mechanism, the working state of the first induction door and/or the second induction door is switched according to a control signal of the remote control receiver, and the first induction door and/or the second induction door is controlled to open or close according to a sensing signal of the infrared sensor when the first induction door and/or the second induction door works. According to the invention, different induction doors can be installed on the two double induction doors according to the requirements of users, and the first double induction door and/or the second double induction door are controlled to be opened or closed according to the sensing signal of the infrared sensor when the first double induction door and/or the second double induction door work, so that the reaction speed is high, and the two double induction doors are safer and more reasonable.

Description

Multifunctional induction door

Technical Field

The invention relates to the technical field of filters, in particular to a multifunctional induction door.

Background

When a moving object approaches the door, the door is automatically opened, and the moving object leaves the door and is automatically closed, wherein the door is named as an automatic induction door. The automatic induction door is widely applied to places such as office buildings, factory buildings, supermarkets, airports and the like, as is well known, the villa door is too large in size, opening and closing the door are difficult, and particularly, houses covered in rural areas are basically villa-type houses, so that a plurality of entrance doors are necessarily needed. Due to the influence of traditional culture, everybody likes to open the door, and the door is greatly opened through morality. However, opening the door is inconvenient, for example, dust is blown into the room by wind, and flies, mosquitoes and the like fly into the room, which also causes interference to the homeowner.

Disclosure of Invention

The present invention is directed to a multifunctional induction door, which solves the above problems.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a multi-functional induction door, includes door frame, controlling means, install in two heavy induction doors on the door frame and be used for driving first heavy induction door and the first actuating mechanism and the second actuating mechanism that second heavy induction door opened or closed, controlling means includes the infrared sensor that is used for detecting the object, is used for receiving manual control output signal's remote control receiver and treater, the treater with first actuating mechanism and second actuating mechanism electricity are connected, according to remote control receiver's control signal switches the operating condition of first heavy induction door and/or second heavy induction door, and be in first heavy induction door and/or second heavy induction door during operation according to infrared sensor's sensing signal control first heavy induction door and/or second heavy induction door are opened or are closed.

Further, the remote control receiver comprises a first remote control receiver for receiving and controlling the output signal of the first re-induction gate and a second remote control receiver for receiving and controlling the output signal of the second re-induction gate.

Furthermore, the first remote control receiver and the second remote control receiver are respectively connected to the infrared sensor in parallel through induction lines.

Further, the installation distance between the first remote control receiver or the second remote control receiver and the infrared sensor is less than or equal to 5 cm.

Further, the first heavy induction door comprises a glass induction door.

Further, first actuating mechanism includes driving motor, synchronous belt and drive pulley, the door frame top is equipped with glass induction door walking hanger rail, the upper portion of glass induction door is installed in the walking hanger rail, the top installation of door frame synchronous belt, two drive pulleys of synchronous belt's bottom installation, the drive pulley is connected the top of glass door, the treater with the driving motor electricity is connected, driving motor connects synchronous belt.

Further, the second gravity sensing door comprises a gold steel mesh sensing door.

Further, second actuating mechanism includes permanent magnet, magnetic suspension motor and power, the door frame top is equipped with gold steel net door suspension track, the suspension track is including the track that floats, the bottom of gold steel net door is installed in the track that floats, the treater with the magnetic suspension motor electricity is connected, the magnetic suspension motor be fixed in on the suspension track and with the power electricity is connected in order to form the magnetic field of change and then promote the permanent magnet motion, the permanent magnet be fixed in on the floating track so that the floating track drives gold steel net door edge the motion of suspension track direction.

A method of controlling a multi-functional induction door, the method comprising: receiving a control signal of a remote control receiver to switch the working state of the first heavy sensing door and/or the second heavy sensing door, and controlling the first heavy sensing door and/or the second heavy sensing door to be opened or closed according to a sensing signal of the infrared sensor when the first heavy sensing door and/or the second heavy sensing door work.

Compared with the prior art, the invention has the beneficial effects that:

according to the design of the double-induction door, different induction doors can be installed according to user requirements, such as the installation of a glass door and a metal steel mesh door, the working states of the first double-induction door and/or the second double-induction door can be switched according to different requirements, such as the metal steel mesh door is used for preventing mosquitoes and insects in summer, the tempered glass door is used for preventing wind and dust in winter, the two induction doors can also be used in a superposed mode, the first double-induction door and/or the second double-induction door are controlled to be opened or closed according to sensing signals of the infrared sensor when the first double-induction door and/or the second double-induction door work, the reaction speed is high, accidents such as people clamping or automatic door damage are effectively avoided, and the double-induction door is safer and more reasonable.

Drawings

FIG. 1 is a schematic view of a multifunctional induction door according to the present invention;

FIG. 2 is a schematic view of the connection structure of the multifunctional induction door of the present invention;

FIG. 3 is a schematic view of the gold steel mesh induction door of the multifunctional induction door of the present invention;

FIG. 4 is a schematic view of the installation structure of the gold steel mesh induction door in the multifunctional induction door of the present invention;

FIG. 5 is a schematic view of the glass door of the multifunctional door according to the present invention;

in the figure, 1-door frame, 11-walking hanging rail, 12-suspension rail, 121-floating rail, 2-control device, 21-infrared sensor, 22-remote control receiver, 221-first remote control receiver, 222-second remote control receiver, 23-processor, 3-fixed door body, 4-induction door, 41-first heavy induction door, 42-second heavy induction door, 5-driving mechanism, 51-first driving mechanism, 511-driving motor, 512-synchronous belt, 513-driving pulley, 52-second driving mechanism, 521-permanent magnet, 522-magnetic suspension motor and 523-power supply.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 5, the present embodiment provides a multifunctional induction door, which includes a door frame 1, a control device 2, two fixed door bodies 3, two double induction doors 4 and a driving mechanism 5, wherein the door frame 1 may be a metal door frame, the two fixed door bodies 3 are fixed at left and right sides in the door frame 1, the double induction doors 4 are mounted on the door frame 1 and located between the two fixed door bodies 3 and can move relative to the fixed door bodies 3, the double induction doors 4 include a first double induction door 41 and a second double induction door 42, the driving mechanism 5 includes a first driving mechanism 51 and a second driving mechanism 52 for driving the first double induction door 41 and the second double induction door 42 to open or close, the control device 2 includes an infrared sensor 21 for detecting an object, a remote control receiver 22 for receiving a manual control output signal, and a processor 23, the processor 23 is electrically connected to the first driving mechanism 51 and the second driving mechanism 52, switching the working state of the first heavy sensing door 41 and/or the second heavy sensing door 42 according to the control signal of the remote control receiver 22, and controlling the first heavy sensing door 41 and/or the second heavy sensing door 42 to open or close according to the sensing signal of the infrared sensor 21 when the first heavy sensing door 41 and/or the second heavy sensing door 42 is working, in this embodiment, the remote control receiver 22 includes a first remote control receiver 221 for receiving and controlling the output signal of the first heavy sensing door 41 and a second remote control receiver 222 for receiving and controlling the output signal of the second heavy sensing door 42, the first remote control receiver 221 and the second remote control receiver 222 are respectively connected in parallel to the infrared sensor 21 through a sensing line 100, and simultaneously, the installation distance between the first remote control receiver 221 or the second remote control receiver 222 and the infrared sensor 21 is less than or equal to 5cm, first heavy induction door 41 is glass induction door, second heavy induction door 42 is gold steel mesh induction door, can set up glass induction door in the front, and gold steel mesh induction door sets up at the back, first actuating mechanism 51 includes driving motor 511, synchronous belt 512 and transmission pulley 513, 1 top of door frame is equipped with glass induction door walking hanger rail 11, the top of glass induction door is installed in walking hanger rail 11, the top installation of door frame 1 synchronous belt 512, two transmission pulleys 513 of bottom installation of synchronous belt 512, transmission pulley 513 is connected the top of glass door, treater 23 with driving motor 511 electricity is connected, driving motor 511 connects synchronous belt 512, second actuating mechanism 52 is equipped with two sets ofly, drives two gold steel mesh induction doors about respectively, second actuating mechanism 52 includes permanent magnet 521, A magnetic suspension motor 522 and a power supply 523, the top of the door frame 1 is provided with a gold steel mesh door suspension track 12, the suspension rail 12 includes a floating rail 121, the bottom of the gold-steel mesh door is installed in the floating rail 121, the processor 23 is electrically connected to the magnetic suspension motor 522, the magnetic suspension motor 522 is fixed to the suspension track 12 and electrically connected to the power supply 523 to form a varying magnetic field to drive the permanent magnet 521 to move, the permanent magnet 521 is fixed to the floating track 121 to make the floating track 121 drive the gold steel mesh door to move along the direction of the suspension track 12, the power supply 523 is a low-voltage direct-current power supply, is safe and reliable, and can be provided with a control circuit board 6, the control circuit board 6 is respectively connected with the processor 23 and the magnetic suspension motor 522, the magnetic suspension motor 522 is controlled to work according to the processing signal of the processor 23, and the control circuit board 6 is also connected with the second remote control receiver 222.

A method of controlling a multi-functional induction door, the method comprising: receiving a control signal of a remote control receiver, switching the working state of the first heavy sensing door and/or the second heavy sensing door, and controlling the first heavy sensing door and/or the second heavy sensing door to be opened or closed according to a sensing signal of the infrared sensor when the first heavy sensing door and/or the second heavy sensing door work,

specifically, a glass induction door and a gold steel mesh induction door are installed between two fixed door bodies 3, the glass induction door and the gold steel mesh induction door can move relative to the fixed door bodies 3, one infrared sensor 21 is respectively arranged inside and outside the door and is installed on the upper portion of the door frame, a first remote control receiver 221 and a processor 23 can be arranged inside the door frame 1 and installed on the upper portion of the door frame 1, the processor 23 is respectively connected with the first remote control receiver 221 and a driving motor 511, a control circuit board 6 can be arranged inside the door frame 1 and installed on the upper portion of the door frame 1, a second remote control receiver 222 is respectively connected with a control circuit board 6 and a power supply 523, the power supply 523 supplies power for the second remote control receiver 222, the control circuit board 6 is respectively connected with the processor 23 and a magnetic suspension motor, the first remote control receiver 221 is provided with a power supply, and a power cord of the first remote control receiver 221 is respectively connected to the infrared sensors 21 inside, first remote control receiver 221 and second remote control receiver 222 are respectively connected in parallel to infrared sensor 21 through induction line 100, first remote control receiver 221 with infrared sensor 21's installation distance is less than or equal to 5cm, prevent to be disturbed, the response is more sensitive, glass induction door and gold steel mesh induction door respectively have a remote controller, correspond to send control signal to first remote control receiver 221 and second remote control receiver 222, for example, in summer, start gold steel mesh door, through the remote controller at glass induction door control glass induction door be in full-open operating condition, through the remote controller at gold steel mesh induction door control diamond steel mesh induction door be in response operating condition, when infrared sensor 22 senses that someone passes in and out, treater 23 drive suspension motor 522, suspension motor 522 is connected with power 523 and is switched on, promote permanent magnet 521 motion, permanent magnet 521 is fixed in on floating track 121 so that floating track 121 drives gold steel mesh door along floating track 12 The direction movement drives the gold steel mesh induction door to drive the glass induction door to be opened towards two sides of the fixed door body, when the infrared inductor 22 cannot detect a signal, the gold steel mesh induction door is closed towards the middle of the fixed door body under the action of the suspension motor 521 and the like, for example, in winter, the glass induction door is started, the glass induction door is controlled to be in an induction working state by a remote controller of the glass induction door, the diamond mesh induction door is controlled to be in a fully-opened working state by the remote controller of the gold steel mesh induction door, when the infrared inductor 22 senses that a person enters or exits, the processor 23 controls the driving motor 511 to work, the driving motor 511 drives the synchronous belt 512 to move, and the synchronous belt 512 drives the glass induction door to be opened towards two sides of the fixed door body through the transmission pulley 513; infrared inductor 22 can not detect the signal, and glass induction door closes to the fixed door body centre under the effect such as driving motor 511, and of course, the working method of glass induction door and gold steel mesh induction door is not limited to this, can also make glass induction door and gold steel mesh induction door all be in response operating condition, and treater 23 simultaneous control driving motor 511 and suspension motor 521 work, or make glass induction door and gold steel mesh induction door all be in the operating condition that opens entirely.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. A multi-functional induction door which characterized in that: including door frame, controlling means, install in two heavy induction doors on the door frame and be used for driving first heavy induction door and the first actuating mechanism and the second actuating mechanism that second heavy induction door opened or closed, controlling means includes the infrared sensor who is used for detecting the object, is used for receiving control output signal's remote control receiver and treater, the treater with first actuating mechanism and second actuating mechanism electricity are connected, according to remote control receiver's control signal switches the operating condition of first heavy induction door and/or second heavy induction door, and be in first heavy induction door and/or the second heavy induction door during operation according to infrared sensor's sensing signal control first heavy induction door and/or second heavy induction door are opened or are closed.

2. The multi-functional induction door of claim 1, characterized in that: the remote control receiver comprises a first remote control receiver used for receiving and controlling the output signal of the first heavy sensing gate and a second remote control receiver used for receiving and controlling the output signal of the second heavy sensing gate.

3. The multi-functional induction door of claim 2, characterized in that: the first remote control receiver and the second remote control receiver are connected to the infrared sensor in parallel through induction lines respectively.

4. The multi-functional induction door of claim 2, characterized in that: the installation distance between the first remote control receiver or the second remote control receiver and the infrared sensor is less than or equal to 5 cm.

5. The multi-functional induction door of claim 1, characterized in that: the first heavy induction door comprises a glass induction door.

6. The multifunctional induction door of claim 1 or 5, characterized in that: first actuating mechanism includes driving motor, synchronous belt and drive pulley, the door frame top is equipped with glass induction door walking hanger rail, the upper portion of glass induction door is installed in the walking hanger rail, the top installation of door frame synchronous belt, two drive pulleys of synchronous belt's bottom installation, the drive pulley is connected the top of glass door, the treater with the driving motor electricity is connected, driving motor connects synchronous belt.

7. The multi-functional induction door of claim 1, characterized in that: the second heavy induction door comprises a gold-steel mesh induction door.

8. The multifunctional induction door of claim 1 or 7, characterized in that: the second actuating mechanism includes permanent magnet, magnetic suspension motor and power, the door frame top is equipped with gold steel net door suspension track, the suspension track is including the track that floats, the bottom of gold steel net door is installed in the track that floats, the treater with the magnetic suspension motor electricity is connected, the magnetic suspension motor be fixed in on the suspension track and with the power electricity is connected in order to form the magnetic field of change and then promote the permanent magnet motion, the permanent magnet be fixed in on the track that floats so that the track that floats drives gold steel net door edge the motion of suspension track direction.

9. A method of controlling a multi-functional induction door, the method comprising: receiving a control signal of a remote control receiver to switch the working state of the first heavy sensing door and/or the second heavy sensing door, and controlling the first heavy sensing door and/or the second heavy sensing door to be opened or closed according to a sensing signal of the infrared sensor when the first heavy sensing door and/or the second heavy sensing door work.