JP2020012357A - Automatic lock device for door and window based on electronic information technology - Google Patents

Abstract

To disclose an automatic lock device for doors and windows based on electronic information technology.SOLUTION: The automatic lock device includes a worktable. A hydraulic space is positioned in the worktable. A slide space is positioned on the left end wall of the hydraulic space. A transmission space is positioned in the right end wall of the slide space. A second rotary housing is positioned on the right end wall of the transmission space. A first rotary space is positioned in the rear end wall of the transmission space. A second rotary space is positioned in the rear end wall of the first rotary space. A lock mechanism is firmly positioned on the left end surface of a window frame. A push window mechanism is positioned on the upper end of the window frame. Because the structure of this device is simple and the operation is convenient, the device provides automatic opening and closing for a window and lock at the same time during work using the present invention. The device avoids repeating locking and unlocking after locking and unlocking are completed, and provides proper locking and unlocking and improves the stability of the device.SELECTED DRAWING: Figure 1

Description

  The present invention is directed to the field of sports gyms, and more specifically, to automatic door and window connection based on electronic information technology. This device has a simple structure, convenient operation, automatic opening and closing of windows and locks at the same time, and after locking and unlocking is completed, avoids repetition of locking and unlocking, and achieves proper locking and unlocking And increase the stability of the device.

  At present, advances in science and technology, the development of society, and the need for automation are increasing at this stage. It does not have the function of integrating gold, it is difficult to achieve the correct interlocking between the closing of the key and the closing of the window, and the stability of the device is not high.

Chinese Patent Application No. 102486070

The present invention provides a door and window auto-attaching device based on electronic information technology, which can solve the above-mentioned problems in the current technology.

In order to solve the above-mentioned problem, the present invention adopts the following technical plan: The automatic door and window locking device based on electronic information technology includes a work table, and a hydraulic space is installed in the work table. The partition plate is slid in the hydraulic space, an electromagnet is fixed to the left end surface of the partition plate, a first push rod is fixed to the right end surface of the partition plate, the first push rod The right end of the partition penetrates the right end wall of the hydraulic space and is in the external space, an L-shaped block is fixedly mounted on the right end of the push rod, and the left and right hydraulic spaces on the left and right sides of the partition plate are provided on the upper end wall of the hydraulic space. Is installed in the hydraulic pipe, a hydraulic pump is installed in the hydraulic pipe, a slide space is installed on the left end wall of the hydraulic space, and a hydraulic space is provided in the hydraulic space on the left side of the partition plate. A magnetic block is installed, and a slide block is provided on the left end face of the magnetic block. The left end of the slide block penetrates the left end wall of the hydraulic space and is in the slide space, and the push block is fixed to the left end of the slide block, and the lower side of the left end wall of the slide space is fixed. The first rotating housing is installed, a thread groove is installed vertically symmetrically in the middle of the first rotating housing, a transmission housing is installed on a right end wall of the slide space, and a second transmission housing is installed on a right end wall of the transmission housing. A rotary housing is installed, a rotary shaft is installed in the transmission housing, a right end of the rotary shaft penetrates a right end wall of the transmission space and is in the second rotary housing, and a left end of the rotary shaft is a transmission space. And a screw block which is screwed into and connected to a thread groove of the rotary shaft and is fixed to the rotary shaft on the left side of the push block. One hit plate is installed, right side of the push block A second abutment plate fixed to the rotating shaft is installed, a first spur gear is fixed to the rotating shaft in the transmission space, and a second spur gear fixed to the left side of the first spur gear is fixed to the rotating shaft. A spur gear is installed, a driving electric machine is implanted above a right end wall of the transmission space, a driving shaft is connected by power to a left end surface of the driving electric machine, and a left end surface of the driving shaft is a left end wall of the transmission space. A third spur gear, which is connected to the upper end surface of the second spur gear, is connected to the drive shaft, and a fourth spur gear is meshed and connected to the rear end of the first spur gear, A main drive shaft is fixed to the center of the fourth spur gear, left and right end surfaces of the main drive shaft are pivotally connected to left and right end walls of the transmission space, and a first bevel gear is fixed to a left end of the main drive shaft, A second bevel gear meshes and is connected to the rear end of the first bevel gear, and a driven shaft is fixed to the center of the second bevel gear, and A first rotating space is installed in the end wall, a second rotating space is installed in the rear end wall of the first rotating space, and the rear end of the driven shaft penetrates the first rotating space and the second rotating space. A rear end face of the driven shaft is pivotally connected to the second rotating space, and a first main moving gear fixed to the driven shaft is installed in the first rotating space; A first driven gear meshes and is connected to the right end of the driven gear, a first turning shaft is fixed to the center of the first driven gear, and a right end of the first turning shaft forms a right end wall of the first rotating space. A first cam that penetrates and is in the external space, a first cam is fixed to a right end of the first rotation shaft, and a second main driven gear that is fixed to a driven shaft is installed in the second rotation space; A second driven gear meshes with and is connected to the right end of the two main driven gears, and a second rotation shaft is fixed to the center of the second driven gear. The right end of the second rotation shaft passes through the second rotation space and is in the external space, a second cam is fixed to the right end of the second rotation shaft, and a support block is fixed to a lower end surface of the worktable. A window frame is fixed to a right end surface of the support block, a fastening mechanism is fixed to a left end surface of the window frame, and a push window mechanism is installed at an upper end of the window frame.

In a further technical plant, the bay window mechanism includes a window, a window is pivotally connected to an upper side of the window frame, and a slide space in which a left end wall communicates with an external space is installed in the window. A moving block is slid and connected into the sliding space, a right end of the L-shaped block penetrates a left end wall of the sliding space and is in the sliding space, and a left end surface of the moving block is connected to a right end surface of the L-shaped block. Be consolidated.

As a further technical plant, the fastening mechanism includes a trapezoidal block, and front and rear ends of a lower end of the trapezoidal block come into contact with and are connected to a first cam and a second cam, respectively, and are connected to a center of a right end face of the trapezoidal block. A rotation shaft is pivotally connected to the position, a right end of the rotation shaft is fixed to a left end surface of the window frame, a jack is fixed to an upper end of the trapezoidal block, a lock block is installed at a front end of the jack, and the lock is provided. A right end face of the block is fixed to a left end face of the window, a lock groove is provided in the lock block, a rear end face of the lock groove is communicated with the external space, and a front end of the jack penetrates a rear end wall of the lock groove. Through and in the lock groove.

In a further technical plant, the first cam rotates only a half turn with the second cam while the second spur gear meshes and is connected with the third spur gear.

As a further technical plant, an electronic information control mechanism is installed inside the right side of the window frame, the electronic information control mechanism includes a signal block, and a position monitor is installed in the left side of the window frame.

Compared with the prior art, the advantages of the present invention are as follows: When the present invention is in operation, when closing the window, the liquid pump is started, the partition plate is pushed by the pressure and moves to the left, and the partition plate moves to the left. The push rod is moved to the left, and the push window mechanism drives the window to rotate it counterclockwise around the push window axis.After the window is completely closed, the hydraulic pump is closed and the electromagnet is energized. And the magnet and the electromagnet dislike each other, so that the slide block is moved to the left, and the slide block moves the push block to the left. Therefore, the second spur gear meshes with the third spur gear, and at this time, the first spur gear starts to mesh with the fourth spur gear. At this time, the thread block and the thread groove just mesh with each other. Rotates the drive shaft The rotation shaft is rotated by the transmission of the gear train, the rotation shaft interlocks the rotation of the thread block, and the thread block is screwed into the thread groove, thereby interlocking the rotation shaft to the left, thereby interlocking the thread block. When the screw thread is threaded out, the right end face of the push block comes into contact with the left end face of the second abutment block, and the second spur gear and the third spur gear are disengaged from each other in a state of meshing connection. Stop, the rotation of the rotating shaft causes the first cam and the second cam to rotate in conjunction with the transmission of the gear train, and while the rotating shaft is rotating, the trapezoid block is rotationally driven through the rotation of the first cam and the second cam. Therefore, the jack enters the lock groove in the lock block, at which time the window is closed tightly, then the drive motor is closed, the power of the electromagnet is turned off, and when the window is opened, the electromagnet is energized to release the magnetic force. Arising, magnetic The electromagnet attracts each other, and the push block is transmitted to move to the right, whereby the push block moves and moves the first abutment plate to the right, the second spur gear starts to mesh with the third spur gear, and the first spur gear starts to engage. The gear starts to mesh with the fourth spur gear, and at this time, the driving electric machine rotates in reverse to rotate the driving shaft, and the rotation of the rotation shaft through the transmission of the gear train. The thread block is screwed out of the thread groove, thus driving the rotating shaft to move to the right, and under the action of the force of the pushing block, the second spur gear and the third spur gear are disengaged from the meshing connection, and By stopping the rotation of the rotating shaft, the rotation of the rotating shaft causes the first cam and the second cam to rotate in conjunction with the transmission of the gear train, and while the rotating shaft is rotating, through the rotation of the first cam and the second cam. Rotate and drive the trapezoidal block The jack is released from the lock groove in the lock block, the window lock opens at this time, then the drive machine is turned off, the electromagnet is turned off, the hydraulic pump is started, and the partition plate is turned right under the action of pressure. The partition plate drives the first push rod to the right, so that the window mechanism drives the window to rotate counterclockwise around the window axis, and after the window is fully opened, Hydraulic pump closed, this device is simple in structure, easy to operate, realizes automatic opening and closing of window and lock at the same time, after lock and unlock is completed, avoid repetition of lock and unlock, properly Locks and unlocks and increases the stability of the device.

It is a front structure schematic diagram of a door and window automatic tying device preparation based on the electronic information technology of the present invention. It is a bird's-eye view enlarged structure schematic diagram of a work table of an automatic tie device of a door and a window based on the electronic information technology of the present invention. It is a front enlarged structure schematic diagram of a door and window automatic tie-up device working block based on the electronic information technology of the present invention. FIG. 5 is a schematic diagram of a left-view enlarged structure of a work block of an automatic tying device for doors and windows based on the electronic information technology of the present invention.

Hereinafter, the drawings related to the embodiments of the present invention will be combined and the technical methods in the embodiments of the present invention will be clearly and completely described, and the described embodiments will clearly explain some embodiments of the present invention. , Not all embodiments. According to the embodiment of the present invention, other examples can be obtained on the premise that ordinary technicians in this field do not pay creative labor, and they belong to the scope of protection of the present invention.

As shown in FIGS. 1-4, an embodiment of the present invention is provided: a door and window automatic wiring device based on electronic information technology includes a work table 20 and a hydraulic space 13 in the work table 20. Is installed, a partition plate 15 is slid in the hydraulic space 13, an electromagnet 16 is fixed to the left end surface of the partition plate 15, and a first push rod 11 is fixed to a right end surface of the partition plate 15. The right end of the first push rod 11 penetrates the right end wall of the hydraulic space 13 and is in the external space, and an L-shaped block 10 is fixedly installed on the right end of the push rod 11, A hydraulic pipe 12 communicating with hydraulic spaces 13 on both left and right sides of a partition plate 15 is provided on an upper end wall of the partition plate 15, and a hydraulic pump 14 is provided in the hydraulic pipe 12, and a left end wall of the hydraulic space 13 is provided. A slide space 22 is provided at the left side of the partition plate 15. A magnetic block 17 is installed in the pressure space 13, and a slide block 21 is fixed to the left end surface of the magnetic block 17. The left end of the slide block 21 penetrates the left end wall of the hydraulic space 13 and the slide space 22. , A push block 19 is fixed to the left end of the slide block 21, a first rotary housing 38 is installed below a left end wall of the slide space 22, and a thread groove 40 is provided in the middle of the first rotary housing 38. Are installed symmetrically in the vertical direction, a transmission housing 27 is installed on the right end wall of the slide space 22, a second rotating housing 32 is installed on the right end wall of the transmission housing 27, and a rotating housing is installed in the transmission housing 27. A shaft 30 is installed, a right end of the rotating shaft 30 penetrates a right end wall of the transmission space 27 and is located in the second rotating housing 32, and a left end of the rotating shaft 30 penetrates the transmission space 27 and performs the first rotation. A thread block 39 which is in the body 38 and is screwed and connected to the thread groove 40 at the left end of the rotating shaft 30 and is fixed to the left side of the pushing block 19 with the rotating shaft 30. An abutment plate 25 is installed, a second abutment plate 26 fixed to the rotating shaft 30 is installed on the right side of the push block 19, and a first spur gear 29 is fixed to the rotating shaft 30 in the transmission space 27. A second spur gear 28 fixed to the rotating shaft 30 is installed on the left side of the first spur gear 29, and a driving electric machine 34 is implanted above a right end wall of the transmission space 27. The drive shaft 31 is connected to the left end surface of the drive shaft 31 by power, the left end surface of the drive shaft 31 is pivotally connected to the left end wall of the transmission space 27, and the drive shaft 31 is meshed and connected to the upper end surface of the second spur gear 28. And a fourth spur gear 23 is fixed to the rear end of the first spur gear 29. A gear 43 is meshed and connected, a driving shaft 42 is fixedly connected to the center of the fourth spur gear 43, and left and right end surfaces of the driving shaft 42 are respectively connected to left and right end walls of the transmission space 27. The first bevel gear 61 is fixed to the left end of the first bevel gear, the second bevel gear 60 is meshed and connected to the rear end of the first bevel gear 61, and the driven shaft 59 is fixed to the center of the second bevel gear 60. A first rotation space 56 is installed in a rear end wall of the transmission space 27, a second rotation space 49 is installed in a rear end wall of the first rotation space 56, and a rear end of the driven shaft 59 is The driven shaft 59 penetrates the first rotating space 56 and is in the second rotating space 49, and the rear end face of the driven shaft 59 is pivotally connected to the second rotating space 49, and the driven shaft 59 is inserted into the first rotating space 56. A first main driving gear 50 to be fixed is provided, and a first main driving gear 50 is provided at a right end of the first main driving gear 50. The driven gear 44 meshes and is connected, and the first turning shaft 36 is fixed to the center of the first driven gear 44, and the right end of the first turning shaft 36 passes through the right end wall of the first rotation space 56. A first cam 37 is fixed to the right end of the first rotating shaft 36 in the external space, and a second main driven gear 48 fixed to the driven shaft 43 is installed in the second rotating space 49. A second driven gear 47 meshes and is connected to the right end of the second main driven gear 48, and a second turning shaft 45 is fixed to the center of the second driven gear 47, The right end penetrates the second rotation space 49 and is in the external space, the second cam 46 is fixed to the right end of the second rotation shaft 45, and the support block 35 is fixed to the lower end surface of the worktable 20, The window frame 1 is fixed to the right end face of the support block 35, The fastening mechanism 24 is fixed to the left end face, the push window mechanism 18 is installed at the upper end of the window frame 1, and the electronic information control mechanism 66 is installed inside the right side of the window frame 1.

Advantageously, the fenestration mechanism 18 includes a window 7, the window 7 being pivotally connected to the upper side of the window frame 1, and the sliding space 5 having a left end wall communicating with the external space in the window 7. The moving block 6 is slid into and connected to the sliding space 5, and the right end of the L-shaped block 10 penetrates through the left end wall of the sliding space 5 and is inside the sliding space 5. The left end face is fixed to the right end face of the L-shaped block 10, and its role is to realize opening and closing of the window 7 by pushing the left-right movement of the L-shaped block 10.

Advantageously, the locking mechanism 24 includes a trapezoidal block 2, and the lower and front ends of the lower end of the trapezoidal block 2 contact and transmit and connect with a first cam 37 and a second cam 46, respectively. A rotation shaft 36 is pivotally connected to a center position of the right end surface, a right end of the rotation shaft 36 is fixed to a left end surface of the window frame 1, and a jack 41 is fixed to an upper end of the trapezoidal block 2. A lock block 4 is installed at the front end, a right end face of the lock block 4 is fixedly connected to a left end face of the window 7, a lock groove 3 is installed in the lock block 4, and a rear end face of the lock groove 3 is connected to an external space. The front end of the jack 41 penetrates through the rear end wall of the lock groove 4 and is in the lock groove 3, and the role of the first cam 37 and the second cam 46 is to drive the front and rear movement of the jack 41. This To tightly lock the window 7.

Advantageously, while the second spur gear 28 meshes with and is connected to the third spur gear 23, the first cam 37 and the second cam 46 rotate only half a turn, and the role of the latch mechanism 24 is correct. Ensure that it is turned on and off.

Advantageously, an electronic information control mechanism 66 is installed inside the right side of the window frame 1, the electronic information control mechanism 66 includes a signal block 65, and a position monitor 64 is installed in the left side of the window frame 1. Its role is to monitor whether the locking mechanism 24 is tightly locked and send an electronic signal to warn.

Specific usage: In the operation of the present invention, when the window is closed, the liquid pump 14 is activated, the partition plate 15 is pushed by the pressure and moves to the left, and the partition plate 15 moves the first push rod 11 to the left. The window mechanism 18 drives the window 7 to rotate it counterclockwise around the window shaft 8, and after the window 7 is completely closed, the hydraulic pump 14 is closed and the electromagnet 16 Is energized to generate a magnetic force, and the magnet 17 and the electromagnet 16 dislike each other. Therefore, the slide block 21 moves to the left and the slide block 21 moves the push block 19 to the left and moves. Under the action, the rotary shaft 30 is moved to the left, so that the second spur gear 28 meshes with the third spur gear 23, at which time the first spur gear 29 starts to mesh with the fourth spur gear 43, Mountain block 39 and The thread groove 40 just meshes, and at this time, the driving electric machine 34 rotates the drive shaft 31 in rotation, the rotation shaft 30 rotates by the transmission of the gear train, and the rotation shaft 30 rotates the thread block 39 in rotation. Is screwed into the thread groove 40, thereby causing the rotating shaft 30 to move to the left, and the thread block 39 screwing out the thread groove 40, the right end face of the push block 19 is moved to the left end of the second abutment block 26. The second spur gear 28 and the third spur gear 23 are disengaged from the state in which the second spur gear 28 and the third spur gear 23 are in meshing connection with each other, thereby stopping the rotation of the rotating shaft 30. The cam 37 and the second cam 46 are rotated and interlocked, and while the rotation shaft 30 is rotating, the trapezoidal block 2 is rotationally driven through the rotation of the first cam 37 and the second cam 46, so that the jack 41 is When the window penetrates into the lock groove 3 in the block 4 and the window is tightly closed at this time, the drive electric machine 34 is closed, the power of the electromagnet 16 is turned off, and when the window is opened, the electromagnet 16 is energized to reduce the magnetic force. Then, the magnet 17 and the electromagnet 16 attract each other, and the push block 19 is moved to the right by transmitting the push block 19, whereby the push block 19 moves and moves the first contact plate 25 to the right, and the second spur gear 28 moves to the third spur. The first spur gear 29 starts to mesh with the gear 23, and the first spur gear 29 starts to mesh with the fourth spur gear 43. At this time, the driving electric machine 34 rotates in reverse to drive the driving shaft 31 to rotate the rotating shaft 30 through the transmission of the gear train. When driven, the rotating shaft 30 rotates the threaded block 39 in rotation, and the threaded block 39 is screwed out of the threaded groove 40, thus driving the rotating shaft 30 to the right, and under the action of the force of the push block 19. In the second The spur gear 28 and the third spur gear 23 are disengaged from the meshed connection, thereby stopping the rotation of the rotating shaft 30, and the rotation of the rotating shaft 30 causes the first cam 37 and the second cam 46 to move through the transmission of the gear train. The rotation is interlocked and the trapezoid block 2 is rotationally driven through the rotation of the first cam 37 and the second cam 46 while the rotation shaft 30 is rotating, so that the jack 41 is separated from the lock groove 3 in the lock block 4. At this time, the lock of the window is opened, the drive motor 34 is turned off, the electromagnet 16 is turned off, the hydraulic pump 14 is started, and the partition plate 15 is driven to move to the right under the action of pressure. Drives the first push rod 11 to the right, so that the push window mechanism 18 drives the window 7 to rotate around the push window shaft 8 counterclockwise, and after the window 7 is fully opened, the hydraulic pressure Pump 14 closes and this device Simple structure, convenient operation, automatic opening and closing of windows and locks at the same time, after lock and unlock are completed, avoid repeated locking and unlocking, realize lock and unlock properly, equipment Increase stability.

For those skilled in the art, the present invention is not limited to the details of the exemplary embodiments described above, but may be embodied in other specific forms without departing from the significance or essential characteristics of the invention. Therefore, considering that this embodiment is by way of example and not of limitation, the scope of the present invention is limited to the appended claims, and all changes that fall into the meaning and scope of the equivalent important document of the claims are considered. Included in the present invention. Do not consider any attached markings in the rights request as limiting the rights request.

The present invention is directed to the field of sports gyms, and more specifically, to automatic door and window connection based on electronic information technology. This device has a simple structure, convenient operation, automatic opening and closing of windows and locks at the same time, and after locking and unlocking is completed, avoids repetition of locking and unlocking, and achieves proper locking and unlocking And increase the stability of the device.

At present, advances in science and technology, the development of society, and the need for automation are increasing at this stage. It does not have the function of integrating gold, it is difficult to achieve the correct interlocking between the closing of the key and the closing of the window, and the stability of the device is not high.

Chinese Patent Application No. 102486070

The present invention provides a door and window auto-attaching device based on electronic information technology, which can solve the above-mentioned problems in the current technology.

In order to solve the above-mentioned problem, the present invention adopts the following technical plan: The automatic door and window locking device based on electronic information technology includes a work table, and a hydraulic space is installed in the work table. The partition plate is slid in the hydraulic space, an electromagnet is fixed to the left end surface of the partition plate, a first push rod is fixed to the right end surface of the partition plate, the first push rod The right end of the partition penetrates the right end wall of the hydraulic space and is in the external space, an L-shaped block is fixedly mounted on the right end of the push rod, and the left and right hydraulic spaces on the left and right sides of the partition plate are provided on the upper end wall of the hydraulic space Is installed in the hydraulic pipe, a hydraulic pump is installed in the hydraulic pipe, a slide space is installed on the left end wall of the hydraulic space, and a hydraulic space is provided in the hydraulic space on the left side of the partition plate. A magnetic block is installed, and a slide block is provided on the left end face of the magnetic block. The left end of the slide block penetrates the left end wall of the hydraulic space and is in the slide space, and the push block is fixed to the left end of the slide block, and the lower side of the left end wall of the slide space is fixed. The first rotating housing is installed, a thread groove is installed vertically symmetrically in the middle of the first rotating housing, a transmission housing is installed on a right end wall of the slide space, and a second transmission housing is installed on a right end wall of the transmission housing. A rotary housing is installed, a rotary shaft is installed in the transmission housing, a right end of the rotary shaft penetrates a right end wall of the transmission space and is in the second rotary housing, and a left end of the rotary shaft is a transmission space. And a screw block which is screwed into a thread groove and connected to the left end of the rotating shaft and is fixed to the left end of the rotating shaft , and is fixed to the rotating shaft on the left side of the pushing block. The first backing plate is installed and the push block A second abutment plate fixed to the rotation shaft is installed on the side, a first spur gear is fixed to the rotation shaft in the transmission space, and a rotation shaft is fixed to the left side of the first spur gear. A second spur gear is installed, a driving electric machine is implanted above a right end wall of the transmission space, a driving shaft is connected to a left end surface of the driving electric machine by power, and a left end surface of the driving shaft is a left end of the transmission space. A third spur gear, which is pivotally connected to the wall and the drive shaft meshes with and is connected to the upper end surface of the second spur gear, is fixed, and a fourth spur gear is meshed and connected to the rear end of the first spur gear. A main drive shaft is fixed to the center of the fourth spur gear, left and right end surfaces of the main drive shaft are respectively connected to left and right end walls of the transmission space, and a first bevel gear is fixed to the left end of the main drive shaft, A second bevel gear meshes and is connected to the rear end of the first bevel gear, and a driven shaft is fixed to the center of the second bevel gear. A first rotating space is installed in a rear end wall of the first rotating space, a second rotating space is installed in a rear end wall of the first rotating space, a rear end of the driven shaft passes through the first rotating space, and A first main driven gear that is located in the two rotation space, a rear end surface of the driven shaft is pivotally connected to the second rotation space, and is fixed to the driven shaft in the first rotation space, A first driven gear meshes with and is connected to the right end of the one main driven gear, and a first turning shaft is fixed to the center of the first driven gear, and a right end of the first turning shaft is a right end of the first rotation space. A first cam is fixed to the right end of the first turning shaft, penetrating the wall and in the external space, and a second main running gear fixed to the driven shaft is installed in the second rotating space, A second driven gear is meshed and connected to the right end of the second main driven gear, and a second rotating shaft is fixedly connected to the center of the second driven gear. A right end of the second rotation shaft penetrates the second rotation space and is in the external space, a second cam is fixed to a right end of the second rotation shaft, and a support block is fixed to a lower end surface of the worktable. Then, a window frame is fixed to the right end surface of the support block, a fastening mechanism is fixed to the left end surface of the window frame, and a push window mechanism is installed at an upper end of the window frame.

A further technical plant, wherein the fenestration mechanism includes a window, a window is pivotally connected to an upper side of the window frame, and an active space in which a left end wall communicates with an external space is installed in the window. A moving block is slid into and connected to the active space , a right end of the L-shaped block penetrates a left end wall of the active space and is in the active space , and a left end face of the moving block is a right end of the L-shaped block. Solidified with the surface.

As a further technical plant, the fastening mechanism includes a trapezoidal block, and front and rear ends of a lower end of the trapezoidal block come into contact with and are connected to a first cam and a second cam, respectively, and are connected to a center of a right end face of the trapezoidal block. A rotation shaft is pivotally connected to the position, a right end of the rotation shaft is fixed to a left end surface of the window frame, a jack is fixed to an upper end of the trapezoidal block, a lock block is installed at a front end of the jack, and the lock is provided. A right end face of the block is fixed to a left end face of the window, a lock groove is provided in the lock block, a rear end face of the lock groove is communicated with the external space, and a front end of the jack penetrates a rear end wall of the lock groove. Through and in the lock groove.

In a further technical plant, the first cam rotates only a half turn with the second cam while the second spur gear meshes and is connected with the third spur gear.

As a further technical plant, an electronic information control mechanism is installed inside the right side of the window frame, the electronic information control mechanism includes a signal light , and a position monitor is installed in the left side of the window frame.

Compared with the prior art, the advantages of the present invention are as follows: When the present invention is in operation, when closing the window, the liquid pump is started, the partition plate is pushed by the pressure and moves to the left, and the partition plate moves to the left. The push rod is moved to the left, and the push window mechanism drives the window to rotate it counterclockwise around the push window axis.After the window is completely closed, the hydraulic pump is closed and the electromagnet is energized. And the magnet and the electromagnet dislike each other, so that the slide block is moved to the left, and the slide block moves the push block to the left. Therefore, the second spur gear meshes with the third spur gear, and at this time, the first spur gear starts to mesh with the fourth spur gear. At this time, the thread block and the thread groove just mesh with each other. Rotates the drive shaft The rotation shaft is rotated by the transmission of the gear train, the rotation shaft interlocks the rotation of the thread block, and the thread block is screwed into the thread groove, thereby interlocking the rotation shaft to the left, thereby interlocking the thread block. When the screw thread is threaded out, the right end face of the push block comes into contact with the left end face of the second abutment block, and the second spur gear and the third spur gear are disengaged from each other in a state of meshing connection. Stop, the rotation of the rotating shaft causes the first cam and the second cam to rotate in conjunction with the transmission of the gear train, and while the rotating shaft is rotating, the trapezoid block is rotationally driven through the rotation of the first cam and the second cam. Therefore, the jack enters the lock groove in the lock block, at which time the window is closed tightly, then the drive motor is closed, the power of the electromagnet is turned off, and when the window is opened, the electromagnet is energized to release the magnetic force. Arising, magnetic The electromagnet attracts each other, and the push block is transmitted to move to the right, whereby the push block moves and moves the first abutment plate to the right, the second spur gear starts to mesh with the third spur gear, and the first spur gear starts to engage. The gear starts to mesh with the fourth spur gear, and at this time, the driving electric machine rotates in reverse to rotate the driving shaft, and the rotation of the rotation shaft through the transmission of the gear train. The thread block is screwed out of the thread groove, thus driving the rotating shaft to move to the right, and under the action of the force of the pushing block, the second spur gear and the third spur gear are disengaged from the meshing connection, and By stopping the rotation of the rotating shaft, the rotation of the rotating shaft causes the first cam and the second cam to rotate in conjunction with the transmission of the gear train, and while the rotating shaft is rotating, through the rotation of the first cam and the second cam. Rotate and drive the trapezoidal block The jack is released from the lock groove in the lock block, the window lock opens at this time, then the drive machine is turned off, the electromagnet is turned off, the hydraulic pump is started, and the partition plate is turned right under the action of pressure. The partition plate drives the first push rod to the right, so that the window mechanism drives the window to rotate counterclockwise around the window axis, and after the window is fully opened, Hydraulic pump closed, this device is simple in structure, easy to operate, realizes automatic opening and closing of window and lock at the same time, after lock and unlock is completed, avoid repetition of lock and unlock, properly Locks and unlocks and increases the stability of the device.

It is a front structure schematic diagram of a door and window automatic tying device preparation based on the electronic information technology of the present invention. It is a bird's-eye view enlarged structure schematic diagram of a work table of an automatic tie device of a door and a window based on the electronic information technology of the present invention. It is a front enlarged structure schematic diagram of a door and window automatic tie-up device working block based on the electronic information technology of the present invention. FIG. 5 is a schematic diagram of a left-view enlarged structure of a work block of an automatic tying device for doors and windows based on the electronic information technology of the present invention.

Hereinafter, the drawings related to the embodiments of the present invention will be combined and the technical methods in the embodiments of the present invention will be clearly and completely described, and the described embodiments will clearly explain some embodiments of the present invention. , Not all embodiments. According to the embodiment of the present invention, other examples can be obtained on the premise that ordinary technicians in this field do not pay creative labor, and they belong to the scope of protection of the present invention.

As shown in FIGS. 1-4, an embodiment of the present invention is provided: a door and window automatic wiring device based on electronic information technology includes a work table 20 and a hydraulic space 13 in the work table 20. Is installed, a partition plate 15 is slid in the hydraulic space 13, an electromagnet 16 is fixed to the left end surface of the partition plate 15, and a first push rod 11 is fixed to a right end surface of the partition plate 15. The right end of the first push rod 11 penetrates the right end wall of the hydraulic space 13 and is in the external space, and an L-shaped block 10 is fixedly installed on the right end of the push rod 11, A hydraulic pipe 12 communicating with hydraulic spaces 13 on both left and right sides of a partition plate 15 is provided on an upper end wall of the partition plate 15, and a hydraulic pump 14 is provided in the hydraulic pipe 12, and a left end wall of the hydraulic space 13 is provided. A slide space 22 is provided at the left side of the partition plate 15. A magnetic block 17 is installed in the pressure space 13, and a slide block 21 is fixed to the left end surface of the magnetic block 17. The left end of the slide block 21 penetrates the left end wall of the hydraulic space 13 and the slide space 22. , A push block 19 is fixed to the left end of the slide block 21, a first rotary housing 38 is installed below a left end wall of the slide space 22, and a thread groove 40 is provided in the middle of the first rotary housing 38. Are installed symmetrically in the vertical direction, a transmission housing 27 is installed on the right end wall of the slide space 22, a second rotating housing 32 is installed on the right end wall of the transmission housing 27, and a rotating housing is installed in the transmission housing 27. A shaft 30 is installed, a right end of the rotating shaft 30 penetrates a right end wall of the transmission space 27 and is located in the second rotating housing 32, and a left end of the rotating shaft 30 penetrates the transmission space 27 and performs the first rotation. A thread block 39 which is in the body 38 and is screwed and connected to the thread groove 40 at the left end of the rotating shaft 30 and is fixed to the left side of the pushing block 19 with the rotating shaft 30. An abutment plate 25 is installed, a second abutment plate 26 fixed to the rotating shaft 30 is installed on the right side of the push block 19, and a first spur gear 29 is fixed to the rotating shaft 30 in the transmission space 27. A second spur gear 28 fixed to the rotating shaft 30 is installed on the left side of the first spur gear 29, and a driving electric machine 34 is implanted above a right end wall of the transmission space 27. The drive shaft 31 is connected to the left end surface of the drive shaft 31 by power, the left end surface of the drive shaft 31 is pivotally connected to the left end wall of the transmission space 27, and the drive shaft 31 is meshed and connected to the upper end surface of the second spur gear 28. And a fourth spur gear 23 is fixed to the rear end of the first spur gear 29. A gear 43 is meshed and connected, a driving shaft 42 is fixedly connected to the center of the fourth spur gear 43, and left and right end surfaces of the driving shaft 42 are respectively connected to left and right end walls of the transmission space 27. The first bevel gear 61 is fixed to the left end of the first bevel gear, the second bevel gear 60 is meshed and connected to the rear end of the first bevel gear 61, and the driven shaft 59 is fixed to the center of the second bevel gear 60. A first rotation space 56 is installed in a rear end wall of the transmission space 27, a second rotation space 49 is installed in a rear end wall of the first rotation space 56, and a rear end of the driven shaft 59 is The driven shaft 59 penetrates the first rotating space 56 and is in the second rotating space 49, and the rear end face of the driven shaft 59 is pivotally connected to the second rotating space 49, and the driven shaft 59 is inserted into the first rotating space 56. A first main driving gear 50 to be fixed is provided, and a first main driving gear 50 is provided at a right end of the first main driving gear 50. The driven gear 44 is meshed and connected, the first turning shaft 36 is fixed to the center of the first driven gear 44, and the right end of the first turning shaft 36 passes through the right end wall of the first rotating space 56. A first cam 37 is fixed to the right end of the first rotating shaft 36 in the external space, and a second main driven gear 48 fixed to the driven shaft 43 is installed in the second rotating space 49. A second driven gear 47 meshes and is connected to the right end of the second main driven gear 48, and a second turning shaft 45 is fixed to the center of the second driven gear 47, The right end penetrates the second rotation space 49 and is in the external space, the second cam 46 is fixed to the right end of the second rotation shaft 45, and the support block 35 is fixed to the lower end surface of the worktable 20, The window frame 1 is fixed to the right end face of the support block 35, The fastening mechanism 24 is fixed to the left end face, the push window mechanism 18 is installed at the upper end of the window frame 1, and the electronic information control mechanism 66 is installed inside the right side of the window frame 1.

Advantageously, the fenestration mechanism 18 includes a window 7, the window 7 being pivotally connected to the upper side of the window frame 1, and the active space 5 having a left end wall communicating with the outside space in the window 7. is installed, the movable block 6 in the activity space 5 is slid and connected, there is in the L-shaped right end of the block 10 through the left end wall of the activity space 5 and the activity space 5, the moving block The left end face of the L-shaped block 6 is fixed to the right end face of the L-shaped block 10, and its role is to drive the left-right movement of the L-shaped block 10 to open and close the window 7.

Advantageously, the locking mechanism 24 includes a trapezoidal block 2, and the lower and front ends of the lower end of the trapezoidal block 2 contact and transmit and connect with a first cam 37 and a second cam 46, respectively. A rotation shaft 36 is pivotally connected to a center position of the right end surface, a right end of the rotation shaft 36 is fixed to a left end surface of the window frame 1, and a jack 41 is fixed to an upper end of the trapezoidal block 2. A lock block 4 is installed at the front end, a right end face of the lock block 4 is fixedly connected to a left end face of the window 7, a lock groove 3 is installed in the lock block 4, and a rear end face of the lock groove 3 is connected to an external space. The front end of the jack 41 penetrates through the rear end wall of the lock groove 4 and is in the lock groove 3, and the role of the first cam 37 and the second cam 46 is to drive the front and rear movement of the jack 41. This To tightly lock the window 7.

Advantageously, while the second spur gear 28 meshes with and is connected to the third spur gear 23, the first cam 37 and the second cam 46 rotate only half a turn, and the role of the latch mechanism 24 is correct. Ensure that it is turned on and off.

Advantageously, an electronic information control mechanism 66 is installed inside the right side of the window frame 1, the electronic information control mechanism 66 includes a signal light 65, and a position monitor 64 is installed in the left side of the window frame 1. Its role is to monitor whether the locking mechanism 24 is tightly locked and send an electronic signal to warn.

Specific usage: In the operation of the present invention, when the window is closed, the liquid pump 14 is activated, the partition plate 15 is pushed by the pressure and moves to the left, and the partition plate 15 moves the first push rod 11 to the left. The window mechanism 18 drives the window 7 to rotate it counterclockwise around the window shaft 8, and after the window 7 is completely closed, the hydraulic pump 14 is closed and the electromagnet 16 Is energized to generate a magnetic force, and the magnet 17 and the electromagnet 16 dislike each other. Therefore, the slide block 21 moves to the left and the slide block 21 moves the push block 19 to the left and moves. Under the action, the rotary shaft 30 is moved to the left, so that the second spur gear 28 meshes with the third spur gear 23, at which time the first spur gear 29 starts to mesh with the fourth spur gear 43, Mountain block 39 and The thread groove 40 just meshes, and at this time, the driving electric machine 34 rotates the drive shaft 31 in rotation, the rotation shaft 30 rotates by the transmission of the gear train, and the rotation shaft 30 rotates the thread block 39 in rotation. Is screwed into the thread groove 40, thereby causing the rotating shaft 30 to move to the left, and the thread block 39 screwing out the thread groove 40, the right end face of the push block 19 is moved to the left end of the second abutment block 26. The second spur gear 28 and the third spur gear 23 are disengaged from the state in which the second spur gear 28 and the third spur gear 23 are in meshing connection with each other, thereby stopping the rotation of the rotating shaft 30. The cam 37 and the second cam 46 are rotated and interlocked, and while the rotation shaft 30 is rotating, the trapezoidal block 2 is rotationally driven through the rotation of the first cam 37 and the second cam 46, so that the jack 41 is When the window penetrates into the lock groove 3 in the block 4 and the window is tightly closed at this time, the drive electric machine 34 is closed, the power of the electromagnet 16 is turned off, and when the window is opened, the electromagnet 16 is energized to reduce the magnetic force. Then, the magnet 17 and the electromagnet 16 attract each other, and the push block 19 is moved to the right by transmitting the push block 19, whereby the push block 19 moves and moves the first contact plate 25 to the right, and the second spur gear 28 moves to the third spur. The first spur gear 29 starts to mesh with the gear 23, and the first spur gear 29 starts to mesh with the fourth spur gear 43. At this time, the driving electric machine 34 rotates in reverse to drive the driving shaft 31 to rotate the rotating shaft 30 through the transmission of the gear train. When driven, the rotating shaft 30 rotates the threaded block 39 in rotation, and the threaded block 39 is screwed out of the threaded groove 40, thus driving the rotating shaft 30 to the right, and under the action of the force of the push block 19. In the second The spur gear 28 and the third spur gear 23 are disengaged from the meshed connection, thereby stopping the rotation of the rotating shaft 30, and the rotation of the rotating shaft 30 causes the first cam 37 and the second cam 46 to move through the transmission of the gear train. The rotation is interlocked and the trapezoid block 2 is rotationally driven through the rotation of the first cam 37 and the second cam 46 while the rotation shaft 30 is rotating, so that the jack 41 is separated from the lock groove 3 in the lock block 4. At this time, the lock of the window is opened, the drive motor 34 is turned off, the electromagnet 16 is turned off, the hydraulic pump 14 is started, and the partition plate 15 is driven to move to the right under the action of pressure. Drives the first push rod 11 to the right, so that the push window mechanism 18 drives the window 7 to rotate around the push window shaft 8 counterclockwise, and after the window 7 is fully opened, the hydraulic pressure Pump 14 closes and this device Simple structure, convenient operation, automatic opening and closing of windows and locks at the same time, after lock and unlock are completed, avoid repeated locking and unlocking, realize lock and unlock properly, equipment Increase stability.

For those skilled in the art, the present invention is not limited to the details of the exemplary embodiments described above, but may be embodied in other specific forms without departing from the significance or essential characteristics of the invention. Therefore, considering that this embodiment is by way of example and not of limitation, the scope of the present invention is limited to the appended claims, and all changes that fall into the meaning and scope of the equivalent important document of the claims are considered. Included in the present invention. Do not consider any attached markings in a rights request as limiting the rights request.

Claims (1)

An automatic wiring device for doors and windows based on electronic information technology includes a work table, a hydraulic space is installed in the work table, a partition plate is slidably connected in the hydraulic space, and the partition plate An electromagnet is fixed to the left end surface of the partition plate, a first push rod is fixed to the right end surface of the partition plate, the right end of the first push rod penetrates the right end wall of the hydraulic space and is in the external space, An L-shaped block is fixedly installed at the right end of the push rod, and a hydraulic pipe communicating with the hydraulic spaces on the left and right sides of the partition plate is installed on the upper end wall of the hydraulic space. A pump is installed, a slide space is installed on a left end wall of the hydraulic space, a magnetic block is installed in a hydraulic space on the left side of the partition plate, and a slide block is fixed to a left end surface of the magnetic block. , The left end of the slide block is the left end wall of the hydraulic space The slide block penetrates and is in the slide space, a push block is fixed to the left end of the slide block, a first rotary housing is installed below a left end wall of the slide space, and a thread groove is provided in the middle of the first rotary housing. Installed vertically symmetrically, a transmission housing is installed on the right end wall of the slide space, a second rotating housing is installed on the right end wall of the transmission housing, and a rotating shaft is installed in the transmission housing, The right end of the rotating shaft penetrates the right end wall of the transmission space and is in the second rotating housing, and the left end of the rotating shaft penetrates the transmitting space and is in the first rotating housing. A thread block which is screwed and connected to the groove is fastened, a first abutment plate fastened to the rotating shaft is installed on the left side of the push block, and a fastened shaft is fastened to the right side of the push block. A second backing plate is installed, and a turn in the transmission space is provided. A first spur gear is fixed to the turning shaft, a second spur gear fixed to the rotating shaft is installed on the left side of the first spur gear, and a driving electric machine is implanted above a right end wall of the transmission space. A driving shaft is connected to a left end surface of the driving electric machine by power; a left end surface of the driving shaft is pivotally connected to a left end wall of the transmission space; and the driving shaft is meshed with and connected to an upper end surface of the second spur gear. A third spur gear is fixed, a fourth spur gear is meshed and connected to the rear end of the first spur gear, and a main driving shaft is fixed to the center of the fourth spur gear, and left and right end faces of the main driving shaft are The first bevel gear is fixedly connected to the left end of the main drive shaft, the second bevel gear is meshed and connected to the rear end of the first bevel gear, and the second bevel gear is connected to the left and right end walls of the transmission space. A driven shaft is fixed to the center of the gear, a first rotation space is installed in a rear end wall of the transmission space, and a first rotation space is provided in a rear end wall of the first rotation space. A second rotation space is provided, a rear end of the driven shaft penetrates the first rotation space and is in the second rotation space, and a rear end surface of the driven shaft is pivotally connected to the second rotation space; A first main driven gear fixed to the driven shaft is installed in the rotating space, and a first driven gear is meshed and connected to a right end of the first main driven gear, and is connected to a center of the first driven gear. A first rotation axis is fixed, a right end of the first rotation axis penetrates a right end wall of the first rotation space and is in an external space, and a first cam is fixed to a right end of the first rotation axis; A second main driven gear fixed to the driven shaft is installed in the second rotating space, and a second driven gear is meshed and connected to a right end of the second main driven gear, and the second driven gear is The second rotation axis is fixed at the center, and the right end of the second rotation axis passes through the second rotation space and is in the external space. A second cam is fixed to a right end of the second rotation shaft, a support block is fixed to a lower end surface of the worktable, a window frame is fixed to a right end surface of the support block, and a left end surface of the window frame is fixed. A fastening mechanism is fixed to the upper part of the window frame, a push window mechanism is installed, the push window mechanism includes a window, a window is pivotally connected to an upper side of the window frame, and A slide space in which a left end wall communicates with the external space is provided, and a moving block is slid into and connected to the slide space, and a right end of the L-shaped block passes through a left end wall of the slide space and is in the slide space. The left end face of the moving block is fixedly connected to the right end face of the L-shaped block, and the connecting mechanism includes a trapezoidal block. Connected to the trapezoidal block A rotation shaft is pivotally connected to a center position of the right end surface, a right end of the rotation shaft is fixed to a left end surface of the window frame, a jack is fixed to an upper end of the trapezoidal block, and a lock block is installed at a front end of the jack. The right end surface of the lock block is fixed to the left end surface of the window, a lock groove is provided in the lock block, the rear end surface of the lock groove communicates with the external space, and the front end of the jack is located behind the lock groove. The first cam and the second cam rotate only half a revolution while the second spur gear meshes with and is connected to the third spur gear, and penetrates the end wall and is in the lock groove. An electronic information control mechanism is installed, the electronic information control mechanism includes a signal block, and a position monitor is installed in the left side of the window frame.

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