CN209891948U

CN209891948U - Waterproof gate door plant clamping control device

Info

Publication number: CN209891948U
Application number: CN201821957946.7U
Authority: CN
Inventors: 李彦贤; 洪绍博
Original assignee: Sanjiu Building Materials Industry Co ltd
Current assignee: Sanjiu Building Materials Industry Co ltd
Priority date: 2017-12-13
Filing date: 2018-11-26
Publication date: 2020-01-03
Anticipated expiration: 2028-11-26
Also published as: CN109972963B; TW201928185A; CN109972963A; TWI647377B

Abstract

The utility model discloses a water gate door plant clamping pressure controlling means, clamping pressure controlling means is as the actuation control of this telescopic actuator, in the process of this telescopic actuator process actuating and this push-and-pull rod of interlock promotion this clamping pressure pole clamping pressure this waterproof door board one side end, along with this waterproof door board other side end paste the tightness that should seal the adhesive tape and get tighter, the relation that this telescopic actuator power consumption is higher, when this waterproof door board tightly leans on should seal the adhesive tape and reach predetermined degree of tightness, the current feedback value signal that can transmit for signal processing interface unit through this current feedback signal unit is greater than the current ratio value, automatic stop telescopic actuator actuates; the waterproof gate does not need a limit or an inductive switch to detect the progress of the telescopic actuator, avoids or reduces the tedious adjustment or error adjustment of the energy transmitted from the progress thrust of the telescopic actuator to the clamping and pressing rod, and improves the reliability of the watertight effect of the waterproof door plate.

Description

Waterproof gate door plant clamping control device

Technical Field

The utility model relates to an use telescopic actuator as waterproof door plant watertight cramping power, can avoid or reduce the loaded down with trivial details timing of thrust energy or error adjustment, waterproof gate door plant cramp controlling means who has waterproof door plant watertight reliability and improve.

Background

The weather changes around the world, so that various natural disasters frequently occur, such as typhoons, continuous flood and loss of lives and properties of people are caused, and the damage caused by the flood invading into rooms or basements can be reduced by using the water-proof gate, wherein the use of the automatic or electric water-proof gate in public places is the most certain; in the existing electric water gate, as in the new patent of "water gate door plate direct pushing clamping watertight structure" utility model in taiwan, No. M534234, the water gate plate is lowered into the track of the door rail to form a water gate wall, the telescopic end of the telescopic actuator in the case is linked with a pull rod to drive a group of clamping devices in the door rail, and the direction of acting force is changed by the clamping devices to horizontally push a clamping rod to clamp the water gate plate at one end, so that the other end of the water gate plate is tightly attached to a sealing adhesive tape in the door rail to generate watertight (waterproof) effect; although the actions of the extension process and the retraction return stroke of the telescopic end of the telescopic actuator can push the clamping and pressing rod to clamp or separate the waterproof door panel, the stop time of the clamping and pressing action of the clamping and pressing rod to the waterproof door panel or the time of the separation of the clamping and pressing action from the return stroke action must be sensed or detected to transmit the information that the telescopic actuator stops acting by a switch element, namely, the extension process of the telescopic end of the telescopic actuator is that a process limit switch (such as a touch switch) is arranged on a transmission path, and when the waterproof door panel is pushed and pressed by the clamping and pressing rod to reach a preset watertight degree, the process limit switch is touched (the power end electric control loop of the telescopic actuator is switched) timely to control the telescopic actuator to stop the process action; obviously, the pressure stopping time point when the clamping and pressing rod pushes and presses the waterproof door panel is completely determined by the touch reaction point of the progress limit switch, the reaction is too fast, the waterproof door panel is not well sealed with the sealing rubber strip, and the reaction is too slow, so that the sealing rubber strip is too large and deformed, and the waterproof capability is reduced; generally speaking, the final stage micro displacement of the clamping and pressing rod can generate great influence on the clamping and locking force of the waterproof door panel, the limit switch belongs to a non-precise sensing element in the electric control field (the triggering reaction tolerance is large), and a multi-connecting-rod transmission mechanism is arranged between the pull rod and the clamping and pressing rod, so that great force transmission action errors are bound to exist, therefore, the installation engineering of the waterproof gate needs to spend much manpower, and the action consistency of the transmission connecting rod is checked or corrected in a complicated way, and the action position or the triggering reaction point of the limit switch is adjusted; although the mechanical limit switch can be changed to a photoelectric switch element to increase the control precision, the multi-link transmission mechanism is not only capable of reducing the inspection labor when the machining size precision of the link is in accordance with the requirement, but is mostly limited by the installation environment condition of the waterproof gate, so that the optimal locking point is not easy to be accurately adjusted or adjusted, and the watertight reliability after the waterproof gate is officially started is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a water-proof gate door plant clamping control device, be a water-proof gate, lean on and put a plurality of water-proof door plants in a quick-witted case, can pass through sprocket and chain by a motor and drive these a plurality of water-proof door plants, these a plurality of water-proof door plants put down along the track of a pair of door rails one by one, mutual splice forms a water-proof wall, and be equipped with at least one in this quick-witted case of this pair of door rail upper end and regard as the flexible actuator of power with the motor, utilize a flexible end process and the return stroke action of this flexible actuator, a interlock push-and-pull rod goes up and down in this door rail and drive a set of clip trigger, and promote a clip depression bar by this clip trigger and produce the horizontal displacement action on the track of this door rail, can be by a face end of this water-proof door plant of this clip depression bar clamping, make another face end closely paste and form the watertight on a sealing adhesive tape in this door rail; the telescopic end of the telescopic actuator is controlled by a group of clamping control devices, and the clamping control devices at least comprise a power supply, an actuation control unit, a current feedback signal generating unit and an information processing interface unit; the power supply is connected with an external power supply through an input end to perform voltage stabilization and rectification processing, and provides a voltage stabilization power supply for the telescopic actuator end and provides working power for the information processing interface unit end; the actuating control unit is connected with a voltage-stabilized power supply from the power supply end and controls the telescopic actuator to generate the actions of extension process, retraction return stroke or stopping through the switching of a switch circuit; the current feedback signal generating unit detects the power signal change of the telescopic actuator on the control circuit of the telescopic actuator by the actuating control unit and converts the detection signal, and outputs a current feedback value signal to the information processing interface unit; the information processing interface unit is provided with at least one microprocessor, a current comparison value is arranged on the microprocessor, the current feedback signal generating unit end receives the current feedback value signal and compares the current feedback value signal with the current comparison value, and when the current feedback value signal is greater than the current comparison value, a stop signal is output to the actuating control unit, so that the actuating control unit controls the telescopic actuator to stop actuating; namely, the clamping control device is used for controlling the actuation of the telescopic actuator, in the process that the telescopic actuator actuates in the process of driving the push-pull rod to push the clamping rod to clamp one surface end of the waterproof door panel, along with the tightness that the other surface end of the waterproof door panel is attached to the sealing rubber strip, the higher the electric power consumption of the telescopic actuator is, when the waterproof door panel is attached to the sealing rubber strip to reach the preset tightness, the current feedback value signal transmitted to the signal processing interface unit through the current feedback signal unit is greater than the current comparison value, and the actuation of the telescopic actuator is automatically stopped; the waterproof gate does not need a limit or an inductive switch to detect the progress of the telescopic actuator, avoids or reduces the tedious adjustment or error adjustment of the energy transmitted from the progress thrust of the telescopic actuator to the clamping and pressing rod, and improves the reliability of the watertight effect of the waterproof door plate.

An object of the utility model is to provide a water proof gate door plant cramp controlling means, wherein, an input of this information processing interface unit is equipped with one and compares value setting ware, compares the value size through the adjustable or electric current ratio of setting for this microprocessor of this value setting ware of this ratio, makes this cramp bar to the cramp pressure of this water proof door plant, can simply accomplish timing or settlement fast by this value setting ware of comparing.

Another object of the present invention is to provide a water gate door plant clamping control device, wherein, an input of this information processing interface unit is equipped with a clamping operation ware, and this information processing interface unit has a plurality of output electric connections and should actuate the control unit, can operate this to actuate the control unit through this clamping operation ware and switch over the action, make this actuate the control unit to this telescopic actuator actuate control, can carry out digit or intelligent management by this information processing interface unit.

Another object of the utility model is to provide a water gate door plant cramp controlling means, wherein, an input of this information processing interface unit is equipped with a return stroke limit switch, and this return stroke limit switch equipment is on the return route terminal point position of this push-and-pull rod of the flexible end return stroke interlock of this telescopic actuator, when the flexible end return of this telescopic actuator arrives the journey position, through the inspection of this return stroke limit switch, produce stop signal to this actuating the control unit through this information processing interface unit, make this actuating the control unit and can control this telescopic actuator immediately and stop actuating.

Another object of the present invention is to provide a device for controlling the clamping pressure of a door panel of a water gate, wherein an output end of the information processing interface unit is provided with a prompter, when the information processing interface unit receives a current feedback value signal from the current feedback signal generating unit for comparison, the information processing interface unit generates or changes a prompt signal through the prompter, and can transmit the comparison process or result to the outside as a prompt message; and the prompter is an LED light-emitting diode light signal prompter, and the adhesion of the waterproof door plate and the sealing rubber strip is judged to be in a not-tight or completely-tight waterproof state according to the change of the brightness, the color or the flashing rate of the light signal.

Another object of the present invention is to provide a water gate door plate clamping control device, wherein an output of the information processing interface unit is provided with a display, and characters, numbers or figures can be displayed through the display, so that the work content or data of the information processing interface unit can be displayed through the display of the display, and information can be transmitted externally.

Drawings

FIG. 1 is a schematic view of the exterior of the water gate of the present invention;

FIG. 2 is a schematic cross-sectional view of the structure of FIG. 1A-A;

FIG. 3 is a schematic front view of the waterproof door of the present invention when it is laid down;

FIG. 4 is a schematic view of the cross-sectional structure of the waterproof door panel of the present invention when it is laid down;

FIG. 5 is a schematic side sectional view of the door rail upper clamp of the present invention;

FIG. 6 is a schematic view of the assembly structure of the internal clip stopper of the door rail section of the present invention;

FIG. 7 is a schematic view of the sectional side structure of the door rail when the waterproof door panel of the present invention is watertight in the door rail;

FIG. 8 is a schematic view of the internal structure of the door rail section when the waterproof door panel of the present invention is watertight in the door rail;

fig. 9 is a block diagram of the system of the clamping control device of the present invention.

Reference number description 10-chassis; 11-a motor; 12-a sprocket; 13-a chain; 20-waterproof door panel; 30-a door rail; 31-a track; 32-sealing adhesive tape; 40-a telescopic actuator; 50-a push-pull rod; 60-a clamp; 70-clamping and pressing rod; 80-a nip control device; 81-a power supply; 82-an actuation control unit; 83-a current feedback signal generating unit; 84-information processing interface unit; 840-a microprocessor; 841-comparison value setter; 842-a crimp operator; 843-return limit switch; 844-a prompter; 845-a display; 85-external power supply.

Detailed Description

The present invention for achieving the above objects, best mode for carrying out the invention, in conjunction with the accompanying drawings, is described in detail as follows:

a waterproof gate door plate clamping and pressing control device, as shown in figures 1, 2, 3, 4, is a waterproof gate, a plurality of waterproof door plates 20 are arranged in a machine box 10 in parallel, a motor 11 can drive the waterproof door plates 20 through a chain wheel 12 and a chain 13, the waterproof door plates 20 are put down one by one along a track 31 of a pair of door rails 30 and are mutually overlapped to form a waterproof wall, at least one telescopic actuator 40 using the motor as power is arranged in the machine box 10 at the upper end of the door rails 30, a telescopic end process and a return motion of the telescopic actuator 40 are utilized, as shown in figures 2, 4, 5, 6, 7, 8, a push-pull rod 50 is linked to lift in the door rails 30 to drive a group of clamping devices 60, the clamping devices 60 push a clamping rod 70 to generate a horizontal displacement motion on the track 31 of the door rails 30, one end of the waterproof door plate 20 can be clamped by the clamping rod 70, the other end of the door rail is tightly attached to a sealing rubber strip 32 in the door rail 30 to form watertight; as shown in fig. 2, 4 and 9, the retracting and retracting actions of the retracting and extending actuator 40 are controlled by a set of clamping and pressing control device 80, wherein the clamping and pressing control device 80 at least comprises a power supply 81, an actuating control unit 82, a current feedback signal generating unit 83 and an information processing interface unit 84; the power supply 81 is connected to an external power source 85 at an input end thereof for voltage stabilization and rectification, and provides a voltage-stabilized power supply to the telescopic actuator 40 end and working power to the information processing interface unit 84 end; the actuating control unit 82 is a loop switch unit composed of a plurality of relay switches, and a stabilized voltage power supply is connected to the end of the power supply 81, and the telescopic actuator 40 is controlled to generate the actions of extension, retraction or stop through the switching of a switch circuit; the current feedback signal generating unit 83 detects the change of the power signal of the telescopic actuator 40 in the control circuit of the actuator control unit 82 to the telescopic actuator 40, and converts the detected signal to output a current feedback value signal to the information processing interface unit 84; the information processing interface unit 84 has at least one microprocessor 840, the microprocessor 840 is provided with (stores and memorizes) a current comparison value, the current feedback signal generating unit 84 receives the current feedback value signal and compares the current feedback value signal with the current comparison value, and when the current feedback value signal is greater than the current comparison value, a stop signal is output to the actuation control unit 82, so that the actuation control unit 82 controls the telescopic actuator 40 to stop actuating; that is, the clamping control device 80 is used for controlling the actuation of the telescopic actuator 40, as shown in fig. 4, 6, 7 and 9, in the process that the telescopic actuator 40 is operated to move and the push-pull rod 50 is linked to push the clamping rod 70 to clamp one end of the waterproof door panel 20, as the tightness of the other end of the waterproof door panel 20 against the sealing rubber strip 22 is tighter, the telescopic actuator 40 uses higher electric power (higher current), when the waterproof door panel 20 is tightly leaned against the sealing rubber strip 32 to reach a predetermined tightness, the current feedback value signal transmitted to the signal processing interface unit 84 through the current feedback signal unit 82 is greater than the current comparison value, and the actuation of the telescopic actuator 40 is automatically stopped; the waterproof gate does not need limit or inductive switch to detect the process (preset end point) of the telescopic actuator 40, thereby avoiding or reducing the tedious adjustment or error adjustment of the energy transmitted from the process thrust of the telescopic actuator 40 to the clamping rod 70 and improving the reliability of the watertight effect of the waterproof door panel.

According to the above embodiment, as shown in fig. 9, an input end of the information processing interface unit 84 is provided with a comparison value setting device 841, the comparison value setting device 841 can adjust or set the comparison value of the current of the microprocessor 840, as shown in fig. 4, 7, 8 and 9, so that the clamping pressure of the clamping pressure bar 70 on the waterproof door panel 20 can be adjusted or set simply and quickly by the comparison value setting device 841.

According to the above embodiment, as shown in fig. 9, a clamping operation device 842 is disposed at an input end of the information processing interface unit 84, and the information processing interface unit 84 has a plurality of output ends electrically connected to the actuating control unit 82, the actuating control unit 82 can be operated to perform a switching operation through the clamping operation device 842, so that the actuating control unit 82 can control the actuation of the telescopic actuator 40, and the information processing interface unit 84 can perform digital or intelligent management.

According to the above embodiment, as shown in fig. 9, an input end of the information processing interface unit 84 is provided with a return limit switch 843, as shown in fig. 2 and 4, and the return limit switch 843 is assembled at an end position of a return path of the push-pull rod 50 linked with the return of the telescopic end of the telescopic actuator 40, as shown in fig. 2, 4 and 9, when the telescopic end of the telescopic actuator 40 returns to the start position, the information processing interface unit 84 generates a stop signal to the actuation control unit 82 through detection of the return limit switch 843, so that the actuation control unit 82 can immediately control the telescopic actuator 40 to stop the return actuation.

According to the above embodiment, as shown in fig. 9, an output end of the information processing interface unit 84 is provided with a prompter 844, when the information processing interface unit 84 receives the current feedback value signal from the current feedback signal generating unit 83 for comparison, the information processing interface 84 generates or changes through the prompting signal of the prompter 844, and can transmit the comparison process or result to the outside for prompting information; the indicator 844 is an LED light indicator 844, and it is determined from the change of the brightness, color or flashing rate of the light, as shown in fig. 4, 7 and 8, that the waterproof door panel 20 is not in close contact with the sealing rubber strip 32 or is in a completely close waterproof state.

According to the above embodiment, as shown in fig. 9, an output end of the information processing interface unit 84 is provided with a display 845, and characters, numbers or figures can be displayed through the display 845, so that the working content or data of the information processing interface unit 84 is displayed through the display 845 to transmit information to the outside.

The foregoing description is intended to be illustrative rather than limiting, and it will be appreciated by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. A waterproof gate door plant pinches and presses the controlling device, it is a waterproof gate, lean on and put a plurality of waterproof door plants in a chassis, drive these waterproof door plants through sprocket and chain by a motor, a plurality of waterproof door plants put down one by one along the orbit of a pair of door rails, it forms a waterproof wall to overlap each other, and the chassis of the upper end of the door rail of this pair of doors has at least one flexible actuator taking motor as power, utilize a flexible end course and return stroke movement of the flexible actuator, link a push-and-pull rod and go up and down and drive a pack of clamp catches in the door rail, and promote a clamp bar to produce the horizontal displacement movement on the orbit of the door rail by the clamp catch, press a face end of the waterproof door plant by the clamp bar, make another face end closely lean on and form the watertight on a sealing adhesive tape in the door rail; the method is characterized in that:

the telescopic end of the telescopic actuator is controlled by a group of clamping control devices, and the clamping control devices at least comprise a power supply, an actuation control unit, a current feedback signal generating unit and an information processing interface unit;

the power supply is connected with an external power supply through an input end to perform voltage stabilization and rectification processing, and provides a voltage stabilization power supply for the telescopic actuator end and provides working power for the information processing interface unit end;

the actuating control unit is connected with a voltage-stabilized power supply from the power supply end and controls the telescopic actuator to generate the actions of extension process, retraction return stroke or stopping through the switching of a switch circuit;

the current feedback signal generating unit detects the power signal change of the telescopic actuator on the control circuit of the telescopic actuator by the actuating control unit, converts the detection signal and outputs a current feedback value signal to the information processing interface unit;

the information processing interface unit is provided with at least one microprocessor, a current comparison value is arranged on the microprocessor, the current feedback signal generating unit end receives the current feedback value signal and compares the current feedback value signal with the current comparison value, and when the current feedback value signal is greater than the current comparison value, a stop signal is output to the actuating control unit, so that the actuating control unit controls the telescopic actuator to stop actuating;

the clamping control device is used for controlling actuation of the telescopic actuator, the process of the telescopic actuator is actuated to drive the push-pull rod to push the clamping rod to clamp one end of the waterproof door panel, the tightness of the sealing rubber strip is tighter along with the other end of the waterproof door panel clinging to the other end of the waterproof door panel, the higher electric power consumption of the telescopic actuator is, when the waterproof door panel clings to the sealing rubber strip to reach the preset tightness, the current feedback value signal transmitted to the signal processing interface unit through the current feedback signal unit is greater than the current comparison value, and the telescopic actuator is automatically stopped from actuating.

2. The apparatus of claim 1, wherein an input of the interface unit has a comparison value setter, and the comparison value setter modulates or sets a comparison value of the current of the microprocessor.

3. The apparatus of claim 1, wherein an input of the interface unit has a clamping operator, and the interface unit has a plurality of outputs electrically connected to the actuation control unit, and the clamping operator operates the actuation control unit to perform the switching operation.

4. The apparatus as claimed in claim 1, wherein an input end of the information processing interface unit is provided with a return limit switch, and the return limit switch is assembled at an end position of a return path of the push-pull rod linked to the return of the telescopic end of the telescopic actuator, when the telescopic end of the telescopic actuator returns to the start position, the information processing interface unit generates a stop signal to the actuation control unit through detection of the return limit switch, so that the actuation control unit immediately controls the telescopic actuator to stop actuation.

5. The apparatus of claim 1, wherein an output terminal of the information processing interface unit is provided with a reminder, and when the information processing interface unit receives the current feedback value signal from the current feedback signal generating unit for comparison, the information processing interface unit generates or changes a prompting signal through the reminder to transmit the comparison process or result to the outside as a prompting message.

6. The waterproof gate door panel clamping control device as claimed in claim 5, wherein the indicator is an LED light indicator, and the adherence of the waterproof door panel and the sealing rubber strip is determined to be in a not-tight or completely-tight waterproof state according to the change of the brightness, color or flashing rate of the light indicator.

7. The apparatus as claimed in claim 1, wherein an output end of the information processing interface unit is provided with a display, and characters, numbers or figures are displayed on the display, so that the operation contents or data of the information processing interface unit are displayed on the display to transmit information to the outside.