CN104120952A - Wind power controlled screen linkage structure of suspension sliding door - Google Patents

Abstract

The invention relates to a wind power controlled screen linkage structure of a suspension sliding door. The wind-power controlled screen linkage structure comprises a screen which can be opened and closed, a screen driving device for driving the screen to be opened and closed, and a wind power sensing control device for controlling the screen driving device, wherein a ventilating cavity allowing wind to pass is formed when the screen is opened. By means of the scheme, according to the wind-power controlled screen linkage structure of the suspension sliding door, wind pressure is automatically reduced, and the service life is prolonged.

Description

The screen linkage structure with wind control of suspension translation door

Technical field

The present invention relates to a kind of suspension translation door, be specifically related to a kind of screen linkage structure with wind control of the translation door that suspends.

Background technology

Suspension translation door is a kind of device that the accesss, large-scale place such as various enterprises, factory are opened or sealed that is applied to, due to its translation that just suspends on the ground, and need not lay track, so it is not subject to the restriction of underground cables, well cover for sewer, also be not afraid of rolling of crawler belt engineering truck and heavy goods vehicle, therefore nowadays by extensive use on a large scale.

Traditional suspension translation door comprises a body, the supporting seat providing support for door body and the sealing doorframe coordinating with door end of body, on supporting seat, be provided with the driving mechanism of driving gate body translation, door body is disposed with the screen of several rotatable unlatchings and the screen drive unit that drives screen to open and close along its length, but in some cities or more spacious place often can form stronger strong wind, opposite house body forms repeatedly and impacts, cause the track in a body to tilt or bending, once the frequency that high wind occurs increases, also just increased maintenance frequency, greatly reduce the application life of suspension translation door.

For addressing the above problem; generally can offer and set gradually several gravity vents; but such mode just greatly reduces the confidentiality in enterprise or place; in the time that carrying out " locked in " operation in to place, cannot seal by needs; this just needs the screen that can open rear formation vented cavity is set, and coordinates according to the wind control device of actual wind-force and reaches automatic protection door body and the freely effect of the property adjusted.

Summary of the invention

The deficiency existing for prior art, the screen linkage structure with wind control of the suspension translation door that the object of the present invention is to provide a kind of automatic minimizing blast, increases the service life.

For achieving the above object, the invention provides following technical scheme: comprise able to turn on or off screen, drive screen drive unit that screen opens and closes and the wind-force induction controller of control flow wind driven device, when described screen is opened, form the vented cavity can air feed passing through.

By adopting technique scheme, by wind-force induction controller is set, in the time that wind-force is excessive, control screen drive unit and open screen, originally in the space that the wind part that will impact a body is reserved from screen is opened, pass a door body, a blast that body entirety is subject to is reduced greatly, avoid the track air inducing in a body to press excessive inclination or bending, greatly extended the whole service life of suspension translation door.

The present invention is further set to: described wind-force induction controller comprises wind-force induction mechanism and reception wind-force induction mechanism signal and drives the controller of screen drive unit, described wind-force induction mechanism comprises base, on described base, rotate and be vertically provided with gangbar, described gangbar is positioned at base top and is provided with the dwang that drives gangbar to rotate, described dwang rule is arranged on gangbar side face, the other end of the described relative gangbar of dwang be provided with for Wind power propelling and level towards cavity, on described base, be also provided with the signal transmission component that the signal of telecommunication is provided to screen drive unit in the time rotating.

By adopting technique scheme, wind-force drives gangbar to rotate by being gathered in cavity, action is passed to signal transmitter structure, send the signal of telecommunication by signal transmitter structure again, when gangbar turn up to a certain extent after, controller receive signal of telecommunication grow, drive screen drive unit open screen, controller can adopt common PLC or single-chip microcomputer, can arrange separately on the master controller that also can be connected in suspension translation door.

The present invention is further set to: described signal transmission component comprises that being arranged at gangbar is positioned at the magnet of base below and the coil being electrically connected with controller.

By adopting technique scheme; adopt the fit structure of coil and magnet comparatively simple; react rapider; when magnet turn up to a certain extent after, when size of current is greater than to a certain degree, controller drives screen drive unit to open screen; form vented cavity; shutter body, and the electric energy of generation can be carried out by battery stores to energy conservation simultaneously.

The present invention is further set to: described screen center is vertically provided with rotary main shaft, described screen drive unit comprises screen motor and by the motor-driven control lever of screen, described control lever horizontally set setting corresponding to rotary main shaft end, the described control lever outer peripheral face position corresponding with rotary main shaft end is provided with the first linkage block, described rotary main shaft periphery is provided with and is that cross is arranged and supports with the first linkage block the second linkage block that timing is connected, between described rotary main shaft and control lever, be also provided with the detent mechanism of locking screen position.

By adopting technique scheme, drive rotation control lever by screen motor, coordinate the second linkage block driven rotary main shaft of rotary main shaft to rotate by the first linkage block on control lever, drive screen rotation, can drive angle to carry out adjusting screen open angle according to motor, to show different bandwagon effects, or open show enterprises image completely, in the time running into high wind and large wind regime, motor fast rotary circles, be the just in time half-twist of the first linkage block that cross is arranged, make the screen under full-shut position change rapidly full-gear into, make wind-force be low to moderate minimum to the infringement of a generation, greatly extend the application life of door, next locking mechanism that door is set can not produce swing because of the problem of wind-force during in any state when door, work more stable.

The present invention is further set to: the first described linkage block is provided with the lead-in chamfered of avoiding the first linkage block and the second linkage block to block on the end face of the second linkage block.

By adopting technique scheme, can adopt the screen of different size and the control lever of different size to coordinate, arrive required effect, and such cooperation there will be the upper surface laminating of its end face and the second linkage block while turning under the first linkage block to cause stuck, avoid above-mentioned situation so lead-in chamfered is set, interlock can be joined until both form to support along lead-in chamfered slippage in the edge of the second linkage block.

The present invention is further set to: described detent mechanism comprises and is arranged at the limited block of rotary main shaft outer peripheral face and around the stopper that is arranged at control lever outer peripheral face, described limited block is cross and arranges, described stopper supports and is assigned between two limited blocks, on described stopper outer peripheral face, be provided with promotion breach, the first described linkage block and the second linkage block offset, and to promote the position of breach and adjacent limited block corresponding in timing.

By adopting technique scheme, stopper on control lever is barred between two limited blocks, the screen being under closure or full-gear is locked, the position of supporting timing promotion breach and adjacent limited block when the second linkage block of the first linkage block on control lever and rotary main shaft is corresponding, the first linkage block drives stopper when continuing to rotarily drive the second linkage block, promoting breach forms mobile spacing to limited block, it is positioned in breach always cannot swing, and supports the state of joining until return to while being pushed out breach with stopper.

The present invention is further set to: described promotion breach inner side is towards the curved setting in the edge of limited block.

By adopting technique scheme, owing to adopting the screen of different size and the control lever of different size to coordinate, avoid stopper and limited block shock to cause stuck.

The present invention is further set to: the cross section of described screen is fusiformis, and described screen both sides are provided with the guiding cambered surface that wind direction screen both sides are guided, and the concourse at two described guiding cambered surface two ends is provided with the summit of cutting apart that wind is cut apart.

By adopting technique scheme, because fusiformis both sides are streamlined setting, maximum possible reduces the impact of wind-force to screen, cut apart summit the wind-force in unit area is divided into two halves, push to cavity place, screen both sides by guiding cambered surface by fairshaped cambered surface again, maximum possible reduces the impact that wind causes at this part of opposite house body of screen.

The present invention is further set to: between described control lever and screen motor, be respectively arranged with and be meshed and dismountable gear.

By adopting technique scheme, ensure that screen and control lever accurately link by gear changing more when the debugging, and do not need to adjust motor or other structures of screen, greatly save debugging and set-up time.

Below in conjunction with the drawings and specific embodiments, the invention will be further described.

Brief description of the drawings

Fig. 1 is the theory diagram of the specific embodiment of the invention;

Fig. 2 is the stereogram of screen and screen drive unit in the specific embodiment of the invention;

Fig. 3 is the structural representation of screen drive unit in the specific embodiment of the invention;

Fig. 4 is the stereogram of screen in the specific embodiment of the invention;

Fig. 5 is the stereogram of wind-force induction controller in the specific embodiment of the invention;

Fig. 6 is the structure sectional view of wind-force induction controller in the specific embodiment of the invention.

Detailed description of the invention

As shown in Fig. 1-Fig. 6, the invention discloses a kind of screen linkage structure with wind control of the translation door that suspends, comprise able to turn on or off screen 1, drive the screen drive unit 2 of screen keying and the wind-force induction controller of control flow wind driven device 2, when opening, screen forms the vented cavity can air feed passing through, by wind-force induction controller is set, in the time that wind-force is excessive, control screen drive unit 2 and open screen, originally in the space that the wind part that will impact a body is reserved from screen is opened, pass a door body, a blast that body entirety is subject to is reduced greatly, avoid the track air inducing in a body to press excessive inclination or bending, greatly extend the whole service life of suspension translation door.

Wind-force induction controller comprises wind-force induction mechanism 3 and reception wind-force induction mechanism 3 signals and drives the controller of screen drive unit, wind-force induction mechanism 3 comprises base 31, on base 31, rotate and be vertically provided with gangbar 32, gangbar 32 is positioned at base 31 tops and is provided with the dwang 33 that drives gangbar 32 to rotate, dwang 33 rules are arranged on gangbar 32 side faces, the other end of dwang 33 relative gangbar 32 be provided with for Wind power propelling and level towards cavity 34, on base 31, be also provided with the signal transmission component 35 that the signal of telecommunication is provided to controller in the time rotating, wind-force drives gangbar 2 to rotate by being gathered in cavity 34, action is passed to signal transmitter structure 35, send the signal of telecommunication by signal transmitter structure 35 again, when gangbar 32 turn ups to a certain extent after, the signal of telecommunication grow that controller receives, drive screen drive unit 2 to open screen 1.

Signal transmission component 35 comprises and is arranged at the coil 352 that gangbar 32 is positioned at the magnet 351 of base 31 belows and is electrically connected with controller; adopt the fit structure of coil 352 and magnet 351 comparatively simple; react rapider; when magnet turn up to a certain extent after, when size of current is greater than to a certain degree, controller drives screen drive unit 2 to open screen; form vented cavity; shutter body, and the electric energy of generation can be carried out by battery stores to energy conservation simultaneously.

Screen 1 center is vertically provided with rotary main shaft 11, the control lever 22 that screen drive unit 2 comprises screen motor 21 and driven by screen motor 21, control lever 22 horizontally sets and with the rotary main shaft 11 corresponding settings in end, the control lever 22 outer peripheral faces position corresponding with rotary main shaft end is provided with the first linkage block 221, rotary main shaft 11 peripheries are provided with and are that cross is arranged and support with the first linkage block 221 the second linkage block 111 that timing is connected, between rotary main shaft 11 and control lever 22, be also provided with the detent mechanism of locking screen position, drive rotation control lever 22 by screen motor 21, coordinate the second linkage block 111 driven rotary main shafts 11 of rotary main shaft 11 to rotate by the first linkage block 221 on control lever 22, drive screen 1 to rotate, can drive angle to carry out adjusting screen open angle according to motor, to show different bandwagon effects, or open show enterprises image completely, in the time running into high wind and large wind regime, motor fast rotary circles, be the just in time half-twist of the first linkage block 221 that cross is arranged, make the screen under full-shut position change rapidly full-gear into, make wind-force be low to moderate minimum to the infringement of a generation, greatly extend the application life of door, next locking mechanism that door is set can not produce swing because of the problem of wind-force during in any state when door, work more stable.

The first linkage block 221 is provided with the lead-in chamfered 2211 of avoiding the first linkage block 221 and the second linkage block 111 to block on the end face of the second linkage block 111, can adopt the screen of different size and the control lever of different size to coordinate, arrive required effect, and such cooperation there will be the upper surface laminating of its end face and the second linkage block 111 in the time that the first linkage block turns for 221 times to cause stuck, avoid above-mentioned situation so lead-in chamfered 2211 is set, interlock can be joined until both form to support along lead-in chamfered 2211 slippages in the edge of the second linkage block 111.

Detent mechanism comprises and is arranged at the limited block 112 of rotary main shaft 11 outer peripheral faces and around the stopper 222 that is arranged at control lever 22 outer peripheral faces, limited block 112 is cross and arranges, stopper 222 supports and is assigned between two limited blocks 112, on stopper 222 outer peripheral faces, be provided with and promote breach 223, the first linkage block 221 and the second linkage block 111 offset, and to promote breach 223 corresponding with the position of adjacent limited block 112 in timing, stopper 222 on control lever 22 is barred between two limited blocks 112, the screen 1 being under closure or full-gear is locked, the position of supporting timing promotion breach 223 and adjacent limited block 112 when the second linkage block 111 of the first linkage block 221 on control lever 22 and rotary main shaft 11 is corresponding, the first linkage block 221 drives stopper 222 when continuing to rotarily drive the second linkage block 221, promoting breach 223 forms mobile spacing to limited block 112, it is positioned in breach always cannot swing, support the state of joining until return to while being pushed out breach 223 with stopper 222.

Promote breach 223 inner sides towards the curved setting in the edge 2231 of limited block 112, owing to adopting the screen of different size and the control lever of different size to coordinate, avoid stopper 222 and limited block 112 shocks to cause stuck.

The cross section of screen 1 is fusiformis, screen 1 both sides are provided with the guiding cambered surface 12 that wind direction screen both sides are guided, the concourse at two guiding cambered surface 12 two ends be provided with wind is cut apart cut apart summit 13, because fusiformis both sides are streamlined setting, maximum possible reduces the impact of wind-force to screen 1, cut apart summit 13 wind-force in unit area is divided into two halves, push to screen 1 cavity place, both sides by guiding cambered surface 12 by fairshaped cambered surface again, maximum possible reduces the impact that wind causes at this part of opposite house body of screen.

Between control lever 22 and screen motor 21, be respectively arranged with and be meshed and dismountable gear 23, ensure that screen and control lever accurately link by gear changing more when the debugging, and do not need to adjust motor or other structures of screen, greatly save debugging and set-up time.

Claims (9)

1. the screen linkage structure with wind control of the translation door that suspends, it is characterized in that: comprise able to turn on or off screen, drive screen drive unit that screen opens and closes and the wind-force induction controller of control flow wind driven device, when described screen is opened, form the vented cavity can air feed passing through.

2. the screen linkage structure with wind control of suspension translation door according to claim 1, it is characterized in that: described wind-force induction controller comprises wind-force induction mechanism and reception wind-force induction mechanism signal and drives the controller of screen drive unit, described wind-force induction mechanism comprises base, on described base, rotate and be vertically provided with gangbar, described gangbar is positioned at base top and is provided with the dwang that drives gangbar to rotate, described dwang rule is arranged on gangbar side face, the other end of the described relative gangbar of dwang be provided with for Wind power propelling and level towards cavity, on described base, be also provided with the signal transmission component that the signal of telecommunication is provided to controller in the time rotating.

3. the screen linkage structure with wind control of suspension translation door according to claim 2, is characterized in that: described signal transmission component comprises that being arranged at gangbar is positioned at the magnet of base below and the coil being electrically connected with controller.

4. according to the screen linkage structure with wind control of the suspension translation door described in claim 1 or 2 or 3, it is characterized in that: described screen center is vertically provided with rotary main shaft, described screen drive unit comprises screen motor and by the motor-driven control lever of screen, described control lever horizontally set setting corresponding to rotary main shaft end, the described control lever outer peripheral face position corresponding with rotary main shaft end is provided with the first linkage block, described rotary main shaft periphery is provided with and is that cross is arranged and supports with the first linkage block the second linkage block that timing is connected, between described rotary main shaft and control lever, be also provided with the detent mechanism of locking screen position.

5. the screen linkage structure with wind control of suspension translation door according to claim 4, is characterized in that: the first described linkage block is provided with the lead-in chamfered of avoiding the first linkage block and the second linkage block to block on the end face of the second linkage block.

6. the screen linkage structure with wind control of suspension translation door according to claim 5, it is characterized in that: described detent mechanism comprises and is arranged at the limited block of rotary main shaft outer peripheral face and around the stopper that is arranged at control lever outer peripheral face, described limited block is cross and arranges, described stopper supports and is assigned between two limited blocks, on described stopper outer peripheral face, be provided with promotion breach, the first described linkage block and the second linkage block offset, and to promote the position of breach and adjacent limited block corresponding in timing.

7. the screen linkage structure with wind control of suspension translation door according to claim 6, is characterized in that: described promotion breach inner side is towards the curved setting in the edge of limited block.

8. the screen linkage structure with wind control of suspension translation door according to claim 7, it is characterized in that: the cross section of described screen is fusiformis, described screen both sides are provided with the guiding cambered surface that wind direction screen both sides are guided, and the concourse at two described guiding cambered surface two ends is provided with the summit of cutting apart that wind is cut apart.

9. the screen linkage structure with wind control of suspension translation door according to claim 8, is characterized in that: between described control lever and screen motor, be respectively arranged with and be meshed and dismountable gear.