CN204780699U - Translation floodgate of high stability - Google Patents

Abstract

The utility model discloses a translation floodgate of high stability, include: door leaf subassembly, drive assembly and be used for supporting drive assembly's supporting component, wherein, drive assembly includes: motor, crank, connecting rod and tripod, the motor with articulate one end hub connection makes the crank can the drive of motor is rotated down, the articulate other end with the one end hub connection of connecting rod makes the connecting rod can along with the articulate rotates does the up -and -down motion, the other end of connecting rod with the first angle hub connection of tripod makes the tripod can along with the up -and -down motion of connecting rod with simultaneous movement is to the connecting rod, the second angle of tripod with door leaf subassembly hub connection makes the door leaf subassembly can along with translational motion is to the up -and -down motion of tripod. The utility model discloses a translation floodgate of high stability has higher stability to long service life, cost of maintenance is low, can bear bigger swing door load.

Description

The translation lock of high stability

Technical field

The utility model relates to translation lock technical field, is specifically related to a kind of translation lock of high stability.

Background technology

Along with deepening continuously of international metropolis construction, various office premises mansion and financial center complete successively.The automatic ticket checker being applied to the public arena such as office premises, mansion at present mainly contains pendulum lock, wing lock and translation lock etc., and according to the environment of existing office premises, mansion etc., relative to other gate, translation lock is more suitable for the use of this environment.In the high-tech city of modernization, people require that the environment residing for every day can be comfortable, attractive in appearance, and are also the trend of future development.But pendulum lock in the market, wing lock, can not swipe the card and can be forced through when people passes through, its structure is not so good as translation lock aspect and has more stability.Although translation lock is high relative to the stability of other locks, the stability of the translation lock of prior art also needs further raising.

Utility model content

The purpose of this utility model is the above-mentioned deficiency overcoming prior art, provides a kind of translation lock of high stability, has higher stability.

In order to realize above-mentioned utility model object, the technical solution of the utility model is as follows:

A kind of translation lock of high stability, comprise: door leaf assembly, transmission component and the supporting component for supporting described transmission component, wherein, described transmission component comprises: motor, crank, connecting rod and tripod, described motor is connected with one end axle of described crank makes described crank can rotate under the driving of described motor, the other end of described crank is connected with one end axle of described connecting rod makes described connecting rod can move up and down along with the rotation of described crank, the other end of described connecting rod is connected with first jiao of axle of described tripod makes described tripod can be synchronized with the movement with described connecting rod along with moving up and down of described connecting rod, second jiao of described tripod is connected with described door leaf assembly axle makes described door leaf assembly can do translational motion along with moving up and down of described tripod.

Further, described door leaf assembly comprises: cover plate, door-plate and installing plate; Described door-plate is fixedly installed between described cover plate and described installing plate, described cover plate and described installing plate are all near the same side of described door-plate, described installing plate is disposed with from top to bottom the first installing hole and the second installing hole, be provided with the first mount pin in described first installing hole, in described second installing hole, be provided with the second mount pin.

Further: described connecting rod comprises the lower link and upper connecting rod that set gradually from top to bottom, described tripod comprises the lower tripod and upper tripod that set gradually from top to bottom, wherein, described lower link is disposed with from top to bottom the first lower link through hole and the second lower link through hole, described upper connecting rod to be disposed with from top to bottom on first connecting rod through hole on connecting rod through hole and second, on the position and described first of described second lower link through hole, the position of connecting rod through hole is corresponding, wherein two angles of described lower tripod are respectively arranged with first time tripod through hole and second time tripod through hole, the position of described first time tripod through hole and the position correspondence of described first installing hole, the position of described second time tripod through hole and the position correspondence of described second lower link through hole, wherein two angles of described upper tripod to be respectively arranged with on first tripod through hole on tripod through hole and second, the position of tripod through hole and the position correspondence of described second installing hole on described first, on described second tripod through hole position and described second on the position of connecting rod through hole corresponding.

Further: described crank to be disposed with from top to bottom the first crank through hole and the second crank through hole, the position of described second crank through hole and the position correspondence of described first lower link through hole; Described motor is provided with motor shaft connecting hole, the position of described motor shaft connecting hole and the position correspondence of described first crank through hole.

Further: described transmission component also comprises: motor shaft, asessory shaft, the first connection rotating shaft, the second connection rotating shaft, the first hollow rotating shaft and the second hollow rotating shaft; Described motor shaft makes described crank can rotate under the driving of described motor through described first crank through hole and described motor shaft connecting hole; Described asessory shaft makes described lower link can move up and down along with the rotation of described crank through described second crank through hole and described first lower link through hole; Described first connection rotating shaft, through connecting rod through hole, described second lower link through hole and described second time tripod through hole on described first, makes described lower tripod and described upper connecting rod all can be synchronized with the movement with described lower link along with moving up and down of described lower link; Described second connection rotating shaft makes described upper tripod can be synchronized with the movement with described upper connecting rod along with moving up and down of described upper connecting rod through tripod through hole on connecting rod through hole and described second on described second; Described first hollow rotating shaft through to insert after described first time tripod through hole in described first installing hole and make described first mount pin insert described first hollow rotating shaft hollow in, described second hollow rotating shaft through to insert after tripod through hole on described first in described second installing hole and make described second mount pin insert described second hollow rotating shaft hollow in, described door leaf assembly can do translational motion along with described upper tripod and described moving up and down of lower tripod.

Further, described transmission component also comprises: asessory shaft bearing, two the first connection rotating shaft bearings, the second connection rotating shaft bearing, the first hollow rotating shaft bearing, the second hollow rotating shaft bearing, two the first hollow rotating shaft bearing covers and two the second hollow rotating shaft bearing covers; Described asessory shaft bearing is arranged in described first lower link through hole, and described asessory shaft is through the centre bore of described asessory shaft bearing; A described first connection rotating shaft bearing is arranged in described second lower link through hole, and described in another, the first connection rotating shaft bearing is arranged on described first in connecting rod through hole, and described first connection rotating shaft is through the centre bore of two described first connection rotating shaft bearings; Described second connection rotating shaft bearing is arranged on described second in connecting rod through hole, and described second connection rotating shaft is through the centre bore of described second connection rotating shaft bearing; Described first hollow rotating shaft bearing is arranged in described first time tripod through hole, described first hollow rotating shaft is through the centre bore of described first hollow rotating shaft bearing, and two described first hollow rotating shaft bearing covers are separately positioned on the both sides of described first hollow rotating shaft bearing; Described second hollow rotating shaft bearing to be arranged on described first in tripod through hole, described second hollow rotating shaft is through the centre bore of described second hollow rotating shaft bearing, and two described second hollow rotating shaft bearing covers are separately positioned on the both sides of described second hollow rotating shaft bearing.

Further: described transmission component also comprises encoder and encoder seat, described encoder seat is arranged on described motor, and described encoder is arranged on described encoder seat.

Further, described supporting component comprises: base, the first gripper shoe, the second gripper shoe, the first floor and the second floor; Described first gripper shoe and described second gripper shoe are parallel to each other, and are all arranged on described base, described first gripper shoe relative to described second gripper shoe near described door leaf assembly; Described first floor and described second floor are parallel to each other, and are all arranged on described base, and described first floor connects described first gripper shoe and described second gripper shoe, and described second floor connects described first gripper shoe and described second gripper shoe; Described crank, described lower link and described upper connecting rod are all arranged between described first gripper shoe and described second gripper shoe, described lower tripod and described upper tripod are arranged between described first gripper shoe and described installing plate, on the side be separated by with described first gripper shoe that described motor is arranged on described second gripper shoe.

Further: described first gripper shoe to be disposed with from top to bottom the first through hole, the second through hole and third through-hole, described second gripper shoe is disposed with from top to bottom fourth hole, fifth hole, the 6th through hole; Described lower link is provided with the 3rd lower link through hole, described upper connecting rod is provided with connecting rod through hole on the 3rd, the slot of connecting rod through hole to be all corners be fillet on described 3rd lower link through hole and the described 3rd; The triangle of described lower tripod is provided with the 3rd time tripod through hole, the triangle of described upper tripod is provided with tripod through hole on the 3rd; The position of described first through hole, described fourth hole and described first crank through hole is corresponding, makes described motor shaft pass described first through hole and described fourth hole; The position of described second through hole, described fifth hole, described 3rd lower link through hole and described 3rd time tripod through hole is corresponding; On described third through-hole, described 6th through hole, the described 3rd, on connecting rod through hole and the described 3rd, the position of tripod through hole is corresponding.

Further, described supporting component also comprises: the first back shaft, the first back shaft bearing support, two the first back shaft bearings, two the first back shaft bearing cover, two the first nuts, the second back shaft, the second back shaft bearing support, two the second back shaft bearings, two the second back shaft bearing cover and two the second nuts; Described first back shaft bearing support is arranged between described first gripper shoe and described second gripper shoe, the sidewall of described first back shaft bearing support arranges the first groove, and it is corresponding that described lower link embeds the through hole making described 3rd lower link through hole and described first back shaft bearing support in described first groove; Described second back shaft bearing support is arranged between described first gripper shoe and described second gripper shoe, the sidewall of described second back shaft bearing support arranges the second groove, and it is corresponding that described upper connecting rod embeds the through hole making connecting rod through hole and described second back shaft bearing support on the described 3rd in described second groove; Described first back shaft is through described 3rd time tripod through hole, described second through hole, described 3rd lower link through hole, the through hole of described first back shaft bearing support and described fifth hole; Described second back shaft passes the through hole of connecting rod through hole, described first back shaft bearing support on tripod through hole, described third through-hole, the described 3rd on the described 3rd and described 6th through hole; The two ends of the through hole of described first back shaft bearing support respectively embed a described first back shaft bearing, and described first back shaft is through the centre bore of two described first back shaft bearings; The two ends of the through hole of described second back shaft bearing support respectively embed a described second back shaft bearing, and described second back shaft is through the centre bore of two described second back shaft bearings; The two ends of described first back shaft are respectively equipped with a described first back shaft bearing cover and described first nut; The two ends of described second back shaft are respectively equipped with a described second back shaft bearing cover and described second nut.

The beneficial effects of the utility model are as follows:

1, the translation lock of high stability of the present utility model has higher stability, and long service life, maintenance cost is low, can bear larger swing door load.

2, the translation lock of high stability of the present utility model is specially adapted to high-grade office building and office building Automatic fare collection equipment.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:

Fig. 1 is the explosive view of the structure of the translation lock of high stability of the present utility model;

Fig. 2 is the front view of the translation lock of high stability of the present utility model;

Fig. 3 is the top view of the translation lock of high stability of the present utility model;

Fig. 4 is the lateral view one of the translation lock of high stability of the present utility model;

Fig. 5 is the lateral view two of the translation lock of high stability of the present utility model.

Wherein, 1, cover plate; 2, door-plate; 3, installing plate; 4, lower tripod; 5, upper tripod; 6, lower link; 7, upper connecting rod; 8, crank; 9, motor; 10, encoder seat; 11, encoder; 12, base; 13, the first gripper shoe; 14, the second gripper shoe; 15, the first hollow rotating shaft; 16, the second hollow rotating shaft; 17, the first connection rotating shaft; 18, the second connection rotating shaft; 19, asessory shaft; 20, motor shaft; 21, the first back shaft; 22, the second back shaft; 23, the first floor; 24, the second floor; 301, the first installing hole; 302, the second installing hole; 311, the first mount pin; 312, the second mount pin; 401, first time tripod through hole; 403, the 3rd time tripod through hole; 501, tripod through hole on first; 502, tripod through hole on second; 503, tripod through hole on the 3rd; 601, the first lower link through hole; 602, the second lower link through hole; 603, the 3rd lower link through hole; 701, connecting rod through hole on first; 702, connecting rod through hole on second; 703, connecting rod through hole on the 3rd; 801, the first crank through hole; 802, the second crank through hole; 131, the first through hole; 133, third through-hole; 141, fourth hole; 142, fifth hole; 143, the 6th through hole; 151, the first hollow rotating shaft bearing; 152, the first hollow rotating shaft bearing cover; 161, the second hollow rotating shaft bearing; 162, the second hollow rotating shaft bearing cover; 171, the first connection rotating shaft bearing; 181, the second connection rotating shaft bearing; 191, asessory shaft bearing; 211, the first back shaft bearing support; 212, the first groove; 221, the second back shaft bearing support; 222, the second groove; 223, the second back shaft bearing; 224, the second back shaft bearing cover; 225, the second nut.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

The utility model discloses a kind of translation lock.As shown in Fig. 1 ~ 5, be respectively the explosive view of the structure of the translation lock of high stability of the present utility model, front view, top view, lateral view one and lateral view two.This translation lock comprises: door leaf assembly, transmission component and the supporting component for supporting transmission component.Wherein, this transmission component comprises: motor 9, crank 8, connecting rod and tripod.Motor 9 is connected with one end axle of crank 8 makes crank 8 can rotate under the driving of motor 9.The other end of crank 8 is connected with one end axle of connecting rod makes connecting rod can move up and down along with the rotation of crank 8.The other end of connecting rod is connected with first of tripod jiao of axle makes tripod can be synchronized with the movement with connecting rod along with moving up and down of connecting rod.Second jiao of tripod is connected with door leaf assembly axle makes door leaf assembly can do translational motion along with moving up and down of tripod.Generally, the position of first jiao of above-mentioned tripod is higher than the position of second jiao of tripod." translational motion " described in the technical program refers to and moves horizontally in the plane at door-plate 2 place.

Concrete, this door leaf assembly comprises: cover plate 1, door-plate 2 and installing plate 3.The material of this cover plate 1 and installing plate 3 can be glass material.Door-plate 2 is fixedly installed between cover plate 1 and installing plate 3.Such as, door-plate 2 is arranged between cover plate 1 and installing plate 3 by the mode that bolt is fixing.Cover plate 1 and installing plate 3, all near the same side of door-plate 2, are convenient to tripod and are executed pulling force or thrust to installing plate 3, thus make installing plate 3 end of door plate 2 execute same power, make door-plate 2 translation and open or close.This installing plate 3 is disposed with from top to bottom the first installing hole 301 and the second installing hole 302.Be provided with in first installing hole 301 in first mount pin 311, second installing hole 302 and be provided with the second mount pin 312.The pore structure related in the technical program, as non-specified otherwise, is circular hole.

This connecting rod comprises the lower link 6 and upper connecting rod 7 that set gradually from top to bottom.Lower link 6 is disposed with from top to bottom the first lower link through hole 601 and the second lower link through hole 602.Upper connecting rod 7 to be disposed with from top to bottom on first connecting rod through hole 702 on connecting rod through hole 701 and second.On the position and first of this second lower link through hole 602, the position of connecting rod through hole 701 is corresponding.

This tripod comprises the lower tripod 4 and upper tripod 5 that set gradually from top to bottom.Wherein two angles of lower tripod 4 are respectively arranged with first time tripod through hole 401 and second time tripod through hole.The position of first time tripod through hole 401 and the position correspondence of the first installing hole 301.The position of second time tripod through hole and the position correspondence of the second lower link through hole 602.Wherein two angles of upper tripod 5 to be respectively arranged with on first tripod through hole 502 on tripod through hole 501 and second.The position of tripod through hole 501 and the position correspondence of the second installing hole 302 on first.On second tripod through hole 502 position and second on the position of connecting rod through hole 702 corresponding.

Crank 8 is disposed with from top to bottom the first crank through hole 801 and the second crank through hole 802.The position of the second crank through hole 802 and the position correspondence of the first lower link through hole 601.

Motor 9 is provided with motor shaft connecting hole.The position of motor shaft connecting hole and the position correspondence of the first crank through hole 801.

For coordinating with above-mentioned each pore structure, this transmission component is also provided with axle construction, specifically comprises: motor shaft 20, asessory shaft 19, first connection rotating shaft 17, second connection rotating shaft 18, first hollow rotating shaft 15 and the second hollow rotating shaft 16.

Wherein, motor shaft 20 makes crank 8 can rotate under the driving of motor 9 through the first crank through hole 801 and motor shaft connecting hole.Asessory shaft 19 makes lower link 6 can move up and down along with the rotation of crank 8 through the second crank through hole 802 and the first lower link through hole 601.First connection rotating shaft 17, through connecting rod through hole 701, second lower link through hole 602 and second time tripod through hole on first, makes lower tripod 4 and upper connecting rod 7 all can be synchronized with the movement with lower link 6 along with moving up and down of lower link 6.Second connection rotating shaft 18 makes tripod 5 can be synchronized with the movement with upper connecting rod 7 along with moving up and down of upper connecting rod 7 through tripod through hole 502 on connecting rod through hole on second 702 and second.First hollow rotating shaft 15 through to insert after first time tripod through hole 401 in first installing hole 301 and make the first mount pin 311 insert the first hollow rotating shaft 15 hollow in.Second hollow rotating shaft 16 through to insert after tripod through hole 501 on first in second installing hole 302 and make the second mount pin 312 insert the second hollow rotating shaft 16 hollow in.Door leaf assembly can do translational motion along with upper tripod 5 and lower moving up and down of tripod 4.

Support above-mentioned each rotating shaft to play, reduce the friction factor in its motion process, and ensure its rotating accuracy, this transmission component is provided with the bearing coordinated with each rotating shaft.In order to block bearing outer ring, this transmission component is also provided with the bearing cover with bearing fit.Specific as follows:

Transmission component also comprises: asessory shaft bearing 191, two first connection rotating shaft bearing 171, second connection rotating shaft bearing 181, first hollow rotating shaft bearing 151, second hollow rotating shaft bearing 161, two the first hollow rotating shaft bearing covers 152 and two the second hollow rotating shaft bearing covers 162.

Wherein, asessory shaft bearing 191 is arranged in the first lower link through hole 601, and asessory shaft 19 is through the centre bore of asessory shaft bearing 191.A first connection rotating shaft bearing 171 is arranged in the second lower link through hole 602, and another the first connection rotating shaft bearing 171 is arranged on first in connecting rod through hole 701, and the first connection rotating shaft 17 is through the centre bore of two the first connection rotating shaft bearings 171.Second connection rotating shaft bearing 181 is arranged on second in connecting rod through hole 702, and the second connection rotating shaft 18 is through the centre bore of the second connection rotating shaft bearing 181.First hollow rotating shaft bearing 151 is arranged in first time tripod through hole 401, and the first hollow rotating shaft 15 is through the centre bore of the first hollow rotating shaft bearing 151, and two the first hollow rotating shaft bearing covers 152 are separately positioned on the both sides of the first hollow rotating shaft bearing 151.Second hollow rotating shaft bearing 161 is arranged on first in tripod through hole 501, and the second hollow rotating shaft 16 is through the centre bore of the second hollow rotating shaft bearing 161, and two the second hollow rotating shaft bearing covers 162 are separately positioned on the both sides of the second hollow rotating shaft bearing 161.

Preferably, this transmission component also comprises encoder 11 and encoder seat 10.This encoder seat 10 is arranged on motor 9.Such as, this encoder seat 10 is fixed on motor 9 by the mode that bolt is fixing.Encoder 11 is arranged on encoder seat 10.Such as, this encoder 11 is fixed on encoder seat 10 by the mode that bolt is fixing.This encoder 11 and motor 9 are electrically connected, and can control motor 9.

Concrete, supporting component comprises: base 12, first gripper shoe 13, second gripper shoe 14, first floor 23 and the second floor 24.First gripper shoe 13 and the second gripper shoe 14 are parallel to each other, and are all arranged on base 12.First gripper shoe 13 relative to the second gripper shoe 14 near door leaf assembly.First floor 23 and the second floor 24 are parallel to each other, and are all arranged on base 12.First floor 23 connects the first gripper shoe 13 and the second gripper shoe 14, second floor 24 connects the first gripper shoe 13 and the second gripper shoe 14.This first floor 23 and the second floor 24 can strengthen the rigidity of the first gripper shoe 13 and the second gripper shoe 14.Crank 8, lower link 6 and upper connecting rod 7 are all arranged between the first gripper shoe 13 and the second gripper shoe 14.Lower tripod 4 and upper tripod 5 are arranged between the first gripper shoe 13 and installing plate 3.On the side be separated by with the first gripper shoe 13 that motor 9 is arranged on the second gripper shoe 14.

First gripper shoe 13 is disposed with from top to bottom the first through hole 131, second through hole and third through-hole 133.Second gripper shoe 14 is disposed with from top to bottom fourth hole 141, fifth hole 142 and the 6th through hole 143.

Preferably, lower link 6 is provided with the 3rd lower link through hole 603, upper connecting rod 7 to be provided with on the 3rd connecting rod through hole 703 on connecting rod through hole the 703, three lower link through hole 603 and the 3rd are all corners is the slot of fillet.The triangle of lower tripod 4 is provided with the 3rd time tripod through hole 403, the triangle of upper tripod 5 is provided with tripod through hole 503 on the 3rd.

Wherein, the position of the first through hole 131, fourth hole 141 and the first crank through hole 801 is corresponding, makes motor shaft 20 pass the first through hole 131 and fourth hole 141.The position of the second through hole, fifth hole 142, the 3rd lower link through hole 603 and the 3rd time tripod through hole 403 is corresponding, is convenient to arrange back shaft.On third through-hole 133, the 6th through hole 143, the 3rd, on connecting rod through hole 703 and the 3rd, the position of tripod through hole 503 is corresponding, is convenient to arrange back shaft.

Concrete, this supporting component also comprises: the first back shaft 21, first back shaft bearing support 211, two the first back shaft bearings, two the first back shaft bearing cover, two the first nuts, the second back shaft 22, second back shaft bearing support 221, two the second back shaft bearings 223, two the second back shaft bearing cover 224 and two the second nuts 225.

This first back shaft bearing support 211 is arranged between the first gripper shoe 13 and the second gripper shoe 14.The sidewall of the first back shaft bearing support 211 is arranged the first groove 212, it is corresponding that lower link 6 embeds in the first groove 212 through hole making the 3rd lower link through hole 603 and the first back shaft bearing support 211.First back shaft 21 is through the through hole of the 3rd time tripod through hole 403, second through hole, the 3rd lower link through hole 603, first back shaft bearing support 211 and fifth hole 142.Due to the slot of the 3rd lower link through hole 603 to be corners be fillet.First back shaft 21 can move up and down in the 3rd lower link through hole 603, thus can not limit the motion of lower link 6.The two ends of the through hole of the first back shaft bearing support 211 respectively embed a first back shaft bearing.First back shaft 21 is through the centre bore of two the first back shaft bearings.The two ends of the first back shaft 21 are respectively equipped with a first back shaft bearing cover and the first nut.Two the first nuts by tighten be pressed in lower tripod 4 and the second gripper shoe 14 respectively two surfaces be separated by, thus improve steadiness.

In like manner, the second back shaft bearing support 221 is arranged between the first gripper shoe 13 and the second gripper shoe 14.The sidewall of the second back shaft bearing support 221 is arranged the second groove 222.It is corresponding that upper connecting rod 7 embeds in the second groove 222 through hole making connecting rod through hole 703 and the second back shaft bearing support 221 on the 3rd.Second back shaft 22 passes through hole and the 6th through hole 143 of connecting rod through hole 703, first back shaft bearing support 211 on tripod through hole 503, third through-hole 133, the 3rd on the 3rd.The two ends of the through hole of the second back shaft bearing support 221 respectively embed a second back shaft bearing 223.Second back shaft 22 is through the centre bore of two the second back shaft bearings 223.The two ends of the second back shaft 22 are respectively equipped with one second back shaft bearing cover 224 and the second nut 225.Two the second nuts 225 by tighten be pressed in upper tripod 5 and the second gripper shoe 14 respectively two surfaces be separated by, thus improve steadiness.

During use, by modes such as recognition access control system cards, external control system can send automatically controlled signal to motor 9, motor 9 rotates, driving crank 8 moves, crank 8 drives lower link 6 to move up and down, lower link 6 drives upper connecting rod 7 to move up and down, lower link 6 drives lower tripod 4 to be synchronized with the movement with lower link 6 simultaneously, upper connecting rod 7 drives again tripod 5 to be synchronized with the movement with upper connecting rod 7, lower tripod 4 and upper tripod 5 exert a force respectively by the first hollow rotating shaft 15 and the second hollow rotating shaft 16 pairs of installing plates 3, thus make installing plate 3 end of door plate 2 applied thrust or pulling force, door-plate 2 is made to do translational motion, thus realize opening or closing of door-plate 2.

The translation lock of high stability of the present utility model has higher stability, and long service life, maintenance cost is low, can bear larger swing door load, therefore, the translation lock of high stability of the present utility model is specially adapted to high-grade office building and office building Automatic fare collection equipment.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. the translation lock of a high stability, it is characterized in that, comprise: door leaf assembly, transmission component and the supporting component for supporting described transmission component, wherein, described transmission component comprises: motor, crank, connecting rod and tripod, described motor is connected with one end axle of described crank makes described crank can rotate under the driving of described motor, the other end of described crank is connected with one end axle of described connecting rod makes described connecting rod can move up and down along with the rotation of described crank, the other end of described connecting rod is connected with first jiao of axle of described tripod makes described tripod can be synchronized with the movement with described connecting rod along with moving up and down of described connecting rod, second jiao of described tripod is connected with described door leaf assembly axle makes described door leaf assembly can do translational motion along with moving up and down of described tripod.

2. the translation lock of high stability as claimed in claim 1, it is characterized in that, described door leaf assembly comprises: cover plate, door-plate and installing plate; Described door-plate is fixedly installed between described cover plate and described installing plate, described cover plate and described installing plate are all near the same side of described door-plate, described installing plate is disposed with from top to bottom the first installing hole and the second installing hole, be provided with the first mount pin in described first installing hole, in described second installing hole, be provided with the second mount pin.

3. the translation lock of high stability as claimed in claim 2, it is characterized in that: described connecting rod comprises the lower link and upper connecting rod that set gradually from top to bottom, described tripod comprises the lower tripod and upper tripod that set gradually from top to bottom; Wherein,

Described lower link is disposed with from top to bottom the first lower link through hole and the second lower link through hole, described upper connecting rod to be disposed with from top to bottom on first connecting rod through hole on connecting rod through hole and second, on the position and described first of described second lower link through hole, the position of connecting rod through hole is corresponding;

Wherein two angles of described lower tripod are respectively arranged with first time tripod through hole and second time tripod through hole, the position of described first time tripod through hole and the position correspondence of described first installing hole, the position of described second time tripod through hole and the position correspondence of described second lower link through hole, wherein two angles of described upper tripod to be respectively arranged with on first tripod through hole on tripod through hole and second, the position of tripod through hole and the position correspondence of described second installing hole on described first, on described second tripod through hole position and described second on the position of connecting rod through hole corresponding.

4. the translation lock of high stability as claimed in claim 3, is characterized in that:

Described crank is disposed with from top to bottom the first crank through hole and the second crank through hole, the position of described second crank through hole and the position correspondence of described first lower link through hole;

Described motor is provided with motor shaft connecting hole, the position of described motor shaft connecting hole and the position correspondence of described first crank through hole.

5. the translation lock of high stability as claimed in claim 4, is characterized in that: described transmission component also comprises: motor shaft, asessory shaft, the first connection rotating shaft, the second connection rotating shaft, the first hollow rotating shaft and the second hollow rotating shaft;

Described motor shaft makes described crank can rotate under the driving of described motor through described first crank through hole and described motor shaft connecting hole;

Described asessory shaft makes described lower link can move up and down along with the rotation of described crank through described second crank through hole and described first lower link through hole;

Described first connection rotating shaft, through connecting rod through hole, described second lower link through hole and described second time tripod through hole on described first, makes described lower tripod and described upper connecting rod all can be synchronized with the movement with described lower link along with moving up and down of described lower link;

Described second connection rotating shaft makes described upper tripod can be synchronized with the movement with described upper connecting rod along with moving up and down of described upper connecting rod through tripod through hole on connecting rod through hole and described second on described second;

Described first hollow rotating shaft through to insert after described first time tripod through hole in described first installing hole and make described first mount pin insert described first hollow rotating shaft hollow in, described second hollow rotating shaft through to insert after tripod through hole on described first in described second installing hole and make described second mount pin insert described second hollow rotating shaft hollow in, described door leaf assembly can do translational motion along with described upper tripod and described moving up and down of lower tripod.

6. the translation lock of high stability as claimed in claim 5, it is characterized in that, described transmission component also comprises: asessory shaft bearing, two the first connection rotating shaft bearings, the second connection rotating shaft bearing, the first hollow rotating shaft bearing, the second hollow rotating shaft bearing, two the first hollow rotating shaft bearing covers and two the second hollow rotating shaft bearing covers;

Described asessory shaft bearing is arranged in described first lower link through hole, and described asessory shaft is through the centre bore of described asessory shaft bearing;

A described first connection rotating shaft bearing is arranged in described second lower link through hole, and described in another, the first connection rotating shaft bearing is arranged on described first in connecting rod through hole, and described first connection rotating shaft is through the centre bore of two described first connection rotating shaft bearings;

Described second connection rotating shaft bearing is arranged on described second in connecting rod through hole, and described second connection rotating shaft is through the centre bore of described second connection rotating shaft bearing;

Described first hollow rotating shaft bearing is arranged in described first time tripod through hole, described first hollow rotating shaft is through the centre bore of described first hollow rotating shaft bearing, and two described first hollow rotating shaft bearing covers are separately positioned on the both sides of described first hollow rotating shaft bearing;

Described second hollow rotating shaft bearing to be arranged on described first in tripod through hole, described second hollow rotating shaft is through the centre bore of described second hollow rotating shaft bearing, and two described second hollow rotating shaft bearing covers are separately positioned on the both sides of described second hollow rotating shaft bearing.

7. the translation lock of high stability as claimed in claim 1, it is characterized in that: described transmission component also comprises encoder and encoder seat, described encoder seat is arranged on described motor, and described encoder is arranged on described encoder seat.

8. the translation lock of high stability as claimed in claim 5, it is characterized in that, described supporting component comprises: base, the first gripper shoe, the second gripper shoe, the first floor and the second floor;

Described first gripper shoe and described second gripper shoe are parallel to each other, and are all arranged on described base, described first gripper shoe relative to described second gripper shoe near described door leaf assembly;

Described first floor and described second floor are parallel to each other, and are all arranged on described base, and described first floor connects described first gripper shoe and described second gripper shoe, and described second floor connects described first gripper shoe and described second gripper shoe;

Described crank, described lower link and described upper connecting rod are all arranged between described first gripper shoe and described second gripper shoe, described lower tripod and described upper tripod are arranged between described first gripper shoe and described installing plate, on the side be separated by with described first gripper shoe that described motor is arranged on described second gripper shoe.

9. the translation lock of high stability as claimed in claim 8, is characterized in that:

Described first gripper shoe is disposed with from top to bottom the first through hole, the second through hole and third through-hole, described second gripper shoe is disposed with from top to bottom fourth hole, fifth hole, the 6th through hole;

Described lower link is provided with the 3rd lower link through hole, described upper connecting rod is provided with connecting rod through hole on the 3rd, the slot of connecting rod through hole to be all corners be fillet on described 3rd lower link through hole and the described 3rd;

The triangle of described lower tripod is provided with the 3rd time tripod through hole, the triangle of described upper tripod is provided with tripod through hole on the 3rd;

The position of described first through hole, described fourth hole and described first crank through hole is corresponding, makes described motor shaft pass described first through hole and described fourth hole;

The position of described second through hole, described fifth hole, described 3rd lower link through hole and described 3rd time tripod through hole is corresponding;

On described third through-hole, described 6th through hole, the described 3rd, on connecting rod through hole and the described 3rd, the position of tripod through hole is corresponding.

10. the translation lock of high stability as claimed in claim 9, it is characterized in that, described supporting component also comprises: the first back shaft, the first back shaft bearing support, two the first back shaft bearings, two the first back shaft bearing cover, two the first nuts, the second back shaft, the second back shaft bearing support, two the second back shaft bearings, two the second back shaft bearing cover and two the second nuts;

Described first back shaft bearing support is arranged between described first gripper shoe and described second gripper shoe, the sidewall of described first back shaft bearing support arranges the first groove, and it is corresponding that described lower link embeds the through hole making described 3rd lower link through hole and described first back shaft bearing support in described first groove;

Described second back shaft bearing support is arranged between described first gripper shoe and described second gripper shoe, the sidewall of described second back shaft bearing support arranges the second groove, and it is corresponding that described upper connecting rod embeds the through hole making connecting rod through hole and described second back shaft bearing support on the described 3rd in described second groove;

Described first back shaft is through described 3rd time tripod through hole, described second through hole, described 3rd lower link through hole, the through hole of described first back shaft bearing support and described fifth hole;

Described second back shaft passes the through hole of connecting rod through hole, described first back shaft bearing support on tripod through hole, described third through-hole, the described 3rd on the described 3rd and described 6th through hole;

The two ends of the through hole of described first back shaft bearing support respectively embed a described first back shaft bearing, and described first back shaft is through the centre bore of two described first back shaft bearings;

The two ends of the through hole of described second back shaft bearing support respectively embed a described second back shaft bearing, and described second back shaft is through the centre bore of two described second back shaft bearings;

The two ends of described first back shaft are respectively equipped with a described first back shaft bearing cover and described first nut;

The two ends of described second back shaft are respectively equipped with a described second back shaft bearing cover and described second nut.