CN104234513B - Dapt bidirectional operation structural element - Google Patents

Abstract

The present invention provides a dapt bidirectional operation structural element. The element allows a latch bolt and a deadbolt to be unlocked, even rotated in two directions. The element comprises a dapt body, a latch fixing rod used for supporting the end part of the latch bolt, an operation lever used for operating the locking latch, a rotator that is located between the latch fixing rod and the operating lever to allow the latch fixing rod and the operating lever to rotate toward the same side, and a plurality of rods, where in the front end of each rod is abutted against a part of the rotator, the rods rotate by using the rotation of the rotator, and the end parts of the rods are linked with the operation lever.

Description

The bidirectional movement structural member of mortise

Technical field

The present invention relates to the bidirectional movement structural member of mortise, and in particular to even if can also make latch bolt and lock by bidirectional rotation Determine the bidirectional movement structural member of the mortise of latch unblock.

Background technology

Generally, it is provided with door for limiting the door lock that external staff comes in and goes out without authorization.This door lock is simply described as follows.Figure 1 illustrates existing door lock example.

As shown in figure 1, conventional door lock is mainly made up of ram 10 and mortise main body 20.

Ram 10 is typically fixed on doorframe by connection means.Mortise main body 20 is provided with blade bolt 21, locking Latch 30, stay hook 40, latch bolt 50 and drive the bar of these components.

Blade bolt 21 is fixed with the side of torsion spring (S) and is resiliently supported in end.Latch bolt 50 is fixed with end The helical spring (without reference in figure) of the state being resiliently supported.Additionally, the end of latch bolt 50 is connected with connecting rod 54. Also, connecting rod 54 is arranged in the way of being engaged with latch bolt tumbler 55.Here, it is formed with handle on latch bolt tumbler 55 Connecting hole (H1).

I.e., it is possible to insertion Handle axis (not shown) in handle connecting hole (H1), rotates latch bolt tumbler 55.This Sample, using the rotation of latch bolt tumbler 55, rotates connecting rod 54, and then latch bolt 50 is entered and is projected.On the other hand, For the dead bolt actuator 35 for entering dead bolt 30 and to project, axle link slot (H2) is provided with.In electronic type door lock In, axle link slot (H2) is connected with the axle of motor (not shown) and rotates, and thus enters dead bolt 30 or prominent.Here, Unaccounted reference is simply illustrated.Reference 31,32：Slit, 37：Guide surface, 45：Directional slit, 60：Gear Block, 62,64：Bend, 80：FX.

On the other hand, the latch bolt tumbler 55 (hereinafter referred to as " tumbler ") for adopting on conventional door lock, although in FIG It is not shown, but it not only links with connecting rod 54, also links with dead bolt 30.I.e., it is possible to by the end of dead bolt 30 The escape lock (not shown) of connection, makes them link each other.So, rotate on the inside of door tumbler 55, so that it may so as to touch Spring pin 50 and dead bolt 30 are unlocked simultaneously.

The latch bolt 50 arranged on this conventional door lock, prevents from entering into mortise main body 20 in the state of door is closed Inside, even if therefore in the state of dead bolt 30 is unlocked, be also prevented from door and be opened.

So, in order in latch bolt 50 by fixation in the state of door is opened, there is provided for releasing consolidating for latch bolt 50 Determine the structure of state, but the device for releasing the stationary state of this latch bolt 50 has directionality (single direction), institute When the rotation direction of door handle changes (direction of rotation of right-hand man), to need the relief structure such as to change, therefore (construction unit price rises, efficiency of construction is reduced) cumbersome during setting.

The content of the invention

To solve the above problems, the present invention provides a kind of bidirectional movement structural member of mortise, even if also can by bidirectional rotation Make latch bolt and dead bolt unblock.

To reach above-mentioned purpose, the bidirectional movement structural member of the mortise of an embodiment of the invention includes：Mortise Main body；Bolt fix bar, supports the end of latch bolt；Shipper rod, for making dead bolt operate；Rotor, positioned at the door Between door bolt fix bar and the shipper rod, the bolt fix bar and the shipper rod is set to rotate to side；And multiple bars, it is front Hold and abutted with a part for the rotor, rotated using the rotation of the rotor, end is linked with the shipper rod.

Dead bolt that the plurality of bar is formed on the outer peripheral face of rotor operating projection, it is arranged respectively at two Side.

In the plurality of bar, the front end of the first bar abuts with the side of dead bolt operating projection, before the second bar Hold and abutted with the operate opposite side of projection of the dead bolt, the other end of first bar optionally with second bar Front end abuts, and the other end of second bar is abutted with the shipper rod.

What the first bolt fix bar and the second bolt fix bar of the bolt fix bar was formed on the rotor Projection is configured.

The first bolt fix bar and the second bolt fix bar, a part of gear connection, link each other during rotation.

The rotor includes：Side is provided with the upper bar of connecting pin；The lower pole being connected with the upper bar；Operating Component, is arranged between the upper bar and the lower pole in revolvable mode, and has been formed centrally within for inserting The axial trough of the axle of internal handle；And idle running component, the inside of the movement means is arranged in the way of it can rotate freely, and And be formed centrally within for inserting the axial trough of the axle of outer handle, and be formed with for selectively inserting on outer peripheral face State the pin insertion hole of connecting pin.

When the rotor is rotated clockwise or counterclockwise, the multiple bars operating with dead bolt linkage is made first, The bolt fix bar is set to operate afterwards.

It is preferred that being formed with guide protrusion on the outer peripheral face of the rotor, the shipper rod is multiple, with the rotor Linkage, a part of gear connection running each other, and the bolt fix bar is optionally fixed, the first fortune of the shipper rod Bull stick is respectively formed with the first paragraph and selective restriction institute interfered with the guide protrusion by basic point of rotary shaft in both sides State the second segment of the entrance of latch bolt, the second shipper rod is connected with a part of gear of first shipper rod, and to it is described The contrary direction of first shipper rod rotates, and the front end of second shipper rod is interfered with the guide protrusion of the rotor.

Guide protrusion is formed with the outer peripheral face of the rotor, the bidirectional movement structural member of described mortise includes：The One shipper rod, is rotated in the inside of the mortise main body centered on rotary shaft, and including with draw described in the rotor Lead the first paragraph of projection interference and to prevent the latch bolt of the inside for being arranged on the mortise main body from entering and selectivity Support the second segment of the latch bolt；And second shipper rod, it is connected with a part of gear of first shipper rod, with rotary shaft Centered on rotation, the guide protrusion of front end and the rotor interfere.

The column rolling part of the end of the selective supporting latch bolt is formed on the second segment of first shipper rod.

In the mortise main body, to cover the periphery of end of the latch bolt in the way of case is installed, described On the second segment of one shipper rod, it is formed through the case and selectively supports the fixed pillar of the latch bolt.

The inside of the mortise main body is provided with the blade bolt that detection is closed the door, and in the blade bolt mortise is entered During the inside of main body, slide block rises, and makes the second segment of first shipper rod turn clockwise and sets consolidating for the latch bolt Determine state.

The bottom of the slide block is formed with skewed slot, and on the blade bolt guiding being directed along the skewed slot is formed with Portion, the blade bolt enters fashionable, and the guide portion lifts the slide block along skewed slot movement.

According to the present invention, can with the direction of rotation of rotor independently, while the stationary state of latch bolt is released Unlock the locking of latch, is thus improve using upper convenience and behavior in service with simple structure.

In addition, it is proposed, according to the invention, organically operated each other by multiple shipper rods, can with direction of rotation independently, solution Except the stationary state of latch bolt.This way it is not necessary to according to the change of right-hand man, and the fixed structure of latch bolt is significantly changed, from And workability can be improved and construction unit price is reduced.

Description of the drawings

Fig. 1 is the structure chart of the internal structure of the door lock (mortise) for representing conventional.

Fig. 2 is the structure chart of the bidirectional movement structural member of the mortise for representing one embodiment of the present of invention.

Fig. 3 is the setting state of the rotor of the bidirectional movement structural member of the mortise for representing one embodiment of the present of invention State diagram.

Fig. 4 is the exploded perspective view of the rotor of the bidirectional movement structural member of the mortise of one embodiment of the present of invention.

Fig. 5 is the A-stage (lock-out state) of the bidirectional movement structural member of the mortise for representing one embodiment of the present of invention State diagram.

When Fig. 6 is that the rotor of the bidirectional movement structural member of the mortise for representing one embodiment of the present of invention turns clockwise State diagram.

Fig. 7 is the state diagram for entering the state for terminating for representing dead bolt in the state of Fig. 6.

Fig. 8 is the A-stage (lock-out state) of the bidirectional movement structural member of the mortise for representing one embodiment of the present of invention State diagram.

When Fig. 9 is the rotor rotate counterclockwise of the bidirectional movement structural member of the mortise for representing one embodiment of the present of invention State diagram.

Figure 10 is the state diagram for entering the state for terminating for representing dead bolt in the state of Fig. 9.

Figure 11 is bowing for the connection status of the bar of the bidirectional movement structural member of the mortise for representing one embodiment of the present of invention View.

Figure 12 is the stereogram of Figure 11.

Figure 13 is the shape that the bidirectional movement structural member of the latch bolt for representing the second embodiment of the present invention fixes latch bolt The state diagram of state.

Figure 14 is expressed as releasing stationary state, the bidirectional movement of the latch bolt of the second embodiment of the present invention of latch bolt The state diagram of the state that the rotor of structural member is rotated (turn clockwise).

Figure 15 is that the rotor of the bidirectional movement structural member of the latch bolt for representing the second embodiment of the present invention makes the first fortune The state diagram of the state of bull stick rotate counterclockwise.

Figure 16 is the shape that the bidirectional movement structural member of the latch bolt for representing the second embodiment of the present invention fixes latch bolt The state diagram of state.

Figure 17 is expressed as releasing stationary state, the bidirectional movement of the latch bolt of the second embodiment of the present invention of latch bolt The rotor of structural member is rotated the state diagram of the state of (rotate counterclockwise).

Figure 18 is expressed as releasing fixation, the bidirectional movement structure of the latch bolt of the second embodiment of the present invention of latch bolt Part makes the state diagram that the second shipper rod turns clockwise.

Figure 19 is that the bidirectional movement structural member of the latch bolt for representing third embodiment of the present invention fixes latch bolt The state diagram of state.

Figure 20 is the state diagram for representing the state that rotor turns clockwise in the state of Fig. 8.

Figure 21 is to represent that rotor makes the first shipper rod rotate counterclockwise, the fixation to release latch bolt in the state of Fig. 9 The state diagram of state.

Figure 22 is that the bidirectional movement structural member of the latch bolt for representing third embodiment of the present invention fixes latch bolt The state diagram of state.

Figure 23 is the state diagram that rotor makes state that the second shipper rod turns clockwise in the state of Figure 11.

Figure 24 is that the first shipper rod rotate counterclockwise, the state of stationary state to release latch bolt are made in the state of Figure 11 Figure.

Figure 25 is the shipper rod and rotor of the bidirectional movement structural member of the latch bolt for representing the second embodiment of the present invention Connection status stereogram.

Figure 26 is the shipper rod and rotor of the bidirectional movement structural member of the latch bolt for representing the second embodiment of the present invention Connection status front view.

Description of reference numerals

100：Mortise main body 200：Latch bolt

300：Dead bolt 400：Bolt fix bar

500：Rotor 600：Pressing means

710：First bar 720：Second bar

730：Shipper rod

Specific embodiment

Hereinafter, the preferred embodiments of the present invention are specifically described with reference to the accompanying drawings.

(first embodiment)

With reference to Fig. 2, the present invention includes：Mortise main body 100, latch bolt 200, dead bolt 300, bolt fix bar 400, company Binding component, pressing means 600, the first bar 710, the second bar 720 and shipper rod 730.

The connection member is illustrated with reference to Fig. 3 and Fig. 4, the rotation provided as the connection member of bar drives Body 500 includes：Upper bar 510, lower pole 520, movement means 530 and idle running component 540.

In such a configuration, top operating projection 513, and the company of being formed with are formed with the outer peripheral face of upper bar 510 Access slot 512, the link slot 512 is formed with pin insertion hole 512a on side.Additionally, being also formed with for connecting bolt (B) Top fixed part 514, and be formed centrally within through hole 515.

On the other hand, in the pin insertion hole 512a of link slot 512, insert by the flexibly mounted connecting pin 610 of spring (S).

In such a configuration, movement means 530 top operating piece 530a and bottom operating piece 530b configure up and down and It is connected to each other.Additionally, being respectively formed with the axle for inserting internal handle on top operating piece 530a and bottom operating piece 530b Axial trough 532.Here, axial trough 532 can be formed in on swinging strut 536 prominent up and down.

Additionally, being respectively formed with operating projection 531 and a pair of elongated holes on top operating piece 530a and bottom operating piece 530b 533, and it is formed with dead bolt operating projection 535 in side.

In such a configuration, a pair of elongated holes 541,542 are formed with idle running component 540, and are formed centrally within useful In the axial trough 546 of the axle of insertion outer handle, the pin insertion hole 545 of the end for being also formed with selectively inserting connecting pin 610.This The idle running component 540 for planting structure is located between top operating piece 530a and bottom operating piece 530b in revolvable mode.

In such a configuration, lower pole 520 is centrally formed with through hole 525, in its both sides is formed with the first pillar 521 With the second pillar 522, and be formed with outer peripheral face bottom operating projection 523.First pillar 521 and 522, the second pillar (with reference to Fig. 4) in the respective elongated hole 541,533 of idle running component 540 and movement means 530.Additionally, lower pole 520 is by such as Under type is attached：Bolt (B) is connected to the top fixed part 514 of upper bar 510, is consolidated with the bottom of lower pole 520 again Determine portion 524 to connect.

Now, the through hole 515 to the insertion upper bar 510 of swinging strut 536 prominent up and down of movement means 530 and bottom The through hole 525 of bar 520, therefore movement means 530 can rotate.Additionally, being located at top operating piece 530a and bottom operating piece 530b Between idle running component 540, also by being connected to each other for upper bar 510 and lower pole 520, can be in its internal rotating (reference picture 5)。

Hereinafter, pressing means 600 are illustrated with reference to Fig. 3.Pressing means 600 include：The rail portion 620 of arcuation, is formed with Guide-track groove 630, the front end for making connecting pin 610 rotates in the state of insertion；And the head of the front end pressurization of connected bar 120 610a。

So, when the front end of connecting rod 120 rotates the head 610a to pressing means 600 pressurizes, with the reaction of elastic force Power is pressurizeed to connecting pin 610, thus make connecting pin 610 be connected groove 512 guide and become be inserted into idle running component 540 pin insert Enter the state in hole 545.On the other hand, in this condition, entire infrastructure (such as reinforcement member, movement means of rotor 500 With idle running component) it is integrally formed the state (so-called clutch bonding state) of rotation.

On the other hand, the rail portion 620 of pressing means 600 enables connecting pin 610 in the state of being connected in guide-track groove 630 With arcuation movement, even if rotor 500 is rotated with certain radius, the state for maintaining connecting pin 610 pressurized is also continued to.That is, Pressing means 600 press the clutch bonding state of connecting pin 610, can also maintain in the state of rotor 500 rotates.

With reference to Fig. 5, the mortise main body 100 of the present invention possesses the bolt fix bar 400 of the end of supporting latch bolt 200, with And for the shipper rod 730 of the dead bolt 300 that operates.On the other hand, rotor 500 is located at bolt fix bar 400 and shipper rod Between 730, bolt fix bar 400 and shipper rod 730 is set to rotate to side.

Additionally, mortise main body 100 is provided with the first bar 710 and the second bar rotated using the rotation of rotor 500 720, the front end of the first bar 710 and the second bar 720 abuts with a part for rotor 500, the first bar 710 and the second bar 720 Link with the shipper rod 730 end.

Specifically, the dead bolt that the first bar 710 and the second bar 720 are formed on the outer peripheral face of movement means 530 Operating projection 535, be arranged respectively at both sides.

On the other hand, the front end 711 (Figure 11 and Figure 12) of the first bar 710 is supported with the side of dead bolt operating projection 535 Connect, the opposite side of the front end 721 of the second bar 720 and dead bolt operating projection 535 is abutted, and the other end 712 of the first bar 710 is matched somebody with somebody Put on the selective position for abutting in front end 721 with the second bar 720, the other end 722 of the second bar 720 is arranged on and shipper rod On the position that 730 front end 731 abuts.On the other hand, the reference 732 in Figure 11 and Figure 12 is the another of shipper rod 730 End.

So, using the left rotation and right rotation of rotor 500, dead bolt operating projection 535 can optionally press first The front end 721 of the bar 720 of front end 711 or second of bar 710, and it is rotated, end 722 and the shipper rod 730 of the second bar 720 Front end 731 abuts, therefore also can be rotated by the rotation of the second bar 720, shipper rod 730.So, the dextrorotation of shipper rod 730 When turning, dead bolt 300 can be made to enter the inside (setting of the released state of dead bolt) of mortise main body 100.

Additionally, a part for the first bolt fix bar 410 and the second bolt fix bar 420 each other gear connection linkage, And it is configured in both sides across the operating projection 531 of movement means 530.So, when movement means 530 rotate, no matter its rotation Direction is that the first bolt fix bar 410 and the second bolt fix bar 420 can to the left or to the right rotated, thus, it is possible to solve Except the stationary state of latch bolt 200.

Hereinafter, the use state of the present invention is illustrated with reference to Fig. 5 to Fig. 7.

As shown in figure 5, in the lock-out state of common mortise, latch bolt 200 and dead bolt 300 are projected laterally State.

In this condition, for example rotate on the inside of handle when, in the movement means 530 of rotor 500 formed operating dash forward Play 531 to turn clockwise.So, the rotate counterclockwise of the first bolt fix bar 410 can be made, and releases the fixing shape of latch bolt 200 State.In addition, when movement means 530 turn clockwise, dead bolt operating projection 535 presses the (ginseng of front end 721 of the second bar 720 According to Figure 11 and Figure 12) make shipper rod 730 turn clockwise.By this operating, as shown in fig. 7, locking protruding to the outside is inserted Pin 300 becomes the state (dead bolt released state) of the inside for entering into mortise main body 100.

So, when the handle on the inside of rotation makes movement means 530 turn clockwise, by making the first bolt fix bar 410 Rotate with the second bar 720, can release the stationary state of latch bolt 200, and shipper rod 730 can be made to link, so that lock Determining latch 300 becomes released state (with reference to Fig. 7).Additionally, when rotor 500 is rotated clockwise or counterclockwise, preferably first Make to operate, then make bolt fix bar 400 operate with multiple bars 710,720 of the linkage of dead bolt 300.

On the other hand, with reference to Fig. 8 to Fig. 9, the handle of inner side is made (to rotate counterclockwise) when rotating backward, as shown in figure 9, turning Movement means 530 (with reference to Fig. 4) rotate counterclockwise of kinetoplast 500, using aforesaid operating the second bolt fix bar 420 and the are made One bar 710 rotates.

Now, by the rotation of the second bolt fix bar 420, the first bolt fix bar that a part can be made to be connected by gear 410 rotate counterclockwises, so as to release the stationary state of latch bolt 200.On the other hand, turning clockwise by the first bar 710, End presses the front end 721 (with reference to Figure 11 and Figure 12) of connected second bar 720, makes the rotate counterclockwise of the second bar 720.By This second bar 720 makes shipper rod 730 turn clockwise such that it is able to make the dead bolt 300 being connected with shipper rod 730 become into Enter the state (released state) (with reference to Figure 10) of the inside to mortise main body 100.

(second embodiment)

With reference to Figure 13, in the inside of the mortise main body 100 of the second embodiment of the present invention latch bolt 120, blade spiral shell are provided with Bolt 110, rotor 150 and shipper rod 140.

Specifically, latch bolt 120 as in the past its end in the inside of mortise main body 100 by spring (not shown) bullet Property supporting, and the inside and outside of mortise main body 100 that come in and go out when shutting, by inserting the fixing groove formed on doorframe a quilt prevent Open.

Above-mentioned rotor 150 can be in the inside left rotation and right rotation of mortise main body 100, and because of the axle of interior/outer handle Insertion and driven.Additionally, at least protrusion is formed with a guide protrusion 151 on the outer peripheral face of rotor 150.

The first shipper rod 140a and the second shipper rod 140b of above-mentioned shipper rod 140, respectively in the inside of mortise main body 100 Rotated centered on rotary shaft 143,146, by gear connection (connection of gear part 144,147) of a respective part each other Linkage.

Specifically, the first shipper rod 140a includes：The first paragraph 142 interfered with the guide protrusion 151 of rotor 150； The selective supporting latch bolt 120 in the way of preventing latch bolt 120 from entering the inside (latch bolt fixes setting) of mortise main body 100 Second segment 141.

Additionally, the second shipper rod 140b is connected with the first shipper rod 140a operative gears, is revolved centered on rotary shaft 146 Turn and front end is interfered with the guide protrusion 151 of rotor 150.

So, as illustrated in figs. 25 and 26, the first shipper rod 140a of shipper rod 140 and the second shipper rod 140b gears connect Connect and can mutually link, the guide protrusion 151 of rotor 150 is located at the operating of first paragraph 142 and second of the first shipper rod 140a Between the front end 148 of bar 140b.

So, as shown in figure 15, when rotor 150 turns clockwise, jack-up the first shipper rod 140a's of guide protrusion 151 First paragraph 142, makes the first shipper rod 140a rotate counterclockwises.

In this regard, as shown in figure 18, during 150 rotate counterclockwise of rotor, guide protrusion 151 makes the second shipper rod 140b up times Pin rotates, and thus enables that the first shipper rod 140a rotate counterclockwises being connected with the second shipper rod 140b gears.

So, unrelated with the direction of rotation of rotor 150, guide protrusion 151 can be such that the first shipper rod 140a revolves counterclockwise Turn.Therefore it is as shown in figure 13 to rotate rotor 150 in the state of latch bolt 120 is by the first shipper rod 140a fixations, such as scheme Making rotor 150 turn clockwise shown in 15 can release the stationary state of the first shipper rod 140a, make as shown in figure 18 in addition The rotate counterclockwise of rotor 150 can also release the stationary state of the first shipper rod 140a.

On the other hand, in the second embodiment of the present invention, can be formed on the second segment 141 of the first shipper rod 140a The column rolling part 145 of the end of selective supporting latch bolt 120.By making the column rolling part in fixed and releasing latch bolt 120 145 terminal surfaces for rolling across (rolling) latch bolt 120, are prevented from the loss brought because of the friction that frequently operating is produced, from And behavior in service can be improved.

(3rd embodiment)

With reference to Figure 19 to Figure 24, in the third embodiment of the present invention, can be touched with covering in the inside of mortise main body 100 The mode of the periphery of the end of spring pin 120 installs case 170, and is formed on the second segment 141 of the first shipper rod 140a and run through Case 170 and the selectively fixed pillar 160 of supporting latch bolt 120.

So, as indicated in figures 19 and 22, in fixed latch bolt 120, by making to be formed in the first shipper rod 140a's The fixed pillar 160 of front end inserts the inside of case 170, and latch bolt 120 can be made to become stationary state.Certainly, equally also may be used With using as described in the second embodiment, can be with the direction of rotation of rotor 150 independently by the first shipper rod 140a pair The technical characteristic that the stationary state of latch bolt 120 is released.

On the other hand, the third embodiment of the present invention is also applied for providing door lock of the blade bolt 110 for detection to be closed the door.

Specifically, there is provided the slide block 180 that rises when blade bolt 110 enters the inside of mortise main body 100, by the The dextrorotation handle latch bolt 120 of the second segment 141 of one shipper rod 140a is set as stationary state, thus automatic at closing time Fixed latch bolt 120.

At this point it is possible to form skewed slot 131 in the bottom of slide block 180, formed on blade bolt 110 along the quilt of skewed slot 131 The guide portion 111 of guiding, blade bolt 110 enters fashionable, and guide portion 111 is moved along the skewed slot 131, so that slide block 180 Lifting.

According to the present invention, organically operated each other by multiple shipper rod 140a, 140b, can be with direction of rotation independently Release the stationary state of latch bolt 120.This way it is not necessary to according to the change of right-hand man, and significantly change the fixation of latch bolt 120 Structure such that it is able to improve workability and reduce construction unit price.

Illustrate and illustrate the present invention with specific embodiment above, but the invention is not restricted to the embodiments described, only If those skilled in the art, in the range of without departing from the invention thought of the invention described in claim, Ke Yishi Apply numerous variations.

Claims (12)

1. the bidirectional movement structural member of a kind of mortise, it is characterised in that include：

Mortise main body；

Bolt fix bar, supports the end of latch bolt；

Shipper rod, for making dead bolt operate；

Rotor, between the bolt fix bar and the shipper rod, make the bolt fix bar and the shipper rod to Side rotates；And

Connection member, is linked using the rotor with the shipper rod,

Wherein, the connection member includes multiple bars, and the plurality of bar is rotated using the rotation of the rotor, and institute The end and the shipper rod for stating multiple bars is linked,

The plurality of bar is set to rotate respectively, and the dead bolt operating projection being formed on the outer peripheral face of the rotor is put Enter between the plurality of bar.

2. the bidirectional movement structural member of mortise according to claim 1, it is characterised in that

In the plurality of bar,

The front end of the first bar abuts with the side of dead bolt operating projection,

The front end of the second bar abuts with the opposite side of dead bolt operating projection,

The other end of first bar is abutted with the front end of second bar,

The other end of second bar is abutted with the shipper rod.

3. the bidirectional movement structural member of mortise according to claim 1, it is characterised in that the first of the bolt fix bar The projection configuration that bolt fix bar and the second bolt fix bar are formed on the rotor.

4. the bidirectional movement structural member of mortise according to claim 3, it is characterised in that the first bolt fix bar and The second bolt fix bar, a part of gear connection, links each other during rotation.

5. the bidirectional movement structural member of mortise according to claim 1, it is characterised in that

The rotor includes：

Side is provided with the upper bar of connecting pin；

The lower pole being connected with the upper bar；

Movement means, are arranged between the upper bar and the lower pole in revolvable mode, and have been formed centrally within For inserting the axial trough of the axle of internal handle；And

Idle running component, is arranged on the inside of the movement means in the way of it can rotate freely, and be formed centrally within for The axial trough of the axle of insertion outer handle, and the pin insertion for selectively inserting the connecting pin is formed with outer peripheral face Hole.

6. the bidirectional movement structural member of mortise according to claim 1, it is characterised in that the rotor is clockwise or inverse When hour hands are rotated, the multiple bars operating with dead bolt linkage is made first, make the bolt fix bar operate afterwards.

7. the bidirectional movement structural member of mortise according to claim 1, it is characterised in that

Guide protrusion is formed with the outer peripheral face of the rotor,

The shipper rod is multiple, and with rotor linkage, each other a part of gear connection is operated, and is optionally fixed The bolt fix bar,

First shipper rod of the shipper rod is respectively formed with and guide protrusion interference by basic point of rotary shaft in both sides First paragraph and the second segment of the selective entrance for limiting the latch bolt,

Second shipper rod is connected with a part of gear of first shipper rod, and to the direction contrary with first shipper rod Interfere with the guide protrusion of the rotor rotation, the front end of second shipper rod.

8. the bidirectional movement structural member of mortise according to claim 1, it is characterised in that

Guide protrusion is formed with the outer peripheral face of the rotor,

The bidirectional movement structural member of described mortise includes：

First shipper rod, is rotated in the inside of the mortise main body centered on rotary shaft, and including with the rotor First paragraph that the guide protrusion is interfered and to prevent the latch bolt of the inside for being arranged on the mortise main body from entering The selective second segment for supporting the latch bolt；And

Second shipper rod, be connected with a part of gear of first shipper rod, centered on rotary shaft rotation, front end with described turn The guide protrusion of kinetoplast is interfered.

9. the bidirectional movement structural member of the mortise according to claim 7 or 8, it is characterised in that first shipper rod The column rolling part of the end of the selective supporting latch bolt is formed on second segment.

10. the bidirectional movement structural member of the mortise according to claim 7 or 8, it is characterised in that

In the mortise main body, to cover the periphery of end of the latch bolt in the way of case is installed,

On the second segment of first shipper rod, it is formed through the case and selectively supports the fixation of the latch bolt Post.

The bidirectional movement structural member of 11. mortises according to claim 7 or 8, it is characterised in that

The inside of the mortise main body is provided with the blade bolt that detection is closed the door,

When the blade bolt enters the inside of the mortise main body, slide block rises, and makes the second segment of first shipper rod Turn clockwise and set the stationary state of the latch bolt.

The bidirectional movement structural member of 12. mortises according to claim 11, it is characterised in that

The bottom of the slide block is formed with skewed slot,

The guide portion being directed along the skewed slot is formed with the blade bolt,

The blade bolt enters fashionable, and the guide portion lifts the slide block along skewed slot movement.