CN200992837Y - Lock body driving structure - Google Patents

Abstract

The utility model discloses a lock body transmission mechanism, in particular to a special passage lock, which can be positioned at the inner side or outer side of the lock body. The lock body can be positioned on the door and the inner side or outer side of the lock body can only control the normally closed or normally open state through the key. When the lock body shows the normally closed state, rotate the handle to produce racing so that the door cannot be opened. When the lock body shows the normally open state, rotate the handle so as to open the door.

Description

The lock body drive mechanism

Technical field

The utility model relates to a kind of lock body drive mechanism that can be applicable to special passage lock.

Background technology

Present general common horn lock's structure, topmost design, be the design of two side grips, both sides rotating shaft and inner driving member, wherein in the driving member aspect, its mainly by inside and outside rotating shaft with lead the mechanism of contracting, latch mechanism cooperates, cooperating core and button spindle to reach the action of whole lockset open and close, this horn lock's driving member, in a room, be provided with one and lead the mechanism of contracting, this leads the promotion that the mechanism of contracting can accept the pushing part of inner sleeve, outer tube and outer shaft, the latch mechanism that is connected that leads the mechanism of contracting can be operated and move.When the button spindle that is positioned at inner sleeve is blocking, or the core that is positioned at outer tube is when being blocking, make button spindle control lead the mechanism of contracting and remove moving of receipts latch mechanism, and be the lock state of pulling, if when being unlocking condition, button spindle is not controlled and is led the mechanism of contracting and remove and receive moving of latch mechanism, therefore when the rotary sleeve pipe, when inner sleeve or outer shaft, promptly leading the mechanism of contracting by the pushing part drive moves in room, and the plunger latch head that drives latch mechanism simultaneously moves toward the room direction, and be opening, because before taking off the entire combination of horn lock's structure is general common structure, but, and extend the demand that the channel of many difference in functionalitys is locked because place and environment is different.

The utility model content

The purpose of this utility model provides a kind of lock body drive mechanism, the inboard of lock body or the outside only can be rendered as normally closed lock or normal unlocking condition by key control lock body, rotating handles produces idle running and can't open door leaf when lock body presents normally closed lock state, and rotating handles can be opened door leaf when lock body presents normal unlocking condition.

For achieving the above object, solution of the present utility model is: a kind of lock body drive mechanism, can use the inboard or the outside that are installed on lock body, and this lock body can be installed on the door, and a drive seat is installed in the latch mechanism that is operably connected in this lock body; Leader's removable mounting is on this lock body; One through hole forms in this handle; Wherein: this drive mechanism comprises: a rotating shaft, a sleeve pipe, a collar, a shifting part, an axostylus axostyle, a pin and an engagement component; This sleeve pipe can be accepted the driving of this handle; This rotating shaft can be had being inserted in this sleeve pipe of rotating, and partly stretches out outside this sleeve pipe; At least one pushing part forms in this rotating shaft and stretches out on the outer part of this sleeve pipe, and at least one protuberance forms in the tube wall inboard; This shifting part is horizontally set in this rotating shaft, and has a hole; One clicking section forms in this shifting part; This axostylus axostyle, an end has a clicking section; This axostylus axostyle laterally has a transverse holes; This engagement component is a tube-like piece, can accept the plant of this axostylus axostyle, and tube wall has at least one helicla flute, and an engaging piece and a groove form in an end of this engagement component; This pin can be arranged in the transverse holes of this axostylus axostyle and the helicla flute of this engagement component; And the groove of this engagement component can be meshed with the protuberance of this rotating shaft, to keep the axially-movable of engagement component; This collar can be sheathed on an end of this sleeve pipe; One engaging piece forms in an end of this collar; One lock group can be installed in the through hole of this handle, and this lock group has a core, and this core connects a driving member; This driving member axially is inserted in the hole of this shifting part along this rotating shaft, can move the clicking section that this shifting part stirs this axostylus axostyle.

Be provided with one first and one second between the clicking section of described axostylus axostyle and this transverse holes.

The described engagement component other end has two transverse holes that are provided with at interval, can install an elastic parts, and this elastic parts can be supported on first of this axostylus axostyle or second.

The described axostylus axostyle alcove that is shaped in contiguous this clicking section, this shifting part axially has a flange, and this flange can be had being placed in this alcove of rotation.

The described collar has a groove, and can overlap the protuberance that tube wall has with this and be connected, and the breach of engageable this sleeve pipe of engaging piece of this collar.

The described collar and this sleeve pipe also can be one of the forming.

Described drive mechanism can be used in the inboard and the outside that is installed on lock body simultaneously.

The axostylus axostyle in the described inboard and the outside has a square opening; One rod member can be inserted in respectively in the square opening with the while interlock inboard and the outside.

A further ring has two protuberances that are provided with at interval, and this ring can be installed in the horizontal position of this rotating shaft, and this protuberance is arranged in the transverse holes that this rotating shaft has.

After adopting such scheme, rotating handles produces idle running and can't open door leaf when lock body presents normally closed lock state, and rotating handles can be opened door leaf when lock body presents normal unlocking condition.

Description of drawings

Fig. 1 is installed in the lock body drives structure for the utility model, and shows the three-dimensional exploded view of cover dish group, handle and latch mechanism;

Fig. 2 is each parts in the drives structure of the utility model demonstration lock body and the three-dimensional exploded view of latch mechanism;

Fig. 3 is a three-dimensional exploded view of the present utility model;

Fig. 4 is for after the utility model shows axostylus axostyle, engagement component combination, and the elastic parts of engagement component is supported on first plan view of axostylus axostyle;

Fig. 5 is for after the utility model shows axostylus axostyle, engagement component combination, and the elastic parts of engagement component is supported on second plan view of axostylus axostyle.

The primary clustering symbol description

1 drives structure, 11 rooms, 111 pedestals, 112 cover plates

113 cover plates, 114 anchor points, 115 hooks 12 lead the mechanism of contracting

121 drive seat, 122 drive portions, 123 holding parts, 124 supports

13 rotating shafts of 125 positioning components, 126 anchor points, 127 elastic parts

133 vertical holes, 131 transverse holes, 132 pushing parts, 134 centre bores

135 protuberances, 14 rotating shafts, 141 transverse holes, 142 pushing parts

143 vertical hole 144 centre bores, 145 protuberances, 15 sleeve pipes

151 centre bores, 152 breach, 153 grooves, 154 protuberances

16 sleeve pipes, 161 centre bores, 162 breach, 164 protuberances

172 clicking sections, 17 shifting parts, 171 holes, 173 flanges

182 clicking sections, 18 shifting parts, 181 holes, 183 flanges

19 collars, 191 centre bores, 192 engaging pieces, 193 grooves

2 cover dishes are organized 20 collars, 201 centre bores, 202 engaging pieces

203 grooves, 21 sleeves, 211 centre bores, 212 flanges

213 grooves, 214 holes, 22 shells, 221 centre bores

224 225 engaging pieces of 222 holes, 223 through holes

241 first sections of 23 rings, 24 axostylus axostyles, 240 alcoves

242 second section 243 the 3rd section 244 the 4th sections 245 clicking sections

246 first 247 second 248 transverse holes, 249 holes

25 engagement components, 251 helicla flutes, 252 grooves, 253 engaging pieces

255 first through holes, 256 second through holes, 26 elastic parts, 27 pins

29 pillars, 3 cover dishes are organized 31 engagement components, 311 helicla flutes

312 grooves, 313 engaging pieces, 314 transverse holes, 315 first through holes

316 second through holes, 32 elastic parts, 33 pins, 34 rod members

351 first sections 352 second sections of 35 axostylus axostyles, 350 alcoves

356 first of 353 the 3rd sections 354 the 4th sections 355 clicking sections

357 second 358 transverse holes 359 holes 36 rings

41 handles, 42 locks are organized 421 cores, 422 driving members

51 handles, 512 through holes, 52 locks are organized 521 cores

522 driving members, 6 latch mechanisms, 61 plunger latch heads, 7 drive mechanisms

8 drive mechanisms, 9 axis

The specific embodiment

A side or application that a kind of lock body drive mechanism of the utility model (two) can be used the drives structure 1 that is installed on lock body are installed in the both sides of drives structure 1, if only be installed on a side that drives structure 1, relative opposite side is then installed known drive structure, and known drive structure repeats no more in this; And following preferred embodiment is installed on the embodiment of both sides of the drives structure 1 of lock body for the utility model drive mechanism, see also shown in first figure to the, three figure, drives structure 1 can one cover dish group 2 be installed on the door with cover dish group 3, leader 41 with leader 51 (or mechanism of similar item) but removable mounting on lock body; One drive mechanism 7 or a transmission mechanism 8 are operably connected and one lead the mechanism 12 of contracting.

Described handle 41 has the through hole 412 that a through hole 412, one lock groups 42 can be installed in this handle 41, and this lock group 42 has a core 421, and this core 421 connects a driving member 422 (being shown in first figure), in order to drive a drive mechanism 8.

Described handle 5 has the through hole 512 that a through hole 512, one lock groups 52 can be installed in this handle 51, and this lock group 52 has a core 521, and this core 521 connects a driving member 522 (being shown in first figure), in order to drive drive mechanism 7.

Described drives structure 1 comprises:

One room 11 is to be connected by a pedestal 111, a cover plate 112 and cover plate 113 to form.

The described mechanism 12 of contracting of leading comprises:

One drive seat 121, front end has a drive portion 122 and can be meshed with the driven unit of latch mechanism 6 inside with the plunger latch head 61 of pulling latch mechanism 6, and the rear end of drive seat 121 has a holding part 123, has a support 124 between described drive portion 122 and the holding part 123.

Certain hyte part 125 has two anchor points 126, and described positioning component 125 can be installed in the holding part 123 of drive seat 121.

Two elastic parts 127 are installed between the anchor point 114 of the anchor point 126 of positioning component 125 and room 11, with the elastomeric bearing as drive seat 121.

Described drive mechanism 7 comprises:

One rotating shaft 13, it is a tube element, has a centre bore 134, one end has pushing part 132 can abut support 124 in drive seat 121,132 contiguous place has a protuberance 135 that is extended internally by tube wall in the pushing part in rotating shaft 13, and the other end of rotating shaft 13 has a transverse holes 131, and has a vertical hole 133 in vertical these transverse holes 131 places.

One axostylus axostyle 35 is class's rod member, can be placed in the centre bore 134 of rotating shaft, and it has interconnected one first section 351,1 second section 352,1 the 3rd section 353 and 1 the 4th section 354; This first section 351 axially is provided with a hole 359, this second section 352 is provided with a transverse holes 358, the 3rd section 353 surfaces have first 356 and second 357, this first 356 is the predetermined angular that staggers at interval with this second 357, axially have an alcove 350 (being shown in second figure) for the 4th section 354, and extend axially a clicking section 355 in the edge of alcove 350.

One engagement component 31 is a tube-like piece, and axially medium pore system is communicated with second through hole 316 by first through hole 315, and this engagement component 31 can be installed in the centre bore 134 of rotating shaft 13, wherein is arranged at for first of this axostylus axostyle 35 section 351 in this first through hole 315; Second section 358 of this axostylus axostyle 35 is arranged in this second through hole 316, and the tube wall of this engagement component 31 has two helicla flutes, 311, one engaging pieces 313 of setting at interval and the end that two grooves 312 that are provided with at interval form in this engagement component 31 again; One pin 33 can be arranged in the transverse holes 358 of helicla flute 311 with this axostylus axostyle 35 of this engagement component 31; And the groove 312 of this engagement component 31 can be meshed with the protuberance 135 of this rotating shaft 13, to keep the axially-movable of engagement component 31.

One shifting part, 17 peripheries have a clicking section 172, this shifting part 17 is horizontally set in the centre bore 134 of rotating shaft 13, this shifting part 17 extend axially a flange 173, can be installed in the alcove 350 of this axostylus axostyle 35, and shifting part 17 central authorities have a hole 171, can stir for the driving member 522 of lock group 52; And rotate the clicking section 355 that a predetermined angular position postpone can promote axostylus axostyle 35 around the axis 9 of this rotating shaft 13.

One ring 36 has two protuberances 361 that are provided with at interval and is horizontally set in the transverse holes 131 of rotating shaft 13.

One sleeve pipe 15 can be inserted in its inside for the part of rotating shaft 13, and an end has a protuberance 154 and a breach 152 in tube wall, and the other end has groove 153, can connect described handle 41 with after cover dish group 3 is meshed, and this does not give unnecessary details for habit is configured in this.

One collar 19 has a centre bore 191, can be placed on the sleeve pipe 15, and an end has engaging piece 192 and can be meshed with the breach 152 of this sleeve pipe 15; The other end has a groove 193 and can be meshed with the protuberance 154 of sleeve pipe 15, to gain in strength and twisting resistance.

Described drive mechanism 8 comprises:

One rotating shaft 14, it is a tube element, has a centre bore 144, one end has pushing part 142 can abut support 124 in drive seat 121,142 contiguous place has a protuberance 145 that is extended internally by tube wall in the pushing part in rotating shaft 14, and the other end of rotating shaft 14 has a transverse holes 141, and has a vertical hole 143 in vertical these transverse holes 141 places.

One axostylus axostyle 24.Be class's rod member, can be placed in the centre bore 144 of rotating shaft that it has interconnected one first section 241,1 second section 242,1 the 3rd section 243 and 1 the 4th section 244; This first section 241 axially is provided with a hole 249, this second section 242 horizontally set, one through hole 248, the 3rd section 243 surfaces have first 246 and second 247, this first 246 is the predetermined angular that staggers at interval with this second 247, axially have an alcove 240 for the 4th section 244, and extend axially a clicking section 245 in the edge of alcove 240.

One engagement component 25 is a tube-like piece, and axially medium pore system is communicated with second through hole 256 by first through hole 255, and this engagement component 25 can be installed in the centre bore 144 of rotating shaft 14, wherein is inserted in for first of this axostylus axostyle 24 section 241 in this first through hole 255; Second section 248 of this axostylus axostyle 24 is inserted in this second through hole 256, and the tube wall of this engagement component 25 has two helicla flutes, 251, one engaging pieces 253 of setting at interval and the end that two grooves 252 that are provided with at interval form in this engagement component 25 again; One pin 27 can be arranged in the transverse holes 248 of helicla flute 251 with this axostylus axostyle 24 of this engagement component 25; And the groove 252 of this engagement component 25 can be meshed with the protuberance 145 of this rotating shaft 14, to keep the axially-movable of engagement component 25.

One shifting part, 18 peripheries have a clicking section 182, this shifting part 18 is arranged in rotating shaft 14 centre bores 144, this shifting part 18 extend axially a flange 183, can be installed in the alcove 240 of this axostylus axostyle 24, and shifting part 18 central authorities have a hole 181, can stir for the driving member 422 of lock group 42; And the axis 9 of this rotating shaft 14 is rotated the clicking section 245 that a predetermined angular position postpone can promote axostylus axostyle 24.

One ring 23 has the protuberance 231 that is provided with at interval, is horizontally set at the transverse holes 141 of rotating shaft 14.

One sleeve pipe 16 can be inserted in its inside for the part of rotating shaft 14, and an end has a protuberance 164 and a breach 162 in tube wall, and the other end has groove 163, can connect described handle 41 with after cover dish group 2 is meshed, and this does not give unnecessary details for habit is configured in this.

One collar 20 has a centre bore 201, can be placed on the sleeve pipe 16, and an end has engaging piece 202 and can be meshed with the breach 162 of this sleeve pipe 16; The other end has a groove 203 and can be meshed with the protuberance 164 of sleeve pipe 16, to gain in strength and twisting resistance.

One sleeve 21, it is a hollow tube-shape, have a centre bore 211 and can supply wearing of sleeve pipe 16, one end has flange 212, have paired groove 213 and four holes 214 on the flange 212, described hole 214 can bend the side that hook 115 is fixed in sleeve 21 room 11 again for the wearing of the hook 115 of pedestal 111 after wearing.

One shell 22, it is a tubular, one end opening, the bottom that the other end has a horizontally set connects one 224, one end of tube has a centre bore 221, and the bottom has four holes 222 that are spaced apart and the two through hole 223 that is spaced apart, described centre bore 221 can supply wearing of sleeve pipe 15, before can directly being placed in, takes off on the room 11 on shell 22, make the hook 115 of pedestal 111 wear the hole 222 of sleeve 22, and bending hook 115 is fixed in sleeve 22 opposite side of room 11, this moment, two through hole 223 can align each pillar 29 of cover dish group 3 respectively, and combined with the screw (not shown).

Shown in first figure to the, five figure, the key (not shown) can be controlled door lock and make normally closed lock or often unblank, when desiring to make the Men Weichang unlocking condition, the driving member 522 that rotatable key drives lock group 52 drives shifting part 17, make the clicking section 355 of the clicking section 172 promotion axostylus axostyles 35 of shifting part 17, and rotating shaft rod 35, the pin 33 of axostylus axostyle 35 can promote a trough rim of the helicla flute 311 of engagement components 31 at this moment, the groove 312 of engagement component 31 is meshed with the protuberance 135 of rotating shaft 13 again, and the rotation of restriction engagement component 31, only keep endwisely slipping of engagement component 31, make engagement component 31 axial displacements to second 357 position that be meshed of elastic parts 32 with axostylus axostyle 35, again because the engaging piece 192 of the engaging piece 313 engagement collars 19 of engagement component 31, so during the swing handle 51 drive sleeve 15 interlock collars 19, make the engaging piece 192 of the collar 19 promote engagement component 31, and driving rotating shaft 13, make the support 124 of the pushing part 132 driving drive seat 121 of rotating shaft 13 again, make drive seat 121 do to move and the internal drive assembly start plunger latch head 61 of pulling latch mechanism 6, make plunger latch head 61 be positioned at the position of retraction, door is opened.

Shown in first figure to the, five figure, when desiring to make door for normally closed lock state, the driving member 522 that rotatable key drives lock group 52 drives shifting part 17, make the clicking section 355 of the clicking section 172 promotion axostylus axostyles 35 of shifting part 17, and rotating shaft rod 35, the pin 33 of axostylus axostyle 35 can promote another trough rim of the helicla flute 311 of engagement components 31 at this moment, the groove 312 of engagement component 31 is meshed with the protuberance 135 of rotating shaft 13 again, and the rotation of restriction engagement component 31, only keep endwisely slipping of engagement component 31, make first 356 position that is meshed of engagement component 31 axial displacements elastic parts 32 extremely and axostylus axostyle 35, make the engaging piece 313 of engagement component 31 not mesh the engaging piece 192 of the collar 19, so during the swing handle 51 drive sleeve 15 interlock collars 19, because the engaging piece 192 of the collar 19 does not mesh engagement component 31, so can not drive the pushing part 132 of rotating shaft 13, so handle 51 can produce predetermined angular idle running.

Because drive mechanism 7 is identical with the structure and the function of drive mechanism 8, therefore outside lock body or inboard lock body type of drive are identical, so do not give unnecessary details in this as mentioned above.

Again if desire to make drive mechanism 7 with drive mechanism 8 starts, the hole 359 that can a rod member 34 two ends be inserted in axostylus axostyle 35 respectively and the hole 249 of axostylus axostyle 24 are to form interlock.

By the detailed description of above-listed preferred embodiment, and attached claim and the accompanying drawing in back, will make many purposes of the utility model, feature and advantage obtain clearer and understand.

Claims (9)

1, a kind of lock body drive mechanism can be used the inboard or the outside that are installed on lock body, and this lock body can be installed on the door, and a drive seat is installed in the latch mechanism that is operably connected in this lock body; Leader's removable mounting is on this lock body; One through hole forms in this handle;

It is characterized in that:

This drive mechanism comprises: a rotating shaft, a sleeve pipe, a collar, a shifting part, an axostylus axostyle, a pin and an engagement component;

This sleeve pipe can be accepted the driving of this handle;

This rotating shaft can be had being inserted in this sleeve pipe of rotating, and partly stretches out outside this sleeve pipe; At least one pushing part forms in this rotating shaft and stretches out on the outer part of this sleeve pipe, and at least one protuberance forms in the tube wall inboard;

This shifting part is horizontally set in this rotating shaft, and has a hole; One clicking section forms in this shifting part;

This axostylus axostyle, an end has a clicking section; This axostylus axostyle laterally has a transverse holes;

This engagement component is a tube-like piece, can accept the plant of this axostylus axostyle, and tube wall has at least one helicla flute, and an engaging piece and a groove form in an end of this engagement component; This pin can be arranged in the transverse holes of this axostylus axostyle and the helicla flute of this engagement component; And the groove of this engagement component can be meshed with the protuberance of this rotating shaft, to keep the axially-movable of engagement component;

This collar can be sheathed on an end of this sleeve pipe; One engaging piece forms in an end of this collar;

One lock group can be installed in the through hole of this handle, and this lock group has a core, and this core connects a driving member;

This driving member axially is inserted in the hole of this shifting part along this rotating shaft, can move the clicking section that this shifting part stirs this axostylus axostyle.

2, lock body drive mechanism as claimed in claim 1 is characterized in that: be provided with one first and one second between the clicking section of this axostylus axostyle and this transverse holes.

3, lock body drive mechanism as claimed in claim 2 is characterized in that: this engagement component other end has two transverse holes that are provided with at interval, can install an elastic parts, and this elastic parts can be supported on first of this axostylus axostyle or second.

4, lock body drive mechanism as claimed in claim 1 is characterized in that: this axostylus axostyle alcove that is shaped in contiguous this clicking section, and this shifting part axially has a flange, and this flange can be had being placed in this alcove of rotation.

5, lock body drive mechanism as claimed in claim 1, it is characterized in that: this collar has a groove, and can overlap the protuberance that tube wall has with this and be connected, and the breach of engageable this sleeve pipe of engaging piece of this collar.

6, lock body drive mechanism as claimed in claim 1 is characterized in that: this collar and this sleeve pipe also can be one of the forming.

7, lock body drive mechanism as claimed in claim 1 is characterized in that: this drive mechanism can be used in the inboard and the outside that is installed on lock body simultaneously.

8, lock body drive mechanism as claimed in claim 7 is characterized in that: inboard axostylus axostyle with the outside has a square opening; One rod member can be inserted in respectively in the square opening with the while interlock inboard and the outside.

9, lock body drive mechanism as claimed in claim 1 is characterized in that: a further ring has two protuberances that are provided with at interval, and this ring can be installed in the horizontal position of this rotating shaft, and this protuberance is arranged in the transverse holes that this rotating shaft has.

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