EP1643058A1 - Weather-resistant lock apparatus - Google Patents
Weather-resistant lock apparatus Download PDFInfo
- Publication number
- EP1643058A1 EP1643058A1 EP04255749A EP04255749A EP1643058A1 EP 1643058 A1 EP1643058 A1 EP 1643058A1 EP 04255749 A EP04255749 A EP 04255749A EP 04255749 A EP04255749 A EP 04255749A EP 1643058 A1 EP1643058 A1 EP 1643058A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- lock
- weather
- padlock
- shackle
- lock core
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
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Classifications
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B21/00—Locks with lamelliform tumblers which are not set by the insertion of the key and in which the tumblers do not follow the movement of the bolt e.g. Chubb-locks
- E05B21/06—Cylinder locks, e.g. protector locks
- E05B21/066—Cylinder locks, e.g. protector locks of the rotary-disc tumbler type
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B17/00—Accessories in connection with locks
- E05B17/002—Weather or dirt protection
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B17/00—Accessories in connection with locks
- E05B17/007—Devices for reducing friction between lock parts
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B67/00—Padlocks; Details thereof
- E05B67/06—Shackles; Arrangement of the shackle
- E05B67/22—Padlocks with sliding shackles, with or without rotary or pivotal movement
- E05B67/24—Padlocks with sliding shackles, with or without rotary or pivotal movement with built- in cylinder locks
Definitions
- the invention relates to a lock apparatus, more particularly to a weather-resistant lock apparatus that is suitable for use in dusty and wet environments.
- a padlock body in current padlock structures, includes a padlock housing and a U-shaped shackle, and a lock core device is mounted in the padlock housing.
- the lock core device is operable to engage and disengage the shackle so as to enable locking and unlocking operations in a conventional manner.
- the lock core device is provided with a keyhole for receiving a key, if the padlock is used outdoors and is exposed to influences of natural forces, such as rain and wind, the service life of the padlock will be shortened.
- the padlock is used in a windy and sandy environment, tiny grains of sand and grit may gain entry into the interior of the lock core device through the keyhole and cause jamming of the internal components of the lock core device, thereby rendering the padlock inoperable.
- the padlock is used in a wet and humid environment, moisture may seep into the interior of the padlock housing through available clearances and gaps so that, after a period of time, components within the padlock housing will become rusty.
- any moisture that gets into the interior of the padlock may lead to freezing of the internal components, thereby rendering the padlock inoperable.
- padlock may be provided with a protective shroud to help maintain the operability of the padlock in harsh and extreme environments, in order to meet government regulations, such as those set by the U.S. Department of Defense, padlocks should not have an external protective shroud and should be resistant to dirt, moisture, corrosion, freezing, etc., by virtue of their inherent construction. Therefore, as to how padlocks can be constructed to endure extreme environments without having a protective shroud is the object of endeavor of manufacturers in the industry.
- the object of the present invention is to provide a weather-resistant lock apparatus suitable for use in dusty and wet environments.
- a weather-resistant lock apparatus comprises a lock core device that includes a lock shell and a lock core unit.
- the lock core unit includes an inner shell received in and rotatable relative to the lock shell, a plurality of locking plates received in and rotatable relative to the inner shell and cooperating to form a keyhole of the lock core unit, a locking unit operably associated with the locking plates for locking the inner shell against rotation relative to the lock shell in a locking state of the locking plates, and for unlocking the inner shell for rotation relative to the lock shell in an unlocking state of the locking plates, a latch actuator coupled to the inner shell, and a plurality of spacer plates, each of which is disposed between an adjacent pair of the locking plates.
- the spacer plates are made of a material with a hardness less than that of the locking plates.
- the lock core unit further includes a drive plate received in and rotatable relative to the inner shell.
- the drive plate is disposed between the locking plates and the latch actuator, and cooperates with the locking plates to form the keyhole.
- the drive plate is capable of transmitting a rotary force applied through a correct key that was inserted into the keyhole to the latch actuator.
- the drive plate is formed with a non-circular drive hole that forms a part of the keyhole.
- the lock core unit further includes a rotation control member mounted on the latch actuator and registered with the drive hole. The rotation control member extends into and engages the drive plate in the drive hole to prohibit rotation of the drive plate, and is movable to disengage from the drive plate when the correct key is inserted into the keyhole so as to permit rotation of the drive plate with the correct key in order to drive rotation of the latch actuator.
- the lock apparatus further comprises a padlock body that includes a padlock housing and a shackle member.
- the padlock housing is formed with a core chamber, and has a bottom portion formed with an opening for access into the core chamber.
- the lock core device is received in the core chamber.
- the padlock housing further has a top portion formed with two shackle holes.
- the shackle member has two insert ends that are inserted into the shackle holes, respectively.
- the padlock body further includes a latch unit disposed in the padlock housing and coupled to the latch actuator for engaging at least one of the insert ends of the shackle member.
- the padlock body further includes two seal rings, each of which is retained in a respective one of the shackle holes for establishing airtight contact with a respective one of the insert ends of the shackle member.
- the weather-resistant lock apparatus is shown to be embodied in a padlock that includes a lock core device 10, a padlock body 20 (see Figures 3 and 4), and a key 30 that can work on the lock core device 10 for locking and unlocking purposes.
- the key 3 0 has an actuating tip portion 31 at a foremost end, and a plurality of key bit portions 32 that are provided on a shank portion of the key 30 and that form different predetermined angles with the shank portion.
- the lock core device 10 is of the type disclosed in, for example, U. S. Patent Nos. 5, 934, 121 and 6,185,966, the entire disclosures of which are incorporated herein by reference. As shown in Figures 1 and 2, the lock core device 10 includes a lock shell 11 and a lock core unit.
- the lock core unit includes an inner shell 12, a drive plate 13, a plurality of locking plates 14, a plurality of annular spacer plates 15, a sealing member 16, a protective plate 17, a latch actuator 18, and a rotation control member 191.
- the lock shell 11 has a substantially rectangular head end 111 and a hollow interior confining a receiving chamber 112.
- the head end 111 has a square end face 113, and is formed with a key access hole 114 extending through the end face 113 and communicated with the receiving chamber 112.
- the end face 113 is formed with a beveled periphery 115.
- An insert groove 116 is formed in a lateral side of the head end 111.
- a retaining groove 117 is formed in a peripheral surface of the head end 111 for receiving a seal member 118 fittingly therein.
- the seal member 118 is shaped as a rectangular loop.
- seal member 118 and the beveled periphery 115 are configured to conform to the contour or shape of the head end 111, if the head end 111 is circular in shape, the seal member 118 and the beveled periphery 115 will be circular accordingly.
- the inner shell 12 is received in the receiving chamber 112, is rotatable relative to the lock shell 11, and has a hollow interior confining an axial hole 121 for receiving, in sequence, the drive plate 13, the locking plates 14, the spacer plates 15, and the sealing member 16.
- the inner shell 12 has a tubular wall that is formed with a first slot 122 corresponding in position to the locking plates 14 for receiving a first locking unit in the form of a first control rod 123, and a second slot 124 corresponding in position to the drive plate 13 for receiving a second locking unit in the form of a second control rod 125.
- the first and second control rods 123, 125 are operably and respectively associated with the locking plates 14 and the drive plate 13 so as to be retained between the inner shell 12 and a longitudinal groove 119 formed in an inner surface of the lock shell 11, whereby rotation of the inner shell 12 relative to the lock shell 11 can be prevented.
- the drive plate 13 has an outer periphery provided with a drive projection 131 and a notch 133, and is further formed with a non-circular drive hole 132 in the center thereof.
- the drive hole 132 is in the shape of three-quarters of a circle, and is disposed to receive the actuating tip portion 31 of the key 30.
- the drive hole 132 thus forms a part of a keyhole of the lock core device 10, and the drive plate 13 thus serves as a code-setting unit of the lock core device 10.
- the drive hole 132 can be configured to have any other shape.
- the locking plates 14 are circular plates made of stainless steel. Each of the locking plates 14 has an outer periphery formed with a notch 141 at a predetermined position.
- the locking plates 14 and the spacer plates 15 are arranged in a stack within the axial hole 121. Each of the spacer plates 15 is disposed between an adjacent pair of the locking plates 14, and serves to maintain smooth rotation of the locking plates 14.
- the spacer plates 15 in this invention are made of tetrafluoroethylene polymer, which has a hardness less than that of the locking plates 14 made of stainless steel, and which is capable of trapping granules pressed thereinto.
- the sealing member 16 is disposed at a foremost end of the inner shell 12, i.e., adjacent to the key access hole 114 , and includes a sealing ring 161 and a protective sleeve 162.
- the sealing ring 161 is press-fitted within the axial hole 121 in the inner shell 12.
- the protective sleeve 162 is also made of tetrafluoroethylene polymer, and is press-fitted in the receiving chamber 112 of the lock shell 11.
- the protective sleeve 162 is formed with an annular skirt 1621, which extends into and which is in sleeved engagement with the sealing ring 161. Accordingly, the sealing member 16 can effectively block entry of dust, sand and water into the interior of the lock core device 10.
- the protective plate 17 is fitted between the inner shell 12 and the head end 111 of the lock shell 11, and is in contact with the protective sleeve 162.
- the protective plate 17 is made from a high-strength metal alloy, and is capable of idle rotation within the receiving chamber 112 so as to withstand a drilling action coming from a direction of the key access hole 114, thereby avoiding destruction of the lock core device 10 due to the drilling action.
- the latch actuator 18 has a coupling portion 181 and an actuating portion 182.
- the coupling portion 181 is fitted into the axial hole 121 in a rear end of the inner shell 12.
- a retaining pin 110 is extended through the inner shell 12 to secure the coupling portion 181 in place .
- the coupling portion 181 is formed with a cavity 1811 for receiving the rotation control member 19 therein.
- a sleeve member 191, which is also made of tetrafluoroethylene polymer, is mounted fittingly in the cavity 1811.
- the sleeve member 191 has a fan-shaped end wall 1911.
- the drive projection 131 of the drive plate 13 engages the end wall 1911 so as to transmit rotation of the drive plate 13 to the latch actuator 18.
- the end wall 1911 is formed with a shaped hole 1912 therethrough.
- the shaped hole 1912 is also in the shape of three-quarters of a circle.
- the rotation control member 19 includes a spring 192 and a control pin 193 that are disposed in the cavity 1811.
- the control pin 193 is biased by the spring 192 toward the drive plate 13.
- the control pin 193 has a front end that serves as a stop end 1931, which has a cross section identical to the shape of the drive hole 132 and the shaped hole 1912.
- the control pin 193 is further formed with an axially extending slot 1932 therealong.
- the retaining pin 110 further extends through the slot 1932 to limit axial movement of the control pin 193.
- the lock core device 10 is formed as a detachable module that can be mounted in the padlock body20.
- the lock core device 10 can be also used in a wide range of other applications, such as in door locks, auxiliary locks, and other lock apparatuses.
- the padlock body 20 is shown to include a padlock housing 21, two seal rings 22, a shackle member 23, a latch unit in the form of two catch members 24, a securing member 25, a plug 26, a securing block 27, and a protective block 28.
- the padlock housing 21 is substantially oval in cross section, is formed with a core chamber 211, and has a bottom portion formed with an opening 2110 for access into the core chamber 211.
- the lock core device 10 is received in the core chamber 211.
- the head end 111 of the lock shell 11 is capable of establishing watertight contact with the bottom portion of the padlock housing 21 through the seal member 118.
- the end face 113 of the lock shell 11 projects outwardly of the opening 2110 in the bottom portion of the padlock housing 21.
- the padlock housing 21 further has a top portion formed with left and right shackle holes 212, 213.
- Two annular grooves 214 are respectively formed in hole-defining walls that respectively define the shackle holes 212, 213 adjacent to open ends of the shackle holes 212, 213.
- the seal rings 22 are retained in the shackle holes 212, 213 in the respective one of the grooves 214.
- the interior of the padlock housing 21 is configured with a passage 215 that is disposed at an inner end of the left shackle hole 212 and that extends in a direction transverse to the left shackle hole 212 toward the core chamber 211.
- the padlock housing 21 is further formed with a threaded hole 216 at an inner end of the right shackle hole 213.
- the interior of the padlock housing 21 is further configured with a slide way 217 extending transverse to and extending between the left and right shackle holes 212, 213 and disposed above the core chamber 211.
- a shackle retainer 210 is mounted in the padlock housing 21 adjacent to the left shackle hole 212, and has a section extending into the left shackle hole 212.
- the shackle member 23 has a U-shaped configuration, and longer and shorter insert ends 231, 232.
- the longer and shorter insert ends 231, 232 are respectively inserted into the shackle holes 212, 213 such that airtight contact is established between each of the longer and shorter insert ends 231, 232 and the padlock housing 21 through the seal rings 22 in the shackle holes 212, 213.
- Each of the longer and shorter insert ends 231, 232 is formed with a retaining groove 233 in an inner side thereof.
- the longer insert end 231 is further formed with a straight groove 234 and an annular groove 235.
- the shackle retainer 210 extends into the straight groove 234 and the annular groove 235 to prevent removal of the shackle member 23 from the padlock housing 21 in an unlocked state of the shackle member 23, as best shown in Figure 8.
- the catch members 24 are disposed in the slide way 217. Each of the catch members 24 has an axial pin 241 for coupling with the actuating portion 182 (see Figure 1) of the latch actuator 18. When the correct key 30 is inserted into the lock core device 10 to rotate the latch actuator 18, the catch members 24 will be brought to engage or disengage the retaining grooves 233 in the longer and shorter insert ends 231, 232 of the shackle member 23, respectively.
- the securing member 25 is disposed in the padlock housing 21 adjacent to the lock core device 10.
- the securing member 25 includes a nut 251 and a threaded rod 252.
- the nut 251 is embedded in the padlock housing 21 for threaded engagement with the threaded rod 252.
- the threaded rod 252 extends through the nut 251, and is capable of being tightened so as to abut against the lock core device 10 and retain the lock core device 10 in the core chamber 211.
- the padlock housing 21 is further formed with an aperture 218 that is aligned with the threaded rod 252.
- the aperture 218 normally receives the plug 26, which serves to close the aperture 218 to prevent entry of foreign objects into the padlock housing 21 through the aperture 218.
- the securing block 27 is disposed in the passage 215.
- the longer insert end 231 of the shackle member 23 abuts against the guiding surface 271 to urge the securing block 27 to displace toward the lock core device 10, thereby tightening the securing block 27 against the lock core device 10 so as to retain the lock core device 10 in the core chamber 211.
- Another side of the securing block 27, which is adjacent to the core chamber 211, is formed with a protruding portion 272 for engaging the insert groove 116 in the lock shell 11 of the lock core body 10, as best shown in Figure 5.
- the protective block 28 is disposed in the right shackle hole 213 in the padlock housing 21, and has a height that complements the length of the shorter insert end 232 of the shackle member 23.
- the protective block 28 is formed with a fastener hole 281 registered with the right shackle hole 213 therethrough.
- a screw 282 is inserted through the fastener hole 281 to engage the threaded hole 216, thereby mounting removably the protective block 28 in the padlock housing 21.
- the protective block 28 has a top portion provided with a flange 283 to support the catch member 24 at the right side of the padlock housing 21.
- the protective block 28 is made of a hard metal alloy, and is disposed at a lateral side of the lock core device 10 so as to resist a drilling action coming from a lateral direction, thereby avoiding destruction of the lock core device 10 due to the drilling action.
- the longer and shorter insert ends 231, 232 of the shackle member 23 are inserted in the shackle holes 212, 213 in the padlock housing 21, and are prevented from outward displacement by the catch members 24 of the latch unit.
- the lock core device 10 is retained in the padlock housing 21 by the securing member 25 that abuts theregainst.
- the longer insert end 231 of the shackle member 23 shields the threaded rod 252 of the securing member 25, loosening of the threaded rod 252 is not permitted at this time such that removal of the lock core device 10 is not possible.
- the drive plate 13 of the lock core device 10 is prevented from rotation by the control pin 193 of the rotation control member 19.
- the rotation control member 19 is provided mainly to maintain the drive plate 13 in a non-rotatable state. Therefore, even if the lock apparatus of this invention is subjected to strong external impact, the drive plate 13 will not be shaken out of place, and the locked state of the lock core device 10 can be maintained.
- the correct key 30 has to be inserted into the keyhole of the lock core device 10.
- the key bit portions 32 of the key 30 are used to bring the locking plates 14 to an unlocking state where the notches 141 in the locking plates 14 are aligned with one another so that the first control rod 123 can extend into the notches 141 in the locking plates 14 and disengage from the groove 119 in the lock shell 11.
- the actuating tip portion 31 of the key 30 is inserted into the drive hole 132 in the drive plate 13 to push the control pin 193 against biasing action of the spring 192 to disengage from the drive plate 13 such that the drive plate 13 is rotatable with the key 30 to an unlocking state where the second control rod 125 is able to extend into the notch 133 in the drive plate 13 and thereby disengage from the groove 119 in the lock shell 11.
- the inner shell 12 will no longer be restricted by the first and second control rods 123, 125 and will be capable of rotation within the lock shell 11.
- the drive projection 131 will engage the end wall 1911 of the sleeve member 191 to thereby transmit rotation of the drive plate 13 to the latch actuator 18.
- Figure 7 illustrates a state where the key 30 is capable of driving the locking plates 14 to their unlocking states but is not provided with the correct actuating tip portion 31 (see Figure 1) for driving rotation of the drive plate 13. It should be noted that the inner shell 12 at this time is prevented by the second control rod 125 from rotation within the lock shell 11. As it is necessary to dispose the two control rods 123, 125 in their unlocking positions in order to permit rotation of the latchactuator 18, the anti-theft effect of the lock apparatus of this invention is enhanced accordingly.
- the plug 26 is removed, and a tool (not shown), such as a hexagonal wrench, is extended into the aperture 218 to loosen the threaded rod 252.
- the lock core device 10 is then removed from the core chamber 211 through the opening 2110 in the bottom portion of the padlock housing 21.
- a tool (not shown) is extended into the right shackle hole 213 to loosen the screw 282 in the protective block 28 and to remove the screw 282 from the threaded hole 216.
- the protective block 28 can be removed from the padlock housing 21 through the opening 2110 in the bottom portion of the padlock housing 21 at this time.
- catch members 24 can be removed from the padlock housing 21 through the opening 2110 in the bottom portion of the padlock housing 21.
- the shackle retainer 210 and the securing block 27 are removed from the padlock housing 21, also through the opening 2110 in the bottom portion of the padlock housing 21.
- tiny sand grains 100 may enter the lock core device 10 through the key access hole 114.
- the spacer plates 15 are made of tetrafluoroethylene polymer and are thus much softer than the locking plates 14 made of stainless steel, the sand grains 100 will be pressed into the surfaces of the spacer plates 15 when the locking plates 14 are rotated during operation, thereby preventing jamming of the locking plates 14 due to the presence of the sand grains 100.
- the locking plates 14 can rotate smoothly to permit normal functioning of the lock apparatus of this invention even in a windy and dusty environment.
- the drive plate 13 is disposed in contact with the tetrafluoroethylene polymer sleeve member 191
- the protective plate 17 is disposed in contact with the tetrafluoroethylene polymer protective sleeve 162 to render the internal components of the lock core device 10 resistant to sand and dust.
- FIG 13 illustrates the second preferred embodiment of the weather-resistant lock apparatus according to this invention, which is a modification of the previous embodiment.
- a padlock housing 21' has a lock core device 10, two catch members 24, and a securing block 27 mounted therein.
- the padlock housing 21' has two shackle guards 211' extending therefrom to protect a shackle member 23', and further accommodates a protective block 28' therein.
- the shackle member 23' has two insert ends 231' that are of equal length, and the fastener hole 281' in the protective block 28' is modified to receive one of the insert ends 231' .
- the shackle retainer 210 see Figure 5 of the previous embodiment is not provided in the padlock housing 21' , in an unlocked state, the shackle member 23' can be removed entirely from the padlock housing 21'.
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Abstract
Description
- The invention relates to a lock apparatus, more particularly to a weather-resistant lock apparatus that is suitable for use in dusty and wet environments.
- In current padlock structures, a padlock body includes a padlock housing and a U-shaped shackle, and a lock core device is mounted in the padlock housing. The lock core device is operable to engage and disengage the shackle so as to enable locking and unlocking operations in a conventional manner. However, in a conventional padlock, as clearances or gaps are present between the padlock housing and the shackle after assembly, and as the lock core device is provided with a keyhole for receiving a key, if the padlock is used outdoors and is exposed to influences of natural forces, such as rain and wind, the service life of the padlock will be shortened. For instance, if the padlock is used in a windy and sandy environment, tiny grains of sand and grit may gain entry into the interior of the lock core device through the keyhole and cause jamming of the internal components of the lock core device, thereby rendering the padlock inoperable. Moreover, if the padlock is used in a wet and humid environment, moisture may seep into the interior of the padlock housing through available clearances and gaps so that, after a period of time, components within the padlock housing will become rusty. Furthermore, if the padlock is used in cold climates, any moisture that gets into the interior of the padlock may lead to freezing of the internal components, thereby rendering the padlock inoperable. Although the padlock may be provided with a protective shroud to help maintain the operability of the padlock in harsh and extreme environments, in order to meet government regulations, such as those set by the U.S. Department of Defense, padlocks should not have an external protective shroud and should be resistant to dirt, moisture, corrosion, freezing, etc., by virtue of their inherent construction. Therefore, as to how padlocks can be constructed to endure extreme environments without having a protective shroud is the object of endeavor of manufacturers in the industry.
- Therefore, the object of the present invention is to provide a weather-resistant lock apparatus suitable for use in dusty and wet environments.
- According to the present invention, a weather-resistant lock apparatus comprises a lock core device that includes a lock shell and a lock core unit. The lock core unit includes an inner shell received in and rotatable relative to the lock shell, a plurality of locking plates received in and rotatable relative to the inner shell and cooperating to form a keyhole of the lock core unit, a locking unit operably associated with the locking plates for locking the inner shell against rotation relative to the lock shell in a locking state of the locking plates, and for unlocking the inner shell for rotation relative to the lock shell in an unlocking state of the locking plates, a latch actuator coupled to the inner shell, and a plurality of spacer plates, each of which is disposed between an adjacent pair of the locking plates. The spacer plates are made of a material with a hardness less than that of the locking plates.
- Preferably, the lock core unit further includes a drive plate received in and rotatable relative to the inner shell. The drive plate is disposed between the locking plates and the latch actuator, and cooperates with the locking plates to form the keyhole. The drive plate is capable of transmitting a rotary force applied through a correct key that was inserted into the keyhole to the latch actuator.
- Preferably, the drive plate is formed with a non-circular drive hole that forms a part of the keyhole. The lock core unit further includes a rotation control member mounted on the latch actuator and registered with the drive hole. The rotation control member extends into and engages the drive plate in the drive hole to prohibit rotation of the drive plate, and is movable to disengage from the drive plate when the correct key is inserted into the keyhole so as to permit rotation of the drive plate with the correct key in order to drive rotation of the latch actuator.
- Preferably, the lock apparatus further comprises a padlock body that includes a padlock housing and a shackle member. The padlock housing is formed with a core chamber, and has a bottom portion formed with an opening for access into the core chamber. The lock core device is received in the core chamber. The padlock housing further has a top portion formed with two shackle holes. The shackle member has two insert ends that are inserted into the shackle holes, respectively.
- Preferably, the padlock body further includes a latch unit disposed in the padlock housing and coupled to the latch actuator for engaging at least one of the insert ends of the shackle member.
- Preferably, the padlock body further includes two seal rings, each of which is retained in a respective one of the shackle holes for establishing airtight contact with a respective one of the insert ends of the shackle member.
- Other features and advantages of the present invention will become apparent in the following detailed description of the preferred embodiments with reference to the accompanying drawings, of which:
- Figure 1 is an exploded perspective view showing a lock core device and a key of the first preferred embodiment of a weather-resistant lock apparatus according to this invention;
- Figure 2 is an assembled sectional view of the lock core device of Figure 1;
- Figure 3 is a partly sectioned, exploded perspective view of the first preferred embodiment to illustrate a padlock body in an exploded state;
- Figure 4 is a partly sectioned perspective view of the first preferred embodiment, illustrating the lock core device when assembled to the padlock body;
- Figure 5 is an assembled sectional view of the first preferred embodiment, illustrating a shackle member of the padlock body in a locked state;
- Figure 6 is a fragmentary schematic sectional view of the lock core device of Figure 1, illustrating how rotation of a drive plate can be prohibited by a rotation control member;
- Figure 7 is a fragmentary schematic sectional view of the lock core device of Figure 1, illustrating how unlocking of the lock core device can be prohibited by the drive plate even when a key inserted therein can drive rotation of locking plates of the lock core device;
- Figure 8 is a fragmentary schematic sectional view of the lock core device of Figure 1, illustrating how unlocking of the lock core device is made possible using a key that can drive rotation of the locking plates and the drive plate;
- Figure 9 is an assembled sectional view of the first preferred embodiment, illustrating the shackle member in an unlocked state;
- Figure 10 is a partly sectioned, schematic view of the first preferred embodiment to illustrate airtight contact between the shackle member and two seal rings in the padlock housing of the padlock body;
- Figure 11 is partly cutaway schematic view of the first preferred embodiment, illustrating how water can be prevented from seeping between the lock core device and the padlock housing;
- Figure 12 is a fragmentary schematic sectional view of the lock core device of Figure 1, illustrating how jamming of the locking plates can be prevented by spacer plates; and
- Figure 13 is an assembled sectional view of another preferred embodiment of a weather-resistant lock apparatus according to this invention.
- Before the present invention is described in greater detail, it should be noted that like elements are denoted by the same reference numerals throughout the disclosure.
- Referring to Figures 1 to 4, the weather-resistant lock apparatus according to the present invention is shown to be embodied in a padlock that includes a
lock core device 10, a padlock body 20 (see Figures 3 and 4), and a key 30 that can work on thelock core device 10 for locking and unlocking purposes. The key 3 0 has an actuatingtip portion 31 at a foremost end, and a plurality ofkey bit portions 32 that are provided on a shank portion of thekey 30 and that form different predetermined angles with the shank portion. - The
lock core device 10 is of the type disclosed in, for example, U. S. Patent Nos. 5, 934, 121 and 6,185,966, the entire disclosures of which are incorporated herein by reference. As shown in Figures 1 and 2, thelock core device 10 includes alock shell 11 and a lock core unit. The lock core unit includes aninner shell 12, adrive plate 13, a plurality oflocking plates 14, a plurality ofannular spacer plates 15, asealing member 16, aprotective plate 17, alatch actuator 18, and arotation control member 191. - The
lock shell 11 has a substantiallyrectangular head end 111 and a hollow interior confining areceiving chamber 112. Thehead end 111 has asquare end face 113, and is formed with akey access hole 114 extending through theend face 113 and communicated with thereceiving chamber 112. Theend face 113 is formed with abeveled periphery 115. Aninsert groove 116 is formed in a lateral side of thehead end 111. Aretaining groove 117 is formed in a peripheral surface of thehead end 111 for receiving aseal member 118 fittingly therein. In this embodiment, theseal member 118 is shaped as a rectangular loop. Since theseal member 118 and thebeveled periphery 115 are configured to conform to the contour or shape of thehead end 111, if thehead end 111 is circular in shape, theseal member 118 and thebeveled periphery 115 will be circular accordingly. - The
inner shell 12 is received in thereceiving chamber 112, is rotatable relative to thelock shell 11, and has a hollow interior confining anaxial hole 121 for receiving, in sequence, thedrive plate 13, thelocking plates 14, thespacer plates 15, and the sealingmember 16. Theinner shell 12 has a tubular wall that is formed with afirst slot 122 corresponding in position to thelocking plates 14 for receiving a first locking unit in the form of afirst control rod 123, and asecond slot 124 corresponding in position to thedrive plate 13 for receiving a second locking unit in the form of asecond control rod 125. The first andsecond control rods locking plates 14 and thedrive plate 13 so as to be retained between theinner shell 12 and alongitudinal groove 119 formed in an inner surface of thelock shell 11, whereby rotation of theinner shell 12 relative to thelock shell 11 can be prevented. Thedrive plate 13 has an outer periphery provided with adrive projection 131 and anotch 133, and is further formed with anon-circular drive hole 132 in the center thereof. In this embodiment, thedrive hole 132 is in the shape of three-quarters of a circle, and is disposed to receive the actuatingtip portion 31 of thekey 30. It is noted that only when the actuatingtip portion 31 of thekey 30 matches the shape of thedrive hole 132 will thekey 30 be able to drive rotation of thedrive plate 13. Thedrive hole 132 thus forms a part of a keyhole of thelock core device 10, and thedrive plate 13 thus serves as a code-setting unit of thelock core device 10. Certainly, thedrive hole 132 can be configured to have any other shape. Thelocking plates 14 are circular plates made of stainless steel. Each of thelocking plates 14 has an outer periphery formed with anotch 141 at a predetermined position. Holes formed through thelocking plates 14 correspond to thekey bit portions 32 of thekey 30, and cooperate to form another part of the keyhole of thelock core device 10 such that thelocking plates 14 generally serve as another code-setting unit of thelock core device 10. Thelocking plates 14 and thespacer plates 15 are arranged in a stack within theaxial hole 121. Each of thespacer plates 15 is disposed between an adjacent pair of the lockingplates 14, and serves to maintain smooth rotation of the lockingplates 14. Most importantly, thespacer plates 15 in this invention are made of tetrafluoroethylene polymer, which has a hardness less than that of the lockingplates 14 made of stainless steel, and which is capable of trapping granules pressed thereinto. Moreover, as tetrafluoroethylene polymer is known to exhibit lubricating characteristics, it can serve as a substitute for conventional lubricants. It is noted that the conventional lock core device is often stained with dirt during lubrication, thereby dirtying the key 30 and obstructing turning of the key 30. With the use of the tetrafluoroethylenepolymer spacer plates 15 in this invention, there is no need for additional lubrication, thus eliminating the aforesaid problem. The sealingmember 16 is disposed at a foremost end of theinner shell 12, i.e., adjacent to thekey access hole 114 , and includes asealing ring 161 and aprotective sleeve 162. The sealingring 161 is press-fitted within theaxial hole 121 in theinner shell 12. Theprotective sleeve 162 is also made of tetrafluoroethylene polymer, and is press-fitted in the receivingchamber 112 of thelock shell 11. Theprotective sleeve 162 is formed with anannular skirt 1621, which extends into and which is in sleeved engagement with the sealingring 161. Accordingly, the sealingmember 16 can effectively block entry of dust, sand and water into the interior of thelock core device 10. Theprotective plate 17 is fitted between theinner shell 12 and thehead end 111 of thelock shell 11, and is in contact with theprotective sleeve 162. Theprotective plate 17 is made from a high-strength metal alloy, and is capable of idle rotation within the receivingchamber 112 so as to withstand a drilling action coming from a direction of thekey access hole 114, thereby avoiding destruction of thelock core device 10 due to the drilling action. - The
latch actuator 18 has acoupling portion 181 and anactuating portion 182. Thecoupling portion 181 is fitted into theaxial hole 121 in a rear end of theinner shell 12. A retainingpin 110 is extended through theinner shell 12 to secure thecoupling portion 181 in place . Thecoupling portion 181 is formed with acavity 1811 for receiving therotation control member 19 therein. Asleeve member 191, which is also made of tetrafluoroethylene polymer, is mounted fittingly in thecavity 1811. Thesleeve member 191 has a fan-shapedend wall 1911. Thedrive projection 131 of thedrive plate 13 engages theend wall 1911 so as to transmit rotation of thedrive plate 13 to thelatch actuator 18. Theend wall 1911 is formed with ashaped hole 1912 therethrough. Like thedrive hole 132 in thedrive plate 13, the shapedhole 1912 is also in the shape of three-quarters of a circle. - The
rotation control member 19 includes aspring 192 and acontrol pin 193 that are disposed in thecavity 1811. Thecontrol pin 193 is biased by thespring 192 toward thedrive plate 13. Thecontrol pin 193 has a front end that serves as astop end 1931, which has a cross section identical to the shape of thedrive hole 132 and the shapedhole 1912. Thecontrol pin 193 is further formed with anaxially extending slot 1932 therealong. The retainingpin 110 further extends through theslot 1932 to limit axial movement of thecontrol pin 193. - In this embodiment, the
lock core device 10 is formed as a detachable module that can be mounted in the padlock body20. However, it should be appreciated by those skilled in the art that thelock core device 10 can be also used in a wide range of other applications, such as in door locks, auxiliary locks, and other lock apparatuses. - Referring to Figures 3, 4 and 5, the
padlock body 20 is shown to include apadlock housing 21, twoseal rings 22, ashackle member 23, a latch unit in the form of twocatch members 24, a securingmember 25, aplug 26, a securingblock 27, and aprotective block 28. - The
padlock housing 21 is substantially oval in cross section, is formed with acore chamber 211, and has a bottom portion formed with anopening 2110 for access into thecore chamber 211. Thelock core device 10 is received in thecore chamber 211. Thehead end 111 of thelock shell 11 is capable of establishing watertight contact with the bottom portion of thepadlock housing 21 through theseal member 118. Theend face 113 of thelock shell 11 projects outwardly of theopening 2110 in the bottom portion of thepadlock housing 21. Thepadlock housing 21 further has a top portion formed with left and right shackle holes 212, 213. Twoannular grooves 214 are respectively formed in hole-defining walls that respectively define the shackle holes 212, 213 adjacent to open ends of the shackle holes 212, 213. The seal rings 22 are retained in the shackle holes 212, 213 in the respective one of thegrooves 214. The interior of thepadlock housing 21 is configured with apassage 215 that is disposed at an inner end of theleft shackle hole 212 and that extends in a direction transverse to theleft shackle hole 212 toward thecore chamber 211. Thepadlock housing 21 is further formed with a threadedhole 216 at an inner end of theright shackle hole 213. The interior of thepadlock housing 21 is further configured with aslide way 217 extending transverse to and extending between the left and right shackle holes 212, 213 and disposed above thecore chamber 211. Ashackle retainer 210 is mounted in thepadlock housing 21 adjacent to theleft shackle hole 212, and has a section extending into theleft shackle hole 212. - The
shackle member 23 has a U-shaped configuration, and longer and shorter insert ends 231, 232. In this embodiment, the longer and shorter insert ends 231, 232 are respectively inserted into the shackle holes 212, 213 such that airtight contact is established between each of the longer and shorter insert ends 231, 232 and thepadlock housing 21 through the seal rings 22 in the shackle holes 212, 213. Each of the longer and shorter insert ends 231, 232 is formed with a retaininggroove 233 in an inner side thereof. Thelonger insert end 231 is further formed with astraight groove 234 and anannular groove 235. Theshackle retainer 210 extends into thestraight groove 234 and theannular groove 235 to prevent removal of theshackle member 23 from thepadlock housing 21 in an unlocked state of theshackle member 23, as best shown in Figure 8. - The
catch members 24 are disposed in theslide way 217. Each of thecatch members 24 has anaxial pin 241 for coupling with the actuating portion 182 (see Figure 1) of thelatch actuator 18. When thecorrect key 30 is inserted into thelock core device 10 to rotate thelatch actuator 18, thecatch members 24 will be brought to engage or disengage the retaininggrooves 233 in the longer and shorter insert ends 231, 232 of theshackle member 23, respectively. - The securing
member 25 is disposed in thepadlock housing 21 adjacent to thelock core device 10. The securingmember 25 includes anut 251 and a threadedrod 252. Thenut 251 is embedded in thepadlock housing 21 for threaded engagement with the threadedrod 252. The threadedrod 252 extends through thenut 251, and is capable of being tightened so as to abut against thelock core device 10 and retain thelock core device 10 in thecore chamber 211. Thepadlock housing 21 is further formed with anaperture 218 that is aligned with the threadedrod 252. Theaperture 218 normally receives theplug 26, which serves to close theaperture 218 to prevent entry of foreign objects into thepadlock housing 21 through theaperture 218. - The securing
block 27 is disposed in thepassage 215. One side of the securingblock 27, which is adjacent to theleft shackle hole 212, is formed with acurved guiding surface 271. Thelonger insert end 231 of theshackle member 23 abuts against the guidingsurface 271 to urge the securingblock 27 to displace toward thelock core device 10, thereby tightening the securingblock 27 against thelock core device 10 so as to retain thelock core device 10 in thecore chamber 211. Another side of the securingblock 27, which is adjacent to thecore chamber 211, is formed with a protrudingportion 272 for engaging theinsert groove 116 in thelock shell 11 of thelock core body 10, as best shown in Figure 5. - The
protective block 28 is disposed in theright shackle hole 213 in thepadlock housing 21, and has a height that complements the length of theshorter insert end 232 of theshackle member 23. Theprotective block 28 is formed with afastener hole 281 registered with theright shackle hole 213 therethrough. Ascrew 282 is inserted through thefastener hole 281 to engage the threadedhole 216, thereby mounting removably theprotective block 28 in thepadlock housing 21. Theprotective block 28 has a top portion provided with aflange 283 to support thecatch member 24 at the right side of thepadlock housing 21. Theprotective block 28 is made of a hard metal alloy, and is disposed at a lateral side of thelock core device 10 so as to resist a drilling action coming from a lateral direction, thereby avoiding destruction of thelock core device 10 due to the drilling action. - The foregoing is a description of the major components of the weather-resistant lock apparatus according to this invention, and their relative structural relationships and positions. The locking and unlocking operations, as well as the intended effects, of this invention will be described in the succeeding paragraphs.
- Referring to Figure 5, in a locking state, the longer and shorter insert ends 231, 232 of the
shackle member 23 are inserted in the shackle holes 212, 213 in thepadlock housing 21, and are prevented from outward displacement by thecatch members 24 of the latch unit. Thelock core device 10 is retained in thepadlock housing 21 by the securingmember 25 that abuts theregainst. As thelonger insert end 231 of theshackle member 23 shields the threadedrod 252 of the securingmember 25, loosening of the threadedrod 252 is not permitted at this time such that removal of thelock core device 10 is not possible. In addition, as a lower edge of thelonger insert end 231 of theshackle member 23 urges the securingblock 27 to engage theinsert groove 116 in the lateral side of thehead end 111 of thelock shell 11, thelock core device 10 is firmly retained in thepadlock housing 21 at this time. - Referring to Figures 1 and 6, in the locking state, the
drive plate 13 of thelock core device 10 is prevented from rotation by thecontrol pin 193 of therotation control member 19. Therotation control member 19 is provided mainly to maintain thedrive plate 13 in a non-rotatable state. Therefore, even if the lock apparatus of this invention is subjected to strong external impact, thedrive plate 13 will not be shaken out of place, and the locked state of thelock core device 10 can be maintained. - When it is desired to unlock the lock apparatus of this invention, the
correct key 30 has to be inserted into the keyhole of thelock core device 10. Referring to Figures 1 and 8, thekey bit portions 32 of the key 30 are used to bring thelocking plates 14 to an unlocking state where thenotches 141 in thelocking plates 14 are aligned with one another so that thefirst control rod 123 can extend into thenotches 141 in thelocking plates 14 and disengage from thegroove 119 in thelock shell 11. Moreover, theactuating tip portion 31 of the key 30 is inserted into thedrive hole 132 in thedrive plate 13 to push thecontrol pin 193 against biasing action of thespring 192 to disengage from thedrive plate 13 such that thedrive plate 13 is rotatable with the key 30 to an unlocking state where thesecond control rod 125 is able to extend into thenotch 133 in thedrive plate 13 and thereby disengage from thegroove 119 in thelock shell 11. At this time, theinner shell 12 will no longer be restricted by the first andsecond control rods lock shell 11. When thedrive plate 13 is rotated by the key 30, thedrive projection 131 will engage theend wall 1911 of thesleeve member 191 to thereby transmit rotation of thedrive plate 13 to thelatch actuator 18. - Figure 7 illustrates a state where the key 30 is capable of driving the
locking plates 14 to their unlocking states but is not provided with the correct actuating tip portion 31 (see Figure 1) for driving rotation of thedrive plate 13. It should be noted that theinner shell 12 at this time is prevented by thesecond control rod 125 from rotation within thelock shell 11. As it is necessary to dispose the twocontrol rods latchactuator 18, the anti-theft effect of the lock apparatus of this invention is enhanced accordingly. - Referring to Figure 9, when the
latch actuator 18 rotates as described hereinabove, due to the coupling between the actuating portion 182 (see Figure 1) of thelatch actuator 18 and thecatch members 24, thecatch members 24 are respectively disengaged from the retaininggrooves 233 in the longer and shorter insert ends 231, 232 of theshackle member 23, thereby enabling theentire shackle member 23 to be pulled upwardly relative to thepadlock housing 21. At this time, thelonger insert end 231 of theshackle member 23 is blocked by theshackle retainer 210 from being uprooted completely from theleft shackle hole 212, whereas theshorter insert end 232 can be removed completely from theright shackle hole 213. When theshackle member 23 is in an unlocked state, thelonger insert end 231 no longer shields the threadedrod 252, and the securingblock 27 is no longer urged by thelonger insert end 231 toward thelock shell 11. - In the aforesaid unlocked state, the components of the lock apparatus of this invention can be dismantled in the following sequence:
- First, the
plug 26 is removed, and a tool (not shown), such as a hexagonal wrench, is extended into theaperture 218 to loosen the threadedrod 252. Thelock core device 10 is then removed from thecore chamber 211 through theopening 2110 in the bottom portion of thepadlock housing 21. - After the
lock core device 10 has been removed, a tool (not shown) is extended into theright shackle hole 213 to loosen thescrew 282 in theprotective block 28 and to remove thescrew 282 from the threadedhole 216. Theprotective block 28 can be removed from thepadlock housing 21 through theopening 2110 in the bottom portion of thepadlock housing 21 at this time. - Thereafter, the
catch members 24 can be removed from thepadlock housing 21 through theopening 2110 in the bottom portion of thepadlock housing 21. - Subsequently, the
shackle retainer 210 and the securingblock 27 are removed from thepadlock housing 21, also through theopening 2110 in the bottom portion of thepadlock housing 21. - Finally, the
shackle member 23 is disassembled from thepadlock housing 21. - As all of the internal components of the lock apparatus of this invention are detachable, defective or damaged components can be conveniently removed, and replacement components can be installed with relative ease by conducting the foregoing steps in a reverse order.
- Referring to Figure 10, when the weather-resistant lock apparatus of this invention is used in a wet and humid environment, water may accumulate on the top portion of the
padlock housing 21 at the open ends of the shackle holes. However, since the shackle holes are provided therein with the seal rings 22 to establish an airtight and watertight seal with theshackle member 23, water cannot enter into thepadlock body 20 through the shackle holes, thereby avoiding rusting of components inside thepadlock housing 21. Moreover, since water can be prevented from entering into thepadlock body 20, the internal components are not likely to become frozen in cold climates so as not to affect normal operation of the lock apparatus of this invention. - Referring to Figure 11, when the weather-resistant lock apparatus of this invention is exposed to a wet and humid environment, water may flow along the bottomportion of the
padlock housing 21 and reach thelock core device 10. However, since theend face 113 of thelock shell 11 of thelock core device 10 projects outwardly of thepadlock housing 21 and is provided with thebeveled periphery 115, when the water reaches thebeveled periphery 115, it will be stopped to accumulate thereat and eventually drop to the ground. Therefore, water can be prevented from entering through thekey access hole 114 in thelock shell 11 and into thelock core device 10. - Referring to Figure 12, when the weather-resistant lock apparatus of this invention is used in a windy and dusty environment,
tiny sand grains 100 may enter thelock core device 10 through thekey access hole 114. However, because thespacer plates 15 are made of tetrafluoroethylene polymer and are thus much softer than the lockingplates 14 made of stainless steel, thesand grains 100 will be pressed into the surfaces of thespacer plates 15 when the lockingplates 14 are rotated during operation, thereby preventing jamming of the lockingplates 14 due to the presence of thesand grains 100. In other words, the lockingplates 14 can rotate smoothly to permit normal functioning of the lock apparatus of this invention even in a windy and dusty environment. Similarly, as shown in Figure 2, thedrive plate 13 is disposed in contact with the tetrafluoroethylenepolymer sleeve member 191, and theprotective plate 17 is disposed in contact with the tetrafluoroethylene polymerprotective sleeve 162 to render the internal components of thelock core device 10 resistant to sand and dust. - Figure 13 illustrates the second preferred embodiment of the weather-resistant lock apparatus according to this invention, which is a modification of the previous embodiment. Like the previous embodiment, a padlock housing 21' has a
lock core device 10, twocatch members 24, and a securingblock 27 mounted therein. The padlock housing 21' has two shackle guards 211' extending therefrom to protect a shackle member 23', and further accommodates a protective block 28' therein. The shackle member 23' has two insert ends 231' that are of equal length, and the fastener hole 281' in the protective block 28' is modified to receive one of the insert ends 231' . As the shackle retainer 210 (see Figure 5) of the previous embodiment is not provided in the padlock housing 21' , in an unlocked state, the shackle member 23' can be removed entirely from the padlock housing 21'.
Claims (23)
- A weather-resistant lock apparatus characterized by a lock core device (10) that includes a lock shell (11) and a lock core unit, said lock core unit including
an inner shell (12) received in and rotatable relative to said lock shell (11),
a plurality of locking plates (14) received in and rotatable relative to said inner shell (12), said locking plates (14) cooperating to form a keyhole of said lock core unit,
a first locking unit operably associated with said locking plates (14) for locking said inner shell (12) against rotation relative to said lock shell (11) in a locking state of said locking plates (14), and for unlocking said inner shell (12) for rotation relative to said lock shell (11) in an unlocking state of said locking plates (14),
a latch actuator (18) coupled to said inner shell (12), and
a plurality of spacer plates (15), each of which is disposed between an adjacent pair of said locking plates (14),
wherein said spacer plates (15) are made of a material with a hardness less than that of said locking plates (14). - The weather-resistant lock apparatus as claimed in Claim 1, characterized in that said lock core unit further includes a drive plate (13) received in and rotatable relative to said inner shell (12), said drive plate (13) being disposed between said locking plates (14) and said latch actuator (18) and cooperating with said locking plates (14) to form said keyhole, said drive plate (13) being capable of transmitting a rotary force applied through a correct key (30) that was inserted into said keyhole to said latch actuator (18).
- The weather-resistant lock apparatus as claimed in Claim 2, further characterized in that said drive plate (13) is formed with a non-circular drive hole (132) that forms a part of said keyhole, said lock core unit further including a rotation control member (19) mounted on said latch actuator (18) and registered with said drive hole (132), said rotation control member (19) extending into and engaging said drive plate (13) in said drive hole (132) to prohibit rotation of said drive plate (13), and being movable to disengage from said drive plate (13) when the correct key (30) is inserted into said keyhole so as to permit rotation of said drive plate (13) with the correct key (30) in order to drive rotation of said latch actuator (18).
- The weather-resistant lock apparatus as claimed in Claim 3, further characterized in that said latch actuator (18) has a coupling portion (181) connected to said inner shell (12), said coupling portion (181) being formed with a cavity (1811) for receiving said rotation control member (19) therein, said latch actuator (18) further having a sleeve member (191) mounted fittingly in said cavity (1811), said sleeve member (191) having a fan-shaped end wall (1911), said rotation control member (19) extending through said end wall (1911), said drive plate (13) being formed with a drive projection (131) for engaging said end wall (1911) of said sleeve member (191) so as to transmit rotation of said drive plate (13) to said latch actuator (18).
- The weather-resistant lock apparatus as claimed in Claim 4, further characterized in that said rotation control member (19) includes a control pin (193) that extends through said end wall (1911) for engaging said drive plate (13) in said drive hole (132), and a spring (192) for biasing said control pin (193) to extend into said drive hole (132).
- The weather-resistant lock apparatus as claimed in Claim 5, further characterized in that said control pin (193) is formed with an axially extending slot (1932) therealong, said inner shell (12) being provided with a retaining pin (110) that extends through said coupling portion (181) of said latch actuator (18) and through said slot (1932) in said control pin (193), thereby limiting axial movement of said control pin (193).
- The weather-resistant lock apparatus as claimed in Claim 2, further characterized in that said lock core unit further includes a second locking unit operably associated with said drive plate (13) for locking said inner shell (12) against rotation relative to said lock shell (11) in a locking state of said drive plate (13), and for unlocking said inner shell (12) for rotation relative to said lock shell (11) in an unlocking state of said drive plate (13).
- The weather-resistant lock apparatus as claimed in Claim 1, characterized in that said spacer plates (15) are made of tetrafluoroethylene polymer.
- The weather-resistant lock apparatus as claimed in Claim 1, further characterized by a padlock body (20) that includes:a padlock housing (21, 21') formed with a core chamber (211), and having a bottom portion formed with an opening (2110) for access into said core chamber (211), said lock coredevice (10) being received in said core chamber (211), said padlock housing (21, 21') further having a top portion formed with two shackle holes (212, 213); anda shackle member (23, 23') having two insert ends (231, 232, 231') that are inserted into said shackle holes (212, 213), respectively.
- The weather-resistant lock apparatus as claimed in Claim 9, characterized in that said padlock body (20) further includes a latch unit disposed in said padlock housing (21, 21') and coupled to said latch actuator (18) for engaging at least one of said insert ends (231, 232, 231') of said shackle member (23, 23').
- The weather-resistant lock apparatus as claimed in Claim 9, characterized in that said padlock body (20) further includes two seal rings (22), each of which is retained in a respective one of said shackle holes (212, 213) for establishing airtight contact with a respective one of said insert ends (231, 232, 231') of said shackle member (23, 23').
- The weather-resistant lock apparatus as claimed in Claim 9, characterized in that said lock shell (11) has an end face (113) accessible at said opening (2110) in said bottom portion of said padlock housing (21, 21') and formed with a key access hole (114) registered with said keyhole.
- The weather-resistant lock apparatus as claimed in Claim 12, further characterized in that said end face (113) of said lock shell (11) projects outwardly of said opening (2110) in said bottom portion of said padlock housing (21, 21'), and is formed with a beveled periphery (115) .
- The weather-resistant lock apparatus as claimed in Claim 12, further characterized in that said lock shell (11) has a peripheral surface fitted with a seal member (118) for establishing watertight contact with said bottom portion of said padlock housing (21, 21') at said opening (2110).
- The weather-resistant lock apparatus as claimed in Claim 12, further characterized in that said lock core unit further includes a sealing member (16) adjacent to said key access hole (114), said sealing member (16) including a sealing ring (161) fitted in said inner shell (12), and a protective sleeve (162) made of tetrafluoroethylene polymer,said protective sleeve (162) being fitted in said lock shell (11) and being formed with an annular skirt (1621) that extends into and that is in sleeved engagement with said sealing ring (161).
- The weather-resistant lock apparatus as claimed in Claim 9, characterized in that said lock core device (10) is removable from said core chamber (211) through said opening (2110) in said bottom portion of said padlock housing (21, 21'), said padlock body (20) further including a securing member (25) disposed in said padlock housing (21, 21'), said securing member (25) including a threaded rod (252) mounted threadedly in said padlock housing (21, 21') and capable of being tightened so as to abut against said lock core device (10) and retain said lock core device (10) in said core chamber (211), said threaded rod (252) being capable of being loosened to permit removal of said lock core device (10) from said core chamber (211) through said opening (2110) in said bottom portion of said padlock housing (21, 21').
- The weather-resistant lock apparatus as claimed in Claim 16, further characterized in that said padlock housing (21, 21') is formed with an aperture (218) that is aligned with said threaded rod (252), said padlock body (20) further including a plug (26) for closing said aperture (218).
- The weather-resistant lock apparatus as claimed in Claim 9, characterized in that said lock core device (10) is removable from said core chamber (211) through said opening (2110) in said bottom portion of said padlock housing (21, 21'), said padlock body (20) further including a securing block (27) disposed in said padlock housing (21, 21') at an inner end of one of said shackle holes (212, 213) and movable toward and away from said core chamber (211) in a direction transverse to said one of said shackle holes (212, 213), said securing block (27) having a curved guiding surface (271), one of said insert ends (231, 232, 231') of said shackle member (23, 23') abutting against said curved guiding surface (271) to tighten said securing block (27) against said lock core device (10) so as to retain said lock core device (10) in said core chamber (211).
- The weather-resistant lock apparatus as claimed in Claim 18, further characterized in that said lock shell (11) is formed with an insert groove (116), and said securing block (27) has a protruding portion (272) for engaging said insert groove (116).
- The weather-resistant lock apparatus as claimed in Claim 9, characterized in that said lock core device (10) is removable from said core chamber (211) through said opening (2110) in said bottom portion of said padlock housing (21, 21'), said padlock body (20) further including a protective block (28, 28') disposed in one of said shackle holes (212, 213) and abutting against said lock core device (10), said protective block (28, 28') being removable through said opening (2110) in said bottom portion of said padlock housing (21, 21') after removal of said lock core device (10) from said core chamber (211).
- The weather-resistant lock apparatus as claimed in Claim 20, further characterized in that said protective block (28, 28') is formed with a fastener hole (281, 281') registered with said one of said shackle holes (212, 213), said padlock housing (21, 21') being formed with a threaded hole (216) registered with said fastener hole (281, 281'), said padlock body (20) further including a screw (282) inserted through said fastener hole (281, 281') and threadedly engaging said threaded hole (216) so as to mount removably said protective block (28, 28') in said padlock housing (21, 21').
- The weather-resistant lock apparatus as claimed in Claim 21, further characterized in that said fastener hole (281, 281') in said protective block (28, 28') has a size sufficient to receive one of said insert ends (231, 232, 231') of said shackle member (23, 23').
- The weather-resistant lock apparatus as claimed in Claim 9, characterized in that said lock core device (10) is removable from said core chamber (211) through said opening (2110) in said bottom portion of said padlock housing (21), said padlock body (20) further including a shackle retainer (210) mounted in said padlock housing (21) adjacent to one of said shackle holes (212, 213), said shackle retainer (210) engaging one of said insert ends (231, 232) of said shackle member (23) to prevent removal of said shackle member (23) from said padlock housing (21), said shackle retainer (210) being removable fromsaidpadlockhousing (21) through said opening (2110) in said bottom portion of said padlock housing (21) to permit removal of said shackle member (23) from said padlockhousing (21) afterremovalof said lock core device (10) from said core chamber (211).
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AT04255749T ATE373761T1 (en) | 2004-09-22 | 2004-09-22 | WEATHER RESISTANT LOCKING DEVICE |
DK04255749T DK1643058T3 (en) | 2004-09-22 | 2004-09-22 | Weatherproof locking device |
EP04255749A EP1643058B1 (en) | 2004-09-22 | 2004-09-22 | Weather-resistant lock apparatus |
DE602004009074T DE602004009074T2 (en) | 2004-09-22 | 2004-09-22 | Weatherproof locking device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP04255749A EP1643058B1 (en) | 2004-09-22 | 2004-09-22 | Weather-resistant lock apparatus |
Publications (2)
Publication Number | Publication Date |
---|---|
EP1643058A1 true EP1643058A1 (en) | 2006-04-05 |
EP1643058B1 EP1643058B1 (en) | 2007-09-19 |
Family
ID=34930682
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP04255749A Expired - Lifetime EP1643058B1 (en) | 2004-09-22 | 2004-09-22 | Weather-resistant lock apparatus |
Country Status (4)
Country | Link |
---|---|
EP (1) | EP1643058B1 (en) |
AT (1) | ATE373761T1 (en) |
DE (1) | DE602004009074T2 (en) |
DK (1) | DK1643058T3 (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CZ303062B6 (en) * | 2010-11-16 | 2012-03-14 | Tokoz A.S. | Cylinder lock with rotating key |
CN101899921B (en) * | 2009-05-27 | 2012-10-03 | 温州市通用锁具有限公司 | Spring-free blade locking head |
WO2013060942A1 (en) * | 2011-10-28 | 2013-05-02 | Abloy Oy | Padlock |
CN104110173A (en) * | 2014-06-23 | 2014-10-22 | 林杨 | High reliability passive electronic lock with extensible function |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2867110A (en) * | 1957-07-12 | 1959-01-06 | Master Lock Co | Drainage ported padlock |
US4083212A (en) * | 1977-05-16 | 1978-04-11 | Sargent & Greenleaf, Inc. | Rotary disc tumbler cylinder lock |
US20030019263A1 (en) * | 2001-07-23 | 2003-01-30 | Waterson Chen | Impact resistant lock apparatus with anti-theft lock core |
-
2004
- 2004-09-22 AT AT04255749T patent/ATE373761T1/en not_active IP Right Cessation
- 2004-09-22 DE DE602004009074T patent/DE602004009074T2/en not_active Expired - Lifetime
- 2004-09-22 EP EP04255749A patent/EP1643058B1/en not_active Expired - Lifetime
- 2004-09-22 DK DK04255749T patent/DK1643058T3/en active
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2867110A (en) * | 1957-07-12 | 1959-01-06 | Master Lock Co | Drainage ported padlock |
US4083212A (en) * | 1977-05-16 | 1978-04-11 | Sargent & Greenleaf, Inc. | Rotary disc tumbler cylinder lock |
US20030019263A1 (en) * | 2001-07-23 | 2003-01-30 | Waterson Chen | Impact resistant lock apparatus with anti-theft lock core |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101899921B (en) * | 2009-05-27 | 2012-10-03 | 温州市通用锁具有限公司 | Spring-free blade locking head |
CZ303062B6 (en) * | 2010-11-16 | 2012-03-14 | Tokoz A.S. | Cylinder lock with rotating key |
WO2013060942A1 (en) * | 2011-10-28 | 2013-05-02 | Abloy Oy | Padlock |
AU2012328304B2 (en) * | 2011-10-28 | 2016-10-06 | Abloy Oy | Padlock |
US9670699B2 (en) | 2011-10-28 | 2017-06-06 | Abloy Oy | Padlock |
CN104110173A (en) * | 2014-06-23 | 2014-10-22 | 林杨 | High reliability passive electronic lock with extensible function |
Also Published As
Publication number | Publication date |
---|---|
DK1643058T3 (en) | 2008-01-28 |
DE602004009074D1 (en) | 2007-10-31 |
EP1643058B1 (en) | 2007-09-19 |
DE602004009074T2 (en) | 2008-01-17 |
ATE373761T1 (en) | 2007-10-15 |
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