Door lock bolt transmission mechanism and vehicle-mounted wine cabinet
Technical Field
The utility model belongs to the technical field of on-vehicle part, especially, relate to a lock spring bolt drive mechanism and on-vehicle gradevin.
Background
The door lock is widely applied to the opening and closing door plate, and the door plate is opened and closed by controlling the contraction of the lock tongue in the door lock. The prior patent No. CN201420433999.4 door lock and its lock tongue disclose that when the lock tongue needs to be opened, the shifting ring rotates forward or backward by rotating the insertion groove, and the pushing groove on the shifting ring rotates along the circumference of the shifting ring; because the pull plate is provided with a contact surface which is used for being in contact with the bottom surface of the pushing groove, and two ends of the contact surface are respectively butted against two end walls of the pushing groove, the end wall of the pushing groove pushes the pull plate to move in the direction far away from the shifting ring, namely to move in the direction of the lock tongue; because the stirring block is arranged on the lock tongue shell in a rotating mode through the rotating shaft, the pushing end of the pulling plate is pushed to abut against the protrusion, when the pulling plate moves towards the lock tongue, the pushing end is pushed to move towards the direction close to the lock tongue, and the pulling hook of the stirring block drives the release sheet to move towards the direction of the stirring ring, so that the lock tongue is driven to retract towards the inside of the lock shell. This spring bolt structure need rotate and dial the circle, utilizes arm-tie and dial the flexible removal that the piece realized spring shield, and the arm-tie requires the cooperation with undulant piece accurate, when long-time back spring that uses appears ageing, influences the flexible precision of spring bolt.
SUMMERY OF THE UTILITY MODEL
The utility model aims at solving the technical problem, and provide lock spring bolt drive mechanism and on-vehicle gradevin to realize accurate control spring bolt telescopic distance, it is more convenient that automatically controlled lock opens and close, need not additionally to use the manual switching of key. In order to achieve the above purpose, the utility model discloses technical scheme as follows:
the door lock bolt transmission mechanism comprises a sliding chute, a bolt embedded in the sliding chute and arranged along the sliding chute in a telescopic manner, and a driving piece arranged on the back of the sliding chute and connected with the bolt; the output shaft of driving piece connects the lug, be equipped with the connecting piece on the lug, be equipped with the drive hole that is used for spacing connecting piece activity space on the spring bolt.
Specifically, the sliding groove is arranged on the bracket shell.
Specifically, the bracket shell comprises a shell cover and a bracket seat arranged on the shell cover; the end face of the bracket base is provided with a sliding chute which extends outwards.
Specifically, the one end of spout is equipped with the groove seat that is used for spacing spring bolt, the other end of spout is the opening setting.
Specifically, deviating from the one side installation driving piece of spout on the support seat, the shell both sides of driving piece symmetry respectively are equipped with the installation department, and the installation department is fixed in on the support seat through installed part locking.
Specifically, the sliding groove on the bracket seat is obliquely arranged relative to the shell cover.
Specifically, the output shaft of the driving member penetrates through the housing of the driving member to connect with a projection, and a connecting member is arranged at the end side of the projection far away from the output shaft of the driving member.
Specifically, the driving hole is of a long-strip-hole structure, the driving hole is sleeved on the connecting piece, and the driving hole and the sliding groove are arranged in a direction perpendicular to each other.
Specifically, the spring bolt is plate body structure, the inner end of spring bolt supports to lean on the groove seat to set up to the right angle end, the outer end of spring bolt extends the spout and sets up to trapezoidal end.
The vehicle-mounted wine cabinet comprises a wine cabinet arranged in an automobile, and a door lock and bolt transmission mechanism is arranged on the wine cabinet.
Compared with the prior art, the utility model discloses lock spring bolt drive mechanism and on-vehicle gradevin's beneficial effect mainly embodies:
the lock is driven to move along the sliding groove by arranging the driving piece to drive the lug to rotate, the electric control transmission mechanism enables the movement of the lock tongue to be more accurate, the opening and closing of the door lock to be smoother, manual door lock operation is not needed, and labor is saved; the door lock bolt transmission mechanism has stronger applicability, not only is applicable to vehicle-mounted space, but also can be installed in various scene spaces, and has a simple installation structure and easy operation.
Drawings
Fig. 1 is a schematic structural view of a lock tongue transmission mechanism of a door lock according to an embodiment of the present invention;
FIG. 2 is a schematic view of the driving member of the present embodiment;
FIG. 3 is a schematic structural view of the vehicle-mounted wine cabinet of the embodiment;
the figures in the drawings represent:
1 sliding chute, 11 groove seats, 2 locking tongues, 21 driving holes, 3 driving pieces, 31 mounting parts, 4 convex blocks, 41 connecting pieces, 5 shell covers, 51 bracket seats, 6 wine cabinets and 61 windows.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, and not all embodiments.
Example 1:
referring to fig. 1-3, the present embodiment is a door lock bolt transmission mechanism, which includes a sliding chute 1, a bolt 2 embedded in the sliding chute 1 and sliding telescopically along the sliding chute, and a driving member 3 disposed on the back of the sliding chute 1 and connected to the bolt 2; the output shaft of driving piece 3 is swivelling joint lug 4, and the eccentric position of lug 4 is equipped with connecting piece 41, is equipped with the driving hole 21 that is used for spacing connecting piece 41 activity space on the spring bolt 2.
The chute 1 is arranged on a bracket shell, and the bracket shell comprises a shell cover 5 and a bracket seat 51 arranged on the shell cover 5; the end face of the bracket seat 51 is provided with a sliding chute 1 which extends outwards. One end of the sliding groove 1 is provided with a groove seat 11 for limiting the bolt 2, the other end of the sliding groove 1 is provided with an opening, and the bolt 2 can freely slide in the sliding groove 1.
Driving piece 3 is installed to the one side that deviates from spout 1 on the support seat 51, and the shell both sides of driving piece 3 are equipped with installation department 31 respectively the symmetry, and installation department 31 is fixed in support seat 51 through installed part locking on, and this embodiment installed part is the screw of a set of symmetrical interval arrangement.
The sliding groove 1 on the bracket seat 51 is arranged obliquely relative to the shell cover 5, so that the shell cover 5 is convenient to mount at an adaptive position.
The output shaft of driving piece 3 runs through its shell and connects lug 4, and the lug 4 is kept away from the distolateral of the output shaft of driving piece 3 and is equipped with connecting piece 41, and the drive hole 21 on the spring bolt 2 is rectangular hole structure, and rectangular hole cover is located on connecting piece 41. The long holes are arranged vertically relative to the arrangement direction of the sliding chutes 1.
The spring bolt 2 is the plate body structure, and the inner end of spring bolt 2 supports to lean on groove seat 11 to set up to the right angle end, and the outer end of spring bolt 2 extends spout 1 and sets up to trapezoidal end. But the structure of spring bolt 2 is according to the fixed position adaptability adjustment of lock, and the trapezoidal end of spring bolt 2 is convenient for stretch into the spacing space of fixed position, and the drop lock is more smooth.
The output shaft of the driving member 3 has a rotating function, and the driving member 3 is a motor in this embodiment. The motor is externally connected with an electric control switch, and the door lock is opened and closed by controlling the opening and closing of the motor.
Example 2:
vehicle-mounted wine cabinet, including installing wine cabinet 6 in the car, install lock spring bolt drive mechanism on the wine cabinet 6, can dismantle on the top of cap 5 and wine cabinet 6 and be connected, be equipped with the window 61 of installation cabinet door in the wine cabinet 6, the scalable cabinet door of opening and close of lock tongue 2 of lock spring bolt drive mechanism.
When using above-mentioned embodiment, after driving piece 3 received the start signal, its output shaft drove the lug 4 rotatory, and lug 4 drives connecting piece 41 and removes in drive hole 21, and spring bolt 2 realizes spring bolt 2 and releases or shrink to spout 1 along the flexible slip of spout 1 simultaneously, and when spring bolt 2 released, the cabinet door of gradevin 6 pins, and when spring bolt 2 shrink, the cabinet door of gradevin 6 was opened.
The lock has the advantages that the driving piece 3 is arranged to drive the lug 4 to rotate, so that the lock tongue 2 is driven to move along the chute 1, the electric control transmission mechanism enables the lock tongue 2 to move more accurately, the door lock is opened and closed more smoothly, manual door lock operation is not needed, and labor is saved; the door lock bolt transmission mechanism is high in applicability, not only applicable to vehicle-mounted space, but also capable of being installed in various scene spaces, simple in installation structure and easy to operate and achieve.
What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which all fall within the scope of the invention.