阅读说明：本技术 一种用于锁芯加工的插销装配机构及其工作方法 (Bolt assembling mechanism for lock cylinder machining and working method thereof ) 是由 吴晓忠 陆海丰 于 2021-09-16 设计创作，主要内容包括：本发明涉及锁芯加工技术领域,具体的说是一种用于锁芯加工的插销装配机构及其工作方法,包括基台、锁体上料组件、锁芯上料组件、关卡组件、支撑台、插销组件、转送组件,通过使用两个关卡组件,能精准的取用供应上来的原料,避免原料堆积,保证生产线的通畅运行,同时,通过使用关卡组件,能够精准的控制锁芯和锁体的位置,使该装配机构在对接锁芯和锁体时,能更加精准无误,从而进一步提高该装配机构使用的精准性,通过两个关卡组件,能对该装配机构的原材料进行控制,进而能通过设置关卡组件来对该装配机构的生产速度进行调节,使该装配机构的调节适应能力更强,从而提高该装配机构的适用性。(The invention relates to the technical field of lock cylinder processing, in particular to a bolt assembling mechanism for lock cylinder processing and a working method thereof, the bolt assembling mechanism comprises a base station, a lock body feeding assembly, a lock cylinder feeding assembly, a checkpoint assembly, a supporting table, a bolt assembly and a transfer assembly, the two checkpoint assemblies are used, supplied raw materials can be accurately taken, raw material accumulation is avoided, smooth operation of a production line is ensured, meanwhile, the positions of a lock cylinder and a lock body can be accurately controlled by using the checkpoint assemblies, the assembling mechanism can be more accurate when the lock cylinder and the lock body are butted, the use accuracy of the assembling mechanism is further improved, the raw materials of the assembling mechanism can be controlled by using the two checkpoint assemblies, the production speed of the assembling mechanism can be adjusted by arranging the checkpoint assemblies, and the adjusting adaptability of the assembling mechanism is stronger, thereby improving the applicability of the assembly mechanism.)

1. The utility model provides a bolt assembly devices for lock core processing, includes base station (1), lock body material loading subassembly (2), lock core material loading subassembly (3), checkpoint subassembly (5), brace table (6), bolt subassembly (8), forwards subassembly (9), its characterized in that: the lock body feeding assembly (2), the lock cylinder feeding assembly (3) and the supporting table (6) are arranged at the top of the base table (1), the lock body feeding assembly (2) and the lock cylinder feeding assembly (3) are arranged in parallel, the supporting table (6) is fixed at one end of the lock body feeding assembly (2) and one end of the lock cylinder feeding assembly (3), a bar-shaped through hole is formed in one side, close to the lock body feeding assembly (2) and one side of the lock cylinder feeding assembly (3), of the top of the supporting table (6), operation line boards (7) are welded on two inner side walls of the bar-shaped through hole, the two operation line boards (7) are arranged in parallel, two lock body feeding holes (701) and two lock cylinder inserting holes (702) are formed in the two operation line boards (7) respectively, the two lock body feeding holes (701) correspond to the lock body feeding assembly (2), and the two lock cylinder inserting holes (702) correspond to the feeding lock cylinder assembly (3), the lock is characterized in that two checkpoint components (5) are mounted at the top of the base platform (1), the two checkpoint components (5) are respectively located between the lock body feeding component (2) and the support platform (6) and between the lock cylinder feeding component (3) and the support platform (6), the two checkpoint components (5) are obliquely arranged, a bolt component (8) is fixed at the top of the support platform (6), the bolt component (8) is located right above the lock cylinder insertion hole (702), a transfer component (9) is mounted at the top of the base platform (1), and the transfer component (9) is located right below the support platform (6);

the lock body feeding assembly (2) comprises a first support column (201), a lock body feeding plate (202) and a lock body feeding groove (203), the first support column (201) is vertically welded to the top of the base platform (1), the height of the first support column (201) is higher than that of the support platform (6), the lock body feeding plate (202) is welded to the top of the first support column (201), the lock body feeding plate (202) is arranged in an inclined mode, and the lock body feeding groove (203) is formed in the top of the lock body feeding plate (202);

the lock cylinder feeding assembly (3) comprises a second supporting column (301), a lock cylinder feeding plate (302) and a lock cylinder feeding channel (303), the second supporting column (301) is vertically welded to the top of the base table (1), the height of the second supporting column (301) is higher than that of the supporting table (6), the lock cylinder feeding plate (302) is welded to the top of the second supporting column (301), the lock cylinder feeding plate (302) is arranged in an inclined mode, and two lock cylinder feeding channels (303) are formed in one end of the lock cylinder feeding plate (302);

the checkpoint assembly (5) comprises a clamping block (501), a channel (502) and a transfer block (507), the channel (502) is formed in the center of the top of the clamping block (501), the transfer block (507) is in sliding fit in the channel (502), two transfer grooves (508) are formed in the top of the transfer block (507), one side of the clamping block (501) is provided with a butt joint (503), and the other side of the clamping block (501) is provided with two feeding ports (504);

the bolt assembly (8) comprises support plates (801), rotating rods (802) and rotating wheels (803), the two support plates (801) are welded and fixed to the top of the support table (6), the rotating rods (802) are matched between the two support plates (801) in a rotating mode, the two rotating wheels (803) are fixedly sleeved on the rotating rods (802), push rods (804) are welded to the outer sides of the two rotating wheels (803), a motor (805) is horizontally installed on one side of one support plate (801), and the motor (805) is connected with the push rods (804) through a rotating shaft;

the transfer assembly (9) comprises a bottom plate (901), a first moving plate (903) and a second moving plate (908), wherein the bottom plate (901) is welded and fixed to the top of a base station (1), the top of the bottom plate (901) is in sliding fit with the first moving plate (903), the first moving plate (903) is of an L-shaped structure, one side of the first moving plate (903) is in sliding fit with the second moving plate (908), one side of the second moving plate (908) is in sliding fit with a mounting frame (910), electric clamping devices (911) are fixedly mounted on two sides of the mounting frame (910), two clamping heads (912) are mounted at the tops of the two electric clamping devices (911), each two clamping heads (910) are provided with a partition clamping piece, and the four clamping heads (912) are in sliding fit between two operation line plates (7).

2. The plug pin assembling mechanism for lock cylinder processing according to claim 1, wherein: supporting legs and walking wheels are arranged at four corners of the bottom of the base platform (1), the supporting legs are mounted at the bottom of the base platform (1) through bolts, plastic pads are bonded at the bottoms of the supporting legs, and the walking wheels are universal wheels.

3. The plug pin assembling mechanism for lock cylinder processing according to claim 1, wherein: two support frames (4) are welded at the top of the base platform (1), and two barrier components (5) are respectively fixed at the tops of the two support frames (4).

4. The plug pin assembling mechanism for lock cylinder processing according to claim 3, wherein: the bottom of fixture block (501) is welded and fixed with the top of support frame (4), the top level of support frame (4) is fixed with first pneumatic cylinder (505), first pneumatic cylinder (505) are located the one end of fixture block (501), the one end that first pneumatic cylinder (505) is close to fixture block (501) is equipped with first hydraulic stem (506), the one end that first pneumatic cylinder (505) was kept away from in first hydraulic stem (506) with the one end fixed connection who forwards piece (507).

5. The plug pin assembling mechanism for lock cylinder processing according to claim 1, wherein: two pass modules (5) are all connected with lock body material loading subassembly (2) and lock core material loading subassembly (3) respectively through interface (503), and two pay-off mouths (504) on pass module (5) that are located between lock body material loading subassembly (2) and brace table (6) are connected with two lock body feed inlets (701) respectively and link up, and two pay-off mouths (504) on pass module (5) that are located between lock core material loading subassembly (3) and brace table (6) are connected with two lock core patchholes (702) respectively and link up.

6. The plug pin assembling mechanism for lock cylinder processing according to claim 1, wherein: the top horizontal welding of bottom plate (901) has two first slide rails (902), and two first slide rail (902) cross-sections all are "worker" style of calligraphy structure, and the bottom welding of first board (903) that moves has two first slider (904), two first slider (904) respectively with two first slide rail (902) sliding fit.

7. The plug pin assembling mechanism for lock cylinder processing according to claim 1, wherein: two second sliding rails (905) are vertically welded on one side of the first moving plate (903), the cross sections of the two second sliding rails (905) are of an I-shaped structure, two second sliding blocks (909) are welded on one side of the second moving plate (908), and the two second sliding blocks are respectively in sliding fit with the two second sliding rails (905).

8. The plug pin assembling mechanism for lock cylinder processing according to claim 1, wherein: a second hydraulic cylinder (906) is horizontally installed at one end of the bottom plate (901), a second hydraulic rod (907) is arranged at one end of the second hydraulic cylinder (906), and one end, far away from the second hydraulic cylinder (906), of the second hydraulic rod (907) is connected with the first moving plate (903).

9. The plug pin assembling mechanism for lock cylinder processing according to claim 1, wherein: a third hydraulic cylinder (913) is vertically installed at one end of the first moving plate (903), a third hydraulic rod (914) is arranged at the top of the third hydraulic cylinder (913), and one end, far away from the third hydraulic cylinder (913), of the third hydraulic rod (914) is connected with the bottom of the second moving plate (908).

10. A plug pin fitting mechanism for lock cylinder processing according to any one of claims 1 to 9, characterized in that: the working method of the bolt assembling mechanism specifically comprises the following steps:

the method comprises the following steps: the lock body is placed on the lock body feeding assembly (2) and arranged in two lock body feeding grooves (203), a lock body feeding plate (202) is obliquely arranged, so that the lock body in the lock body feeding groove (203) slides to the support table (6) under the action of gravity, the lock cylinder is also placed in two lock cylinder feeding channels (303), and the lock cylinder slides to the support table (6) in the lock cylinder feeding channel (303) under the action of gravity by obliquely arranging the lock cylinder feeding plate (302);

step two: the second hydraulic rod (907) is driven by the second hydraulic cylinder (906) to move, the second hydraulic rod (907) drives the first moving plate (903), the first moving plate (903) is driven to move left and right on the bottom plate (901), the first moving plate (903) is driven to move left and right by moving the second moving plate (903), the two electric clamps (911) on the mounting rack (910) are driven to move left and right by moving the first moving plate (903) left and right, the third hydraulic rod (914) is driven by the third hydraulic cylinder (913) to move, the third hydraulic rod (914) drives the second moving plate (908), the second moving plate (908) is driven to move up and down, the heights of the two electric clamps (911) on the mounting rack (910) are adjusted by moving the second moving plate (908) up and down, the two chucks (912) on the electric clamps (911) are driven by the electric clamps (911), the locks are clamped by the chucks (912), and the positions of the electric clamps (911) are moved, the clamping head (912) drives the lock body to be conveyed and transferred between the two operating line plates (7);

step three: the first hydraulic rod (506) is driven by a first hydraulic cylinder (505) to move, the first hydraulic rod (506) drives a transfer block (507), the transfer block (507) is driven to move in a channel (502), one of the transfer blocks (507) is driven by one of the first hydraulic cylinders (505), two transfer grooves (508) on the transfer block (507) correspond to two lock body feed grooves (203), two lock bodies in the foremost ends of the two lock body feed grooves (203) respectively enter the two transfer grooves (508), the first hydraulic cylinder (505) drives the transfer block (507) to move again, the two transfer grooves (508) on the transfer block (507) correspond to the two lock body feed grooves (701), the two lock bodies in the two transfer grooves (508) are clamped by a clamping head (912) of an electric clamping device (911) through the feed groove (701), and the two clamp heads (912) are accurately fed through a transfer assembly (9), two lock bodies are moved to a lock cylinder insertion hole (702) between an operation line board (7), driven by another first hydraulic cylinder (505), another transfer block (507) is moved, two transfer grooves (508) at the top of another transfer block (507) and two lock cylinder feeding channels (303) are moved, two lock cylinders at the front ends of the two lock cylinder feeding channels (303) enter the two transfer grooves (508), driven by another first hydraulic cylinder (505), another transfer block (507) is moved again, two transfer grooves (508) at the top of another transfer block (507) are aligned with the two lock cylinder insertion holes (702), two lock cylinders in the two transfer grooves (508) respectively enter the two lock cylinder insertion holes (702), driven by a motor (805), so that a rotating rod (802) rotates, the rotating rod (802) drives two rotating wheels (803) to rotate, and by rotating the two rotating wheels (803), the two push rods (804) are swung, and in the process that the two push rods (804) swing downwards, the two lock cylinders penetrate through the two lock bodies from the lock cylinder insertion holes (702) to complete the bolt operation of the assembly mechanism on the lock cylinders.

Technical Field

The invention relates to the technical field of lock cylinder machining, in particular to a plug pin assembling mechanism for lock cylinder machining and a working method thereof.

Background

The lock core is the essential part that control lock was opened, is the heart of tool to lock, indicates to form a complete set with the key and can rotate and drive the core part of set bar motion, and in the lock core course of working, the most important step is in need to adorn the lock body with the lock core bolt, and traditional mode accomplishes this operation through the manual mode, and the manual mode can have a lot of drawbacks in the production process, consequently, more and more manufacturing enterprises adopt bolt assembly devices to accomplish the processing operation that the lock core inserted the lock body at present.

However, there is very big defect in current bolt assembly devices in the use, current bolt assembly devices material loading mode is more complicated, it is not only dangerous to adopt the manual mode to carry out the material loading, and efficiency is not high, it is more complicated to adopt the general structure that mechanical system carried out the material loading, need provide power and constantly move, it is energy-conserving inadequately, current bolt assembly devices is accurate inadequately at bolt in-process alignment, the product quality who processes out is lower, current bolt assembly devices streamlined carries out the operation, can not adjust production speed, adaptability is not strong.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a bolt assembling mechanism for lock cylinder machining and a working method thereof.

The technical scheme adopted by the invention for solving the technical problems is as follows: a bolt assembly devices for lock core processing, includes base station, lock body material loading subassembly, lock core material loading subassembly, checkpoint subassembly, a supporting bench, bolt subassembly, passes on the subassembly, the top of base station is equipped with lock body material loading subassembly, lock core material loading subassembly and a supporting bench, lock body material loading subassembly and lock core material loading subassembly are parallel arrangement, the supporting bench is fixed in the one end of lock body material loading subassembly and lock core material loading subassembly, the top of supporting bench is close to lock body material loading subassembly and lock core material loading subassembly one side and has seted up the bar through-hole, and the welding of bar through-hole both inside walls has the operation line board, and two the operation line board is parallel arrangement, has seted up two lock body feed inlets and two lock core patchholes on two the operation line board respectively, and two the lock body feed inlet corresponds with lock body material loading subassembly, and two the lock core patchholes correspond with material feeding subassembly, the lock core feeding assembly is arranged on the support platform, the lock core feeding assembly is arranged on the lock core feeding assembly, and the lock core feeding assembly is arranged on the lock core feeding assembly;

the lock body feeding assembly comprises a first support column, a lock body feeding plate and a lock body feeding groove, the first support column is vertically welded to the top of the base platform, the height of the first support column is higher than that of the support platform, the lock body feeding plate is welded to the top of the first support column, the lock body feeding plate is arranged in an inclined mode, and the lock body feeding groove is formed in the top of the lock body feeding plate;

the lock core feeding assembly comprises a second support column, a lock core feeding plate and lock core feeding channels, the second support column is vertically welded on the top of the base platform, the height of the second support column is higher than that of the support platform, the lock core feeding plate is welded on the top of the second support column and is arranged in an inclined manner, two lock core feeding channels are formed in one end of the lock core feeding plate, the lock body feeding plate and the lock core feeding plate are arranged in an inclined manner, so that the lock body and the lock core can be automatically conveyed forwards under the action of gravity, the assembly mechanism achieves an automatic feeding function, the burden of manual feeding is reduced, the production and processing efficiency of the assembly mechanism is greatly improved, meanwhile, the lock body feeding plate and the lock core feeding plate are arranged in an inclined manner, the feeding conveying of the lock body and the lock core depends on gravity, and the feeding of the lock body and the lock core is more quiet and stable, meanwhile, the lock body and the lock cylinder are fed and conveyed by means of gravity, an assembly mechanism is not required to provide extra power for feeding and conveying, and further the power burden of the assembly mechanism is reduced, so that the energy saving performance of the assembly mechanism is improved;

the checkpoint component comprises a clamping block, a channel and a transfer block, the center of the top of the clamping block is provided with the channel, a transfer block is in sliding fit in the channel, two transfer grooves are arranged at the top of the transfer block, one side of the clamping block is provided with a butt joint port, the other side of the clamping block is provided with two feeding ports, by using the two barrier components, the supplied raw materials can be accurately taken, the raw materials are prevented from being accumulated, the smooth operation of the production line is ensured, meanwhile, the positions of the lock core and the lock body can be accurately controlled by using the checkpoint components, so that the assembly mechanism can be more accurately and inerrably butted with the lock core and the lock body, the raw materials of the assembly mechanism can be controlled by the two checkpoint components, the production speed of the assembly mechanism can be adjusted by arranging the checkpoint component, so that the adjustment adaptability of the assembly mechanism is stronger;

the bolt assembly comprises support plates, rotating rods and rotating wheels, the two support plates are welded and fixed to the top of the support table, the rotating rods are rotatably matched between the two support plates, the two rotating wheels are fixedly sleeved on the rotating rods, push rods are welded to the outer sides of the two rotating wheels, a motor is horizontally installed on one side of one of the support plates and is connected with the push rods through the rotating shafts, and the motor is driven by the motor to enable the two push rods to push the lock cylinder to be inserted into the lock body, so that bolt assembly of the lock cylinder is completed;

the transfer assembly comprises a bottom plate, a first transfer plate and a second transfer plate, the bottom plate is welded and fixed at the top of the base station, the first transfer plate is in an L-shaped structure in sliding fit at the top of the bottom plate, the second transfer plate is in sliding fit at one side of the first transfer plate, a mounting frame is welded and fixed at one side of the second transfer plate, electric clampers are fixedly mounted at two sides of the mounting frame, two clampers are mounted at the tops of the two electric clampers, a partition clamping piece is arranged between every two clampers, the four clampers are in sliding fit between the two operation line plates, the lock body is transferred by using the transfer assembly, so that the lock body and the lock cylinder can be aligned more accurately, the assembly mechanism can drive the lock body to move left and right on the two operation line plates by driving through a second hydraulic cylinder, and further the assembly mechanism can be hydrated, drive through the third pneumatic cylinder, make this assembly devices can adjust the height of lock body in the transportation lock body in-process, and then make more accurate that lock body and lock core can align, through using second pneumatic cylinder and third pneumatic cylinder, make electronic holder remove, through using electronic holder, make this assembly devices at the transportation lock body in-process, more reliable safety avoids the lock body landing, and simultaneously, carry out the centre gripping through electronic holder, the lock core that also makes is more stable at bolt in-process lock body.

Preferably, the bottom four corners of base station all is equipped with supporting legs and walking wheel, the supporting legs passes through the bolt and installs the bottom at the base station, the bottom of supporting legs bonds and has the plastic pad, the walking wheel is the universal wheel, support this bolt assembly devices through the supporting legs, make the stable production of processing of this mechanism ability, through setting up the plastic pad, increase the frictional force between this mechanism and the ground, and then further improve the stability that this mechanism used, through setting up the walking wheel, it provides convenience to shift and transport for this mechanism.

Preferably, the top welding of base station has two support frames, and two customs modules are fixed respectively at two support frame tops, through setting up the support frame, increase the height of customs module, simultaneously, also make mutually independent between customs module and other subassemblies, make things convenient for each subassembly of this mechanism's change.

Preferably, the bottom of the fixture block is welded and fixed with the top of the support frame, a first hydraulic cylinder is horizontally fixed to the top of the support frame and located at one end of the fixture block, a first hydraulic rod is arranged at one end, close to the fixture block, of the first hydraulic cylinder, and one end, far away from the first hydraulic cylinder, of the first hydraulic rod is fixedly connected with one end of the transfer block.

Preferably, the two pass modules are respectively connected with the lock body feeding module and the lock cylinder feeding module through butt joints, two feeding ports on the pass module between the lock body feeding module and the support platform are respectively connected with the two lock body feeding ports and communicated with the two lock body feeding ports, and two feeding ports on the pass module between the lock cylinder feeding module and the support platform are respectively connected with the two lock cylinder inserting holes and communicated with the two lock cylinder inserting holes.

Preferably, the top horizontal welding of bottom plate has two first slide rails, and two first slide rail cross-sections all are "worker" style of calligraphy structures, and the first bottom welding that moves the board has two first sliders, two first sliders respectively with two first slide rail sliding fit, through using first slider and first slide rail sliding fit, make first moving the board remove more stable.

Preferably, the first vertical welding in one side that moves the board has two second slide rails, and two second slide rail cross sections all are "worker" style of calligraphy structure, and the second moves one side welding of board has two second sliders, two second sliders respectively with two second slide rail sliding fit, through with second slider and second slide rail sliding fit, make the second move the board and remove more steadily smooth and easy.

Preferably, a second hydraulic cylinder is horizontally arranged at one end of the bottom plate, a second hydraulic rod is arranged at one end of the second hydraulic cylinder, and one end, far away from the second hydraulic cylinder, of the second hydraulic rod is connected with the first moving plate.

Preferably, a third hydraulic cylinder is vertically installed at one end of the first moving plate, a third hydraulic rod is arranged at the top of the third hydraulic cylinder, and one end, far away from the third hydraulic cylinder, of the third hydraulic rod is connected with the bottom of the second moving plate.

Preferably, the working method of the bolt assembling mechanism specifically comprises the following steps:

the method comprises the following steps: the lock body is placed on the lock body feeding assembly and arranged in the two lock body feeding grooves, the lock body feeding plates are obliquely arranged, so that the lock body in the lock body feeding groove slides to the support table under the action of gravity, the lock core is also placed in the two lock core feeding channels, and the lock core slides to the support table in the lock core feeding channels under the action of gravity by obliquely arranging the lock core feeding plates;

step two: the second hydraulic cylinder drives the second hydraulic rod to move, the second hydraulic rod drives the first moving plate to move left and right on the bottom plate, the two electric clamps on the mounting frame move back and forth left and right by moving the first moving plate left and right, the third hydraulic rod drives the second moving plate to move up and down, the heights of the two electric clamps on the mounting frame are adjusted by moving the second moving plate up and down, the two chucks on the electric clamps are driven by the electric clamps to move, the lock body is clamped by the chucks, and the chuck drives the lock body to be conveyed and transferred between the two operation line plates by moving the positions of the electric clamps;

step three: the first hydraulic cylinder drives the first hydraulic rod to move, the first hydraulic rod drives the transfer block to move the transfer block in the channel, one of the first hydraulic cylinders drives the transfer block to move, two transfer grooves on the transfer block correspond to two lock body feed grooves, two lock bodies in the forefront ends of the two lock body feed grooves respectively enter the two transfer grooves, the first hydraulic cylinder drives the transfer block to move again, the two transfer grooves on the transfer block correspond to the two lock body feed grooves, the two lock bodies on the two transfer grooves are clamped by a chuck of the electric clamp holder through the feed grooves, the transfer assembly accurately feeds the two lock bodies clamped by the chuck, the two lock bodies move to a lock core insertion hole between the operation line plates, the other transfer block moves through the drive of the other first hydraulic cylinder, the two transfer grooves on the top of the other transfer block move with two lock core feed channels, two lock cores of front end get into two and transfer on the inslot on two lock core pay-off passageways, drive through another first pneumatic cylinder, another one is shifted and is transferred the piece once more, make another transfer on two at piece top transfer on the groove and align with two lock core patchholes, two transfer on two lock cores of inslot and get into two lock core patchholes respectively, drive through the motor, make the dwang rotate, the dwang drives two runners and rotates, through rotating two runners, make two push rod swings, two push rods are at the downward swing in-process, pass two lock cores by the lock core patchhole and insert in two locks, accomplish the bolt operation of this assembly devices to the lock core.

The invention has the beneficial effects that:

(1) the invention relates to a bolt assembly mechanism for lock cylinder processing and a working method thereof, wherein the lock body feeding plate and the lock cylinder feeding plate are obliquely arranged, so that the lock body and the lock cylinder can be automatically conveyed forwards under the action of gravity, and the assembly mechanism realizes the automatic feeding function, thereby reducing the burden of manual feeding, greatly improving the production and processing efficiency of the assembly mechanism, meanwhile, the feeding and conveying of the lock body and the lock cylinder depend on the gravity by obliquely arranging the lock body feeding plate and the lock cylinder feeding plate, further leading the feeding of the lock body and the lock cylinder to be more quiet and stable, further being beneficial to improving the use stability of the assembly mechanism and reducing the mechanical noise used by the assembly mechanism, simultaneously, the lock body and the lock cylinder are fed and conveyed by depending on the gravity, no additional power is required to be provided for the feeding and conveying by the assembly mechanism, and further reducing the power of the assembly mechanism, thereby this assembly devices's energy-conservation has been improved, through setting up two lock body chute feeders and two lock core pay-off passageways, make this assembly devices realize that the binary channels carries out the material loading, and then make this assembly devices can carry out two sets of lock core bolt processing in step, thereby further improve the efficiency of this assembly devices processing production, and simultaneously, through setting up two lock body chute feeders and two lock core pay-off passageways, make this assembly devices's material loading more secure, avoid appearing the jam and interrupt the condition of processing production, thereby improve the reliability that this assembly devices used, and simultaneously, also make things convenient for operating personnel regularly for lock body chute feeder and lock core pay-off passageway cleanness and the maintenance that oils, reduce the influence of clean and the maintenance that oils to the productivity.

(2) The invention relates to a bolt assembling mechanism for lock cylinder processing and a working method thereof, wherein a lock body is transported by using a transfer component, so that the lock body and the lock cylinder can be aligned more accurately, thereby improving the accuracy of the bolt of the assembling mechanism, the assembling mechanism can drive the lock body to move left and right on two operating line plates by driving through a second hydraulic cylinder, so that the assembling mechanism can operate in hydration, the assembling mechanism can adjust the height of the lock body in the process of transporting the lock body by driving through a third hydraulic cylinder, thereby enabling the lock body and the lock cylinder to be aligned more accurately, further improving the accuracy of the assembling mechanism for processing products, an electric clamp holder is moved by using the second hydraulic cylinder and the third hydraulic cylinder, thereby improving the use flexibility of the assembling mechanism, and by using the electric clamp holder, make this assembly devices at the transportation lock body in-process, more reliable safety avoids the lock body landing, simultaneously, carries out the centre gripping through electronic holder, also makes the lock core more stable at bolt in-process lock body to further guarantee the quality of this assembly devices bolt processing product.

(3) The invention relates to a bolt assembly mechanism for lock cylinder processing and a working method thereof, which can accurately take supplied raw materials by using two checkpoint components, avoid raw material accumulation and ensure smooth operation of a production line, can accurately control the positions of a lock cylinder and a lock body by using the checkpoint components, so that the assembly mechanism can be more accurate when the lock cylinder and the lock body are butted, thereby further improving the accuracy of the assembly mechanism, can control the raw materials of the assembly mechanism by using the two checkpoint components, further can adjust the production speed of the assembly mechanism by arranging the checkpoint components, so that the adjustment adaptability of the assembly mechanism is stronger, thereby improving the applicability of the assembly mechanism, and can drive two push rods to push the lock cylinder to be inserted into the lock body by using a motor to complete bolt assembly of the lock cylinder, the push rod is driven by the motor, so that the structure is simple, and the debugging and the maintenance are easy.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural diagram of a lock body feeding assembly of the present invention.

Fig. 3 is a schematic structural diagram of the lock cylinder feeding assembly of the invention.

FIG. 4 is a schematic view of the checkpoint assembly according to the present invention.

FIG. 5 is an enlarged view of the area A in FIG. 1 according to the present invention.

FIG. 6 is an enlarged view of the area B of FIG. 1 according to the present invention.

FIG. 7 is a schematic view of the latch assembly of the present invention.

FIG. 8 is a schematic view of a transfer assembly according to the present invention.

FIG. 9 is a schematic diagram of a first moving plate structure according to the present invention.

FIG. 10 is a schematic diagram of a second moving plate structure according to the present invention.

Fig. 11 is a structural schematic view of a third hydraulic cylinder of the present invention.

In the figure: 1. a base station; 2. a lock body feeding assembly; 201. a first support column; 202. a lock body feeding plate; 203. a lock body feed chute; 3. a lock cylinder feeding assembly; 301. a second support column; 302. a lock cylinder feed plate; 303. a lock cylinder feed channel; 4. a support frame; 5. a level component; 501. a clamping block; 502. a channel; 503. a butt joint port; 504. a feed port; 505. a first hydraulic cylinder; 506. a first hydraulic lever; 507. a transfer block; 508. a transfer chute; 6. a support table; 7. an operation line board; 701. a lock body feed inlet; 702. a lock core insertion hole; 8. a plug pin assembly; 801. a support plate; 802. rotating the rod; 803. a rotating wheel; 804. a push rod; 805. a motor; 9. a transfer assembly; 901. a base plate; 902. a first slide rail; 903. a first moving plate; 904. a first slider; 905. a second slide rail; 906. a second hydraulic cylinder; 907. a second hydraulic rod; 908. a second moving plate; 909. a second slider; 910. a mounting frame; 911. an electric gripper; 912. a chuck; 913. a third hydraulic cylinder; 914. a third hydraulic ram.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-11, the latch assembling mechanism for lock cylinder processing according to the present invention comprises a base platform 1, a lock body feeding assembly 2, a lock cylinder feeding assembly 3, a checkpoint assembly 5, a support platform 6, a latch assembly 8, and a transfer assembly 9, wherein the top of the base platform 1 is provided with the lock body feeding assembly 2, the lock cylinder feeding assembly 3, and the support platform 6, the lock body feeding assembly 2 and the lock cylinder feeding assembly 3 are arranged in parallel, the support platform 6 is fixed at one end of the lock body feeding assembly 2 and the lock cylinder feeding assembly 3, a strip-shaped through hole is formed at the top of the support platform 6 near one side of the lock body feeding assembly 2 and the lock cylinder feeding assembly 3, two inner side walls of the strip-shaped through hole are welded with operation line plates 7, the two operation line plates 7 are arranged in parallel, the two operation line plates 7 are respectively provided with two lock body feed inlets 701 and two lock cylinder insert holes 702, the two lock body feed inlets 701 correspond to the lock body feeding assembly 2, the two lock cylinder insertion holes 702 correspond to the lock cylinder feeding assembly 3, the top of the base platform 1 is provided with two checkpoint assemblies 5, the two checkpoint assemblies 5 are respectively positioned between the lock body feeding assembly 2 and the support platform 6 and between the lock cylinder feeding assembly 3 and the support platform 6, the two checkpoint assemblies 5 are obliquely arranged, the top of the support platform 6 is fixedly provided with a bolt assembly 8, the bolt assembly 8 is positioned right above the lock cylinder insertion holes 702, the top of the base platform 1 is provided with a transferring assembly 9, and the transferring assembly 9 is positioned right below the support platform 6;

the lock body feeding assembly 2 comprises a first support column 201, a lock body feeding plate 202 and a lock body feeding groove 203, the first support column 201 is vertically welded to the top of the base platform 1, the height of the first support column 201 is higher than that of the support platform 6, the lock body feeding plate 202 is welded to the top of the first support column 201, the lock body feeding plate 202 is arranged in an inclined mode, and the lock body feeding groove 203 is formed in the top of the lock body feeding plate 202;

the lock core feeding assembly 3 comprises a second support column 301, a lock core feeding plate 302 and lock core feeding channels 303, the second support column 301 is vertically welded on the top of the base platform 1, the height of the second support column 301 is higher than that of the support platform 6, the lock core feeding plate 302 is welded on the top of the second support column 301, the lock core feeding plate 302 is obliquely arranged, one end of the lock core feeding plate 302 is provided with two lock core feeding channels 303, the lock body feeding plate 202 and the lock core feeding plate 302 are obliquely arranged, so that the lock body and the lock core can be automatically and forwardly conveyed under the action of gravity, further, the assembly mechanism realizes an automatic feeding function, further, the burden of manual feeding is reduced, the production and processing efficiency of the assembly mechanism is greatly improved, meanwhile, the feeding of the lock body and the lock core is conveyed by gravity in a mode of obliquely arranging the lock body feeding plate 202 and the lock core feeding plate 302, further, the feeding of the lock body and the lock core is more quiet and stable, thereby being beneficial to improving the stability of the use of the assembly mechanism and reducing the mechanical noise of the use of the assembly mechanism, simultaneously, the lock body and the lock cylinder are fed and conveyed by depending on gravity, no additional power is required to be provided for feeding and conveying by the assembly mechanism, and further the power burden of the assembly mechanism is lightened, thereby improving the energy saving performance of the assembly mechanism, the assembly mechanism realizes dual-channel feeding by arranging two lock body feeding grooves 203 and two lock cylinder feeding channels 303, further the assembly mechanism can synchronously process two groups of lock cylinder bolts, thereby further improving the processing and production efficiency of the assembly mechanism, simultaneously, the feeding of the assembly mechanism is ensured by arranging two lock body feeding grooves 203 and two lock cylinder feeding channels 303, the condition that the processing and production are interrupted due to blockage is avoided, thereby improving the use reliability of the assembly mechanism, meanwhile, operators can clean and oil the lock body feeding groove 203 and the lock cylinder feeding channel 303 regularly, and the influence of cleaning and oil applying maintenance on productivity is reduced;

the barrier component 5 comprises a clamping block 501, a channel 502 and a transfer block 507, the channel 502 is arranged at the center of the top of the clamping block 501, the transfer block 507 is in sliding fit in the channel 502, the top of the transfer block 507 is provided with two transfer grooves 508, one side of the clamping block 501 is provided with a butt joint 503, the other side of the clamping block 501 is provided with two feed ports 504, by using the two barrier components 5, supplied raw materials can be accurately taken, the raw materials are prevented from being accumulated, the smooth operation of a production line is ensured, meanwhile, by using the barrier components 5, the positions of a lock core and a lock body can be accurately controlled, when the assembly mechanism is in butt joint with the lock core and the lock body, the assembly mechanism can be more accurate, the use accuracy of the assembly mechanism is further improved, by using the two barrier components 5, the raw materials of the assembly mechanism can be controlled, and further, the production speed of the assembly mechanism can be adjusted by setting the barrier component 5, the adjusting adaptability of the assembling mechanism is stronger, so that the applicability of the assembling mechanism is improved;

the bolt assembly 8 comprises a supporting plate 801, a rotating rod 802 and rotating wheels 803, the two supporting plates 801 are welded and fixed at the top of the supporting table 6, the rotating rod 802 is rotatably matched between the two supporting plates 801, the two rotating wheels 803 are fixedly sleeved on the rotating rod 802, push rods 804 are welded on the outer sides of the two rotating wheels 803, a motor 805 is horizontally installed on one side of one supporting plate 801, the motor 805 is connected with the push rod 804 through a rotating shaft, the two push rods 804 push the lock cylinder to be inserted into the lock body by driving through the motor 805, so that bolt assembly of the lock cylinder is completed, and the push rod 804 is driven through the motor 805, so that the bolt assembly is simple in structure and easy to debug and maintain;

the transfer assembly 9 comprises a bottom plate 901, a first transfer plate 903 and a second transfer plate 908, the bottom plate 901 is welded and fixed on the top of the base station 1, the top of the bottom plate 901 is in sliding fit with the first transfer plate 903, the first transfer plate 903 is in an L-shaped structure, one side of the first transfer plate 903 is in sliding fit with the second transfer plate 908, one side of the second transfer plate 908 is in welding fit with an installation frame 910, two sides of the installation frame 910 are fixedly provided with electric clampers 911 (model: Z-EFG; manufacturer: Suzhou Chu excellent Intelligent science and technology Co., Ltd.), the tops of the two electric clampers 911 are respectively provided with two clamping heads 912, each two clamping heads 910 are provided with a separation clamping piece, the four clamping heads 912 are in sliding fit between two operation line plates 7, the transfer assembly 9 is used for transferring the lock body, so that the lock body and the lock cylinder can be aligned more accurately, and the accuracy of the bolt of the assembly mechanism is improved, driven by a second hydraulic cylinder 906, the assembly mechanism can drive the lock body to move left and right on the two operating line plates 7, so that the assembling mechanism can be operated in a hydrated state, and driven by the third hydraulic cylinder 913, the assembling mechanism can adjust the height of the lock body in the process of transferring the lock body, thereby the lock body and the lock core can be aligned more accurately, the precision of the assembly mechanism for processing products is further improved, by using the second hydraulic cylinder 906 and the third hydraulic cylinder 913, the electric clamp 911 is moved, thereby improving the flexibility of the assembly mechanism, ensuring that the assembly mechanism is more reliable and safer in the process of transferring the lock body by using the electric clamp 911, avoiding the lock body from sliding off, simultaneously, carry out the centre gripping through electronic holder 911, also make the lock core at the more stable of bolt in-process lock body to further guarantee the quality of this assembly devices bolt processing product.

The bottom four corners of base station 1 all is equipped with supporting legs and walking wheel, the supporting legs passes through the bolt and installs the bottom at base station 1, the bottom of supporting legs bonds and has the plastic pad, the walking wheel is the universal wheel, support this bolt assembly devices through the supporting legs, make the stable production of processing of this mechanism ability, through setting up the plastic pad, increase the frictional force between this mechanism and the ground, and then further improve the stability that this mechanism used, through setting up the walking wheel, it is convenient to provide with the transportation for the transfer of this mechanism, thereby improve the stability that this mechanism used.

The top welding of base station 1 has two support frames 4, and two customs clearance subassemblies 5 are fixed respectively at two support frame 4 tops, through setting up support frame 4, increase the height of customs clearance subassembly 5, simultaneously, also make mutually independent between customs clearance subassembly 5 and other subassemblies, make things convenient for each subassembly of this mechanism's change.

The bottom of the fixture block 501 is welded and fixed with the top of the support frame 4, the top of the support frame 4 is horizontally fixed with a first hydraulic cylinder 505, the first hydraulic cylinder 505 is located at one end of the fixture block 501, a first hydraulic rod 506 is arranged at one end of the first hydraulic cylinder 505 close to the fixture block 501, and one end of the first hydraulic rod 506 far away from the first hydraulic cylinder 505 is fixedly connected with one end of the transfer block 507.

The two checkpoint components 5 are respectively connected with the lock body feeding component 2 and the lock cylinder feeding component 3 through butt joints 503, two feeding ports 504 on the checkpoint component 5 between the lock body feeding component 2 and the support table 6 are respectively connected and communicated with the two lock body feeding ports 701, and two feeding ports 504 on the checkpoint component 5 between the lock cylinder feeding component 3 and the support table 6 are respectively connected and communicated with the two lock cylinder inserting holes 702.

The top horizontal welding of bottom plate 901 has two first slide rails 902, and two first slide rails 902 cross-sections all are "worker" style of calligraphy structure, and the bottom welding of first board 903 that moves has two first sliders 904, two first sliders 904 respectively with two first slide rails 902 sliding fit, through using first slider 904 and first slide rail 902 sliding fit, make first moving that board 903 removed more stable to improve the stability that this mechanism used.

The vertical welding of one side of first board 903 that moves has two second slide rails 905, and two second slide rails 905 cross sections all are "worker" style of calligraphy structure, and the welding of one side of second board 908 has two second sliders 909, two second sliders respectively with two second slide rails 905 sliding fit, through with second slider 909 and second slide rail 905 sliding fit, make the second move the more steady smooth and easy that board 908 removed to further improve the stability that this mechanism used.

A second hydraulic cylinder 906 is horizontally installed at one end of the bottom plate 901, a second hydraulic rod 907 is arranged at one end of the second hydraulic cylinder 906, and one end, far away from the second hydraulic cylinder 906, of the second hydraulic rod 907 is connected with the first moving plate 903.

A third hydraulic cylinder 913 is vertically installed at one end of the first moving plate 903, a third hydraulic rod 914 is arranged at the top of the third hydraulic cylinder 913, and one end, away from the third hydraulic cylinder 913, of the third hydraulic rod 914 is connected with the bottom of the second moving plate 908.

The working method of the bolt assembling mechanism specifically comprises the following steps:

the method comprises the following steps: the lock body is placed on the lock body feeding assembly 2 and arranged in the two lock body feeding grooves 203, the lock body feeding plates 202 are obliquely arranged, so that the lock body in the lock body feeding groove 203 slides to the support table 6 under the action of gravity, the lock cylinder is also placed in the two lock cylinder feeding channels 303, and the lock cylinder slides to the support table 6 in the lock cylinder feeding channels 303 under the action of gravity by obliquely arranging the lock cylinder feeding plates 302;

step two: the second hydraulic rod 907 is driven by the second hydraulic cylinder 906 to move, the second hydraulic rod 907 drives the first moving plate 903, the first moving plate 903 is driven to move left and right on the bottom plate 901, the two electric clamps 911 on the mounting frame 910 move left and right back and forth by moving the first moving plate 903 left and right, the third hydraulic rod 914 is driven by the third hydraulic cylinder 913 to move, the third hydraulic rod 914 drives the second moving plate 908 to move up and down, the heights of the two electric clamps 911 on the mounting frame 910 are adjusted by moving the second moving plate 908 up and down, the two chucks 912 on the electric clamps 911 are driven by the electric clamps 911 to move, the lock body is clamped by the chucks 912, and the chucks 912 drive the lock body to be conveyed and transferred between the two operation line plates 7 by moving the positions of the electric clamps 911;

step three: the first hydraulic cylinder 505 drives the first hydraulic rod 506 to move, the first hydraulic rod 506 drives the transfer block 507, the transfer block 507 moves in the channel 502, one of the first hydraulic cylinders 505 drives one of the transfer blocks 507, two transfer grooves 508 on the transfer block 507 correspond to two lock body feed grooves 203, two lock bodies in the foremost ends of the two lock body feed grooves 203 respectively enter the two transfer grooves 508, the transfer block 507 is moved again by the first hydraulic cylinder 505, the two transfer grooves 508 on the transfer block 507 correspond to two lock body feed grooves 701, the two lock bodies in the two transfer grooves 508 are clamped by a clamping head 912 of an electric clamping device 911 through the feed grooves 701, the two lock bodies clamped by the clamping head 912 are quasi-fed through a transfer assembly 9, the two lock bodies are moved to a lock core 702 between operation line plates 7 and driven by the other first hydraulic cylinder 505, the other transfer block 507 is moved, the two transfer grooves 508 at the top of the other transfer block 507 and the two lock cylinder feed channels 303 are moved, the two lock cylinders at the front ends of the two lock cylinder feed channels 303 enter the two transfer grooves 508, the other transfer block 507 is moved again by the other first hydraulic cylinder 505, the two transfer grooves 508 at the top of the other transfer block 507 are aligned with the two lock cylinder insertion holes 702, the two lock cylinders in the two transfer grooves 508 respectively enter the two lock cylinder insertion holes 702, the rotating rod 802 is rotated by the driving of the motor 805, the rotating rod 802 drives the two rotating wheels 803 to rotate, the two push rods 804 are swung by rotating the two rotating wheels 803, and the two push rods 804 penetrate through the two lock cylinders from the lock cylinder insertion holes 702 and are inserted into the two lock cylinders in the downward swinging process, so that the bolt operation of the lock cylinders by the assembling mechanism is completed.

When in use, firstly, the lock body is placed on the lock body feeding component 2 and arranged in the two lock body feeding grooves 203, the lock body feeding plate 202 is obliquely arranged, the lock body in the lock body feeding groove 203 slides to the support table 6 under the action of gravity, the lock core is also placed in the two lock core feeding channels 303, the lock core feeding plate 302 is obliquely arranged, the lock core slides to the support table 6 in the lock core feeding channel 303 under the action of gravity, the lock body feeding plate 202 and the lock core feeding plate 302 are obliquely arranged, the lock body and the lock core can be automatically conveyed forwards under the action of gravity, and further the assembly mechanism realizes the automatic feeding function, thereby reducing the burden of manual feeding, greatly improving the production and processing efficiency of the assembly mechanism, meanwhile, the feeding and conveying of the lock body and the lock core depend on gravity through the mode of obliquely arranging the lock body feeding plate 202 and the lock core feeding plate 302, and then make the material loading of lock body and lock core more quiet and steady, thus help improving the stability that the assembly device uses and reducing the mechanical noise that the assembly device uses, meanwhile, carry on the material loading to lock body and lock core through relying on gravity to carry on the material loading to transport, do not need the assembly device to provide the extra power for material loading to transport, and then has lightened the power burden of the assembly device, thus has improved the energy-conservation of the assembly device, through setting up two lock body feed troughs 203 and two lock core feed channels 303, make the assembly device realize the double-channel carries on the material loading, and then make the assembly device carry on two sets of lock core bolt processing synchronously, thus further raise the efficiency that the assembly device processes production, meanwhile, through setting up two lock body feed troughs 203 and two lock core channels 303, make the material loading of the assembly device more secure, avoid appearing blocking and interrupt the situation of processing production, therefore, the reliability of the use of the assembly mechanism is improved, meanwhile, an operator can clean and oil the lock body feeding groove 203 and the lock cylinder feeding channel 303 regularly, the influence of the cleaning and oil applying maintenance on the productivity is reduced, then the second hydraulic rod 907 is driven by the second hydraulic cylinder 906 to move, the second hydraulic rod 907 drives the first moving plate 903 to move left and right on the bottom plate 901, the two electric clampers 911 on the installation frame 910 move back and forth left and right by moving the first moving plate 903 left and right, the third hydraulic rod 914 is driven by the third hydraulic cylinder 913 to move, the third hydraulic rod 914 drives the second moving plate 908 to move up and down, the heights of the two electric clampers on the installation frame 910 are adjusted by moving the second moving plate 908 up and down, the two chucks 912 on the electric clampers 911 are driven by the electric clampers 911 to move, the lock body is clamped by the clamping head 912, the position of the electric clamp holder 911 is moved, the clamping head 912 drives the lock body to be conveyed and transferred between the two operation line plates 7, the lock body is transferred by using the transfer component 9, and further the lock body and the lock cylinder can be aligned more accurately, so that the accuracy of the bolt of the assembly mechanism is improved, the assembly mechanism is driven by the second hydraulic cylinder 906 to drive the lock body to move left and right on the two operation line plates 7, and further the assembly mechanism can be operated by hydration, the assembly mechanism is driven by the third hydraulic cylinder 913, so that the height of the lock body can be adjusted in the process of transferring the lock body by the assembly mechanism, and further the lock body and the lock cylinder can be aligned more accurately, so that the accuracy of the assembly mechanism for processing products is further improved, the electric clamp holder 911 is moved by using the second hydraulic cylinder 906 and the third hydraulic cylinder 913, thereby improving the flexibility of the assembly mechanism, through using the electric holder 911, the assembly mechanism is more reliable and safer in the process of transferring the lock body, the lock body is prevented from sliding off, meanwhile, the electric holder 911 is used for holding, and the lock body of the lock cylinder is more stable in the process of inserting the lock cylinder, thereby further ensuring the quality of the product processed by the inserting pin of the assembly mechanism, finally, the first hydraulic cylinder 505 is used for driving, the first hydraulic rod 506 is used for moving, the first hydraulic rod 506 drives the transfer block 507, the transfer block 507 is used for moving in the channel 502, the first hydraulic cylinder 505 is used for driving, one transfer block 507 is moved, two transfer grooves 508 on the transfer block 507 are corresponding to the two lock body feeding grooves 203, two lock bodies in the forefront ends of the two lock body feeding grooves 203 respectively enter the two lock body feeding grooves 508 and are driven by the first hydraulic cylinder 505, the transfer block 507 is moved again to make the two transfer grooves 508 on the transfer block 507 correspond to the two lock body feeding grooves 701, the two lock bodies on the two transfer grooves 508 are clamped by the clamping head 912 of the electric clamping device 911 through the feeding grooves 701, the two lock bodies clamped by the clamping head 912 are delivered through the transfer assembly 9, the two lock bodies are moved to the lock cylinder insertion hole 702 between the operation line plates 7 and are driven by another first hydraulic cylinder 505 to move another transfer block 507, the two transfer grooves 508 on the top of another transfer block 507 and the two lock cylinder feeding channels 303 are moved, the two lock cylinders on the front end of the two lock cylinder feeding channels 303 enter the two transfer grooves 508 and are driven by another first hydraulic cylinder 505 to move another transfer block 507 again to make the two transfer grooves 508 on the top of another transfer block 507 align with the two lock cylinder insertion holes 702, the two lock cylinders in the two transfer grooves 508 respectively enter the two lock cylinder insertion holes 702, the rotating rod 802 is driven by the motor 805 to rotate, the rotating rod 802 drives the two rotating wheels 803 to rotate, the two pushing rods 804 are driven to swing by rotating the two rotating wheels 803, the two pushing rods 804 penetrate through the lock core insertion holes 702 and are inserted into the two lock bodies in the downward swinging process, the bolt operation of the assembly mechanism on the lock cores is completed, the supplied raw materials can be accurately taken by using the two barrier components 5, the raw materials are prevented from being accumulated, the smooth operation of a production line is ensured, meanwhile, the positions of the lock cores and the lock bodies can be accurately controlled by using the barrier components 5, the assembly mechanism can be more accurately and infallibly used when the lock cores and the lock bodies are butted, the accuracy of the assembly mechanism is further improved, the raw materials of the assembly mechanism can be controlled by using the two barrier components 5, and the production speed of the assembly mechanism can be adjusted by arranging the barrier components 5, the adjustment adaptability of the assembly mechanism is stronger, so that the applicability of the assembly mechanism is improved, the motor 805 is used for driving, the two push rods 804 push the lock cylinder to be inserted into the lock body, the assembly of the bolt of the lock cylinder is completed, and the push rods 804 are driven by the motor 805, so that the assembly mechanism is simple in structure and easy to debug and maintain.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.