CN204621533U - A kind of mounting equipment being exclusively used in door lock components - Google Patents

Abstract

A kind of mounting equipment being exclusively used in door lock components, comprise workbench, first station, second station, 3rd station and the 4th station, workbench is provided with transfer member and transfer member driving device, transfer member is provided with parts and transmits positioning seat, first station is provided with lower gasket connecting gear, lower gasket installing mechanism, connector connecting gear and connector detent mechanism, second station is used for plate placement, 3rd station is provided with torsion spring connecting gear and torsion spring installing mechanism, 4th station is provided with corner angle connecting gear, jump ring connecting gear and corner angle clamp spring assembling machine structure, lower gasket is arranged on connector by lower gasket installing mechanism, torsion spring is arranged on panel by torsion spring installing mechanism, corner angle and jump ring are arranged on connector by corner angle clamp spring assembling machine structure, there is assembling speed fast, the feature that production cost is lower.

Description

A kind of mounting equipment being exclusively used in door lock components

Technical field

The utility model relates to a kind of mounting equipment being exclusively used in door lock components.

Background technology

The kind of door lock has a lot, comprise padlock, electronic lock etc., and handle lock is the lock that a kind of family the most often uses, and in order to supporting with the furniture of various style, shape, the color of handle are in different poses and with different expressions, colorful especially.Pass through the handle of plating and electrostatic painting, have wear-resisting and corrosion-resisting function, during selection except matching with indoor decoration style, also should be able to bear larger pulling force, general handle should be able to bear the pulling force of more than 6 kilograms.

Existing handle lock parts generally comprise connector, lower gasket, panel, torsion spring, corner angle and jump ring, lower gasket is generally made of plastics, lower gasket is set on connector, panel is placed on lower gasket, and connector is through panel, torsion spring and corner angle are also set on connector, jump ring is fastened on connector, make connector, lower gasket, panel, torsion spring, corner angle and jump ring fit together and can not depart from, the effect of lower gasket prevents from producing rigidity friction between connector and panel, the effect of torsion spring provides torsion to connector, can automatically reset after connector is rotated, and existing handle lock parts are all pass through man-made assembly, the process of assembling is slower, efficiency is lower, production cost is higher.

Summary of the invention

For above-mentioned technical problem, the utility model provides a kind of: the mounting equipment being exclusively used in door lock components that assembling speed is fast, efficiency is high, production cost is lower.

For solving the problems of the technologies described above, the utility model is by the following technical solutions: a kind of mounting equipment being exclusively used in door lock components, comprise workbench, first station, second station, 3rd station and the 4th station, described workbench is provided with transfer member and drives the transfer member driving device of transfer member movement, described transfer member is provided with parts and transmits positioning seat, described first station is provided with lower gasket connecting gear, lower gasket installing mechanism, connector connecting gear and connector detent mechanism, described 3rd station is provided with torsion spring connecting gear and torsion spring installing mechanism, described 4th station is provided with corner angle connecting gear, jump ring connecting gear and corner angle clamp spring assembling machine structure, connector detent mechanism is sent into by connector connecting gear at the first station upper binding head, lower gasket sends into lower gasket installing mechanism by lower gasket connecting gear, lower gasket to be arranged on connector and to transmit on positioning seat by connector and lower gasket feeding member by described lower gasket installing mechanism, connector and lower gasket enter the second station under the drive transmitting positioning seat, described second station is used for plate placement, connector, lower gasket and panel enter the 3rd station under the drive transmitting positioning seat, on the 3rd station, torsion spring sends into torsion spring installing mechanism by torsion spring connecting gear, torsion spring is arranged on panel by described torsion spring installing mechanism, connector, lower gasket, panel and torsion spring enter the 4th station under the drive transmitting positioning seat, on the 4th station, corner angle send into corner angle clamp spring assembling machine structure by corner angle connecting gear, jump ring sends into corner angle clamp spring assembling machine structure by jump ring connecting gear, corner angle and jump ring are arranged on connector by corner angle clamp spring assembling machine structure, make connector, lower gasket, panel, torsion spring, corner angle and jump ring fit together.

A kind of beneficial effect being exclusively used in the mounting equipment of door lock components that the utility model provides is: owing to comprising workbench, first station, second station, 3rd station and the 4th station, described workbench is provided with transfer member and drives the transfer member driving device of transfer member movement, described transfer member is provided with parts and transmits positioning seat, described first station is provided with lower gasket connecting gear, lower gasket installing mechanism, connector connecting gear and connector detent mechanism, described 3rd station is provided with torsion spring connecting gear and torsion spring installing mechanism, described 4th station is provided with corner angle connecting gear, jump ring connecting gear and corner angle clamp spring assembling machine structure, therefore when transfer member driving device drives transfer member to move, transfer member band dynamic component transmits positioning seat and enters the first station, connector detent mechanism is sent into by connector connecting gear at the first station upper binding head, lower gasket sends into lower gasket installing mechanism by lower gasket connecting gear, lower gasket to be arranged on connector and to transmit on positioning seat by connector and lower gasket feeding member by described lower gasket installing mechanism, connector and lower gasket enter the second station under the drive transmitting positioning seat, described second station is used for plate placement, after placing panel, connector, lower gasket and panel enter the 3rd station under the drive transmitting positioning seat, on the 3rd station, torsion spring sends into torsion spring installing mechanism by torsion spring connecting gear, torsion spring is arranged on panel by described torsion spring installing mechanism, connector, lower gasket, panel and torsion spring enter the 4th station under the drive transmitting positioning seat, on the 4th station, corner angle send into corner angle clamp spring assembling machine structure by corner angle connecting gear, jump ring sends into corner angle clamp spring assembling machine structure by jump ring connecting gear, corner angle and jump ring are arranged on connector by corner angle clamp spring assembling machine structure, make connector, lower gasket, panel, torsion spring, corner angle and jump ring fit together, finally realize automatic assembling, be equivalent to the assembling speed of 10 skilled workers, assembling speed is promoted greatly, packaging efficiency is higher, greatly reduce artificial use, thus production cost reduces greatly, and product quality is more stable compared with the product gone out with man-made assembly.

Below in conjunction with the drawings and specific embodiments, the utility model will be further described.

Accompanying drawing explanation

Fig. 1 is that a kind of that the utility model provides is exclusively used in one of structural representation of the mounting equipment of door lock components.

Fig. 2 is a kind of structural representation two being exclusively used in the mounting equipment of door lock components that the utility model provides.

Fig. 3 is that a kind of that the utility model provides is exclusively used in the lower gasket installing mechanism of the mounting equipment of door lock components and the structural representation of connector detent mechanism.

Fig. 4 is that a kind of that the utility model provides is exclusively used in one of structural representation of the torsion spring installing mechanism of the mounting equipment of door lock components.

Fig. 5 is a kind of structural representation two being exclusively used in the torsion spring installing mechanism of the mounting equipment of door lock components that the utility model provides.

Fig. 6 is that a kind of torsion spring being exclusively used in the mounting equipment of door lock components that the utility model provides installs the structural representation pressing down upper plate and centering block.

Fig. 7 is a kind of structural representation being exclusively used in the torsion spring jig of the mounting equipment of door lock components that the utility model provides.

Fig. 8 is a kind of structural representation being exclusively used in the corner angle clamp spring assembling machine structure of the mounting equipment of door lock components that the utility model provides.

Fig. 9 is the structural representation that a kind of corner angle jump ring being exclusively used in the mounting equipment of door lock components that the utility model provides presses down installation shaft assembled state.

Figure 10 is the top view of Fig. 9.

Figure 11 is the structural representation that a kind of corner angle jump ring being exclusively used in the mounting equipment of door lock components that the utility model provides presses down installation shaft decomposing state.

Figure 12 is the top view of Figure 11.

Figure 13 is a kind of structural representation being exclusively used in the auxiliary installing mechanism of the mounting equipment of door lock components that the utility model provides.

Figure 14 is the structural representation of the door lock components assembled that the utility model provides.

Figure 15 is the left view of Figure 14.

Detailed description of the invention

As Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10, Figure 11, Figure 12, Figure 13, Figure 14, shown in Figure 15, a kind of embodiment being exclusively used in the mounting equipment of door lock components that the utility model provides, comprises the first station 1, second station 2, 3rd station 3, 4th station 4 and workbench 5, described workbench 5 is provided with transfer member 6 and drives the transfer member driving device 7 of transfer member 6 movement, and described transfer member 6 is provided with parts and transmits positioning seat 8, and described first station 1 is provided with lower gasket connecting gear 9, lower gasket installing mechanism 10, connector connecting gear 11 and connector detent mechanism 12, described 3rd station 3 is provided with torsion spring connecting gear 13 and torsion spring installing mechanism 14, and described 4th station 4 is provided with corner angle connecting gear 15, jump ring connecting gear 16 and corner angle clamp spring assembling machine structure 17, connector detent mechanism 12 is sent into by connector connecting gear 11 at the first station 1 upper binding head a, lower gasket b sends into lower gasket installing mechanism 10 by lower gasket connecting gear 9, lower gasket b to be arranged on connector a and to transmit on positioning seat 8 by connector a and lower gasket b feeding member by described lower gasket installing mechanism 10, connector a and lower gasket b enters the second station 2 under the drive transmitting positioning seat 8, described second station 2 for plate placement c, connector a, lower gasket b and panel c enters the 3rd station 3 under the drive transmitting positioning seat 8, and on the 3rd station 3, torsion spring d sends into torsion spring installing mechanism 14 by torsion spring connecting gear 13, and torsion spring d is arranged on panel c by described torsion spring installing mechanism 14, connector a, lower gasket b, panel c and torsion spring d enters the 4th station 4 under the drive transmitting positioning seat 8, on the 4th station 4, corner angle e sends into corner angle clamp spring assembling machine structure 17 by corner angle connecting gear 15, jump ring f sends into corner angle clamp spring assembling machine structure 17 by jump ring connecting gear 16, corner angle e and jump ring f is arranged on connector a by corner angle clamp spring assembling machine structure 17, makes connector a, lower gasket b, panel c, torsion spring d, corner angle e and jump ring f fits together.

Wherein transfer member 6 comprises driving-chain, sprocket wheel, described transfer member driving device 7 is cylinder, described cylinder drives sprocket rotation, sprocket wheel drives driving-chain to move, driving-chain drives transmission positioning seat 8 to move, driving-chain can replace with driving-belt, and cylinder can replace with motor, and transmission positioning seat 8 can be driven equally to move.

Wherein lower gasket connecting gear 9, connector connecting gear 11, torsion spring connecting gear 13, corner angle connecting gear 15 and jump ring connecting gear 16 are vibrating disk connecting gear, vibrating disk connecting gear be by vibrating disk hopper below impulse mgnet realize vibrations, hopper can be made to make vertical vibration, drive hopper to rock vibration around its vertical axis by the spring leaf tilted.Part in hopper, rises along helical orbit owing to being subject to this vibration.Through the screening of a series of track or attitudes vibration in the process risen, part can enter assembling or Working position according to the requirement of assembling or processing in unified state automatically.Its work object to be aligned by unordered workpiece automatic order by vibration neatly, to be exactly transported to next procedure, therefore door lock components can be sent to preposition accurately by vibrating disk connecting gear.

As Fig. 1, Fig. 2, Fig. 3, Figure 14, shown in Figure 15, described lower gasket installing mechanism 10 comprises lower gasket installing rack 10-1, lower gasket installation of driver 10-2, lower gasket erection column 10-3 and lower gasket stock stop 10-4, described lower gasket installation of driver 10-2 is arranged on lower gasket installing rack 10-1, described connector detent mechanism 12 comprises connector stock stop 12-1, the end of described lower gasket erection column 10-3 has lower gasket erection column recess 10-31, described lower gasket erection column recess 10-31 has lower gasket locating dowel 10-311, described lower gasket stock stop 10-4 and connector stock stop 12-1 all can folding, described lower gasket installation of driver 10-2 drives lower gasket erection column 10-3 to move up and down, described lower gasket erection column 10-3 moves down to be arranged on by lower gasket b on connector a and lower gasket b and connector a to be sent into lower gasket stock stop 10-4 and connector stock stop 12-1 in the process transmitting positioning seat 8 and is all opened by lower gasket erection column 10-3, by this structure, can accurately lower gasket b be arranged on connector a, and can be sent into by lower gasket b and connector a accurately transmits on positioning seat 8, the effect of lower gasket locating dowel 10-311 and lower gasket erection column recess 10-31 is, when lower gasket b is installed, lower gasket locating dowel 10-311 inserts in lower gasket b through hole and connector a through hole, lower gasket b enters lower gasket erection column recess 10-31, thus lower gasket b is located, lower gasket b is avoided to move left and right, lower gasket installation of driver 10-2 is cylinder, the advantage of cylinder is that structure is simple, use cost is lower.

Wherein lower gasket stock stop 10-4 is identical with connector stock stop 12-1 structure, it is exactly slightly difference dimensionally, lower gasket stock stop 10-4 and connector stock stop 12-1 is dish, form by two pieces, can folding between two pieces, every block is all connected with spring, can automatically restores closed after making to open.

As Fig. 1, Fig. 2, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Figure 14, shown in Figure 15, described torsion spring installing mechanism 14 comprises torsion spring installing rack 14-1, torsion spring installation of driver 14-2, torsion spring is installed and is pressed down upper plate 14-3, torsion spring installs lower depress plate 14-4, centering block 14-5, press down pushing block 14-6, middle locating dowel 14-7 and torsion spring jig 14-8, described torsion spring installing rack 14-1 comprises torsion spring and installs lower depress plate lifting column 14-11 and torsion spring installation of driver fixed head 14-12, described torsion spring installation of driver fixed head 14-12 is arranged on torsion spring and installs on lower depress plate lifting column 14-11, described torsion spring is installed the lower depress plate 14-4 torsion spring that is arranged on moving up and down and is installed on lower depress plate lifting column 14-11, the lower depress plate 14-4 of torsion spring installation has torsion spring installation and presses down upper plate lifting column 14-41, described torsion spring is installed and is pressed down the upper plate 14-3 torsion spring that is arranged on moving up and down and install and press down on upper plate lifting column 14-41, what described centering block 14-5 was swingable be arranged on, and torsion spring installs presses down on upper plate 14-3, the described pushing block 14-6 that presses down is arranged on centering block 14-5, described middle locating dowel 14-7 is arranged on torsion spring and installs and to press down upper plate 14-3 on and the relative torsion spring installation of middle locating dowel 14-7 presses down upper plate 14-3 can move up and down, described torsion spring jig 14-8 is arranged on torsion spring and installs on lower depress plate 14-4, described torsion spring jig 14-8 has torsion spring and moves down through hole 14-81, the sidepiece of torsion spring jig 14-8 has torsion spring and moves down opening 14-82, described torsion spring moves down through hole 14-81 and moves down opening 14-82 with torsion spring and communicate, described middle locating dowel 14-7 and press down pushing block 14-6 and can enter torsion spring and move down in through hole 14-81, described torsion spring installation of driver 14-2 drives torsion spring to install and presses down upper plate 14-3, centering block 14-5, press down pushing block 14-6, middle locating dowel 14-7, torsion spring installs lower depress plate 14-4, torsion spring installation presses down upper plate lifting column 14-41 and torsion spring jig 14-8 moves up and down, torsion spring installation of driver 14-2 is cylinder, torsion spring installs lower depress plate lifting column 14-11, making torsion spring install lower depress plate 14-4 moves up and down more stable, torsion spring installation of driver fixed head 14-12, torsion spring installation of driver 14-2 is installed more firm, torsion spring is installed and is pressed down upper plate lifting column 14-41, making torsion spring installation press down upper plate 14-3 moves up and down more stable, press down pushing block 14-6 and be arranged on centering block 14-5, make to press down pushing block 14-6 swingable, namely can opening and closing, torsion spring moves down through hole 14-81, make torsion spring d move down through hole 14-81 from torsion spring just in time can install through suitable size can be narrowed down to later, torsion spring moves down opening 14-82, making the two ends of torsion spring d can be placed on torsion spring moves down on opening 14-82, the two ends of torsion spring d move down opening 14-82 along torsion spring and move down, play the effect that torsion spring d is located and reduced, the effect of middle locating dowel 14-7 is, in in installation process, locating dowel 14-7 insertion torsion spring moves down in through hole 14-81, torsion spring is installed and presses down upper plate 14-3, centering block 14-5, press down pushing block 14-6 to locate, make to press down pushing block 14-6 to insert torsion spring accurately and move down in through hole 14-81, therefore can accurately torsion spring be installed by this structure.

Wherein torsion spring moves down through hole 14-81 and reduces gradually under upper, and torsion spring moves down opening 14-82 and reduces gradually under upper, makes torsion spring d through narrowing down to suitable size afterwards.

Wherein middle locating dowel 14-7 and torsion spring are installed to press down on upper plate lifting column 14-41 and are all arranged with spring, torsion spring is installed the lower depress plate 14-4 of spring promotion torsion spring installation pressed down on upper plate lifting column 14-41 and is declined in time, avoiding torsion spring to install lower depress plate 14-4 blocks motionless, spring on middle locating dowel 14-7, make torsion spring d from torsion spring move down move down through hole 14-81 time more steady.

Wherein torsion spring is installed and is pressed down upper plate 14-3 and have through hole, centering block 14-5 presses down on upper plate 14-3 through the torsion spring installation that is arranged on that through hole is swingable, the upper end of centering block 14-5 is connected with spring, press down the lower end that pushing block 14-6 is arranged on centering block 14-5, press down pushing block 14-6 and there are four pieces, four pieces press down pushing block 14-6 can opening and closing, four pieces press down pushing block 14-6 and move down when through hole 14-81 moves down along torsion spring and slowly close, four pieces press down pushing block 14-6 and leave after torsion spring moves down through hole 14-81, because the upper end of centering block 14-5 is connected with spring, four pieces press down pushing block 14-6 and open up into original size.

Wherein torsion spring installation of driver fixed head 14-12 and torsion spring install that lower depress plate 14-4 is equipped with can the limited post of up-down adjustment, limited post on torsion spring installation of driver fixed head 14-12 can be avoided torsion spring to install and press down upper plate 14-3 rising too much, and under the torsion spring limited post installed on lower depress plate 14-4 can avoid torsion spring to install, depress plate 14-4 declines too much.

Wherein torsion spring moves down through hole 14-81 and is provided with telescopic torsion spring positioning head 20, and torsion spring d can locate by torsion spring positioning head 20, avoids torsion spring d to overturn.

As Fig. 1, Fig. 2, Fig. 8, Fig. 9, Figure 10, Figure 11, Figure 12, Figure 13, Figure 14, shown in Figure 15, described corner angle clamp spring assembling machine structure 17 comprises corner angle stock stop 17-1, corner angle jump ring installing rack 17-2, jump ring lateral pushers 17-3, the horizontal push jack 17-4 of jump ring, corner angle jump ring presses down pusher 17-5 and corner angle jump ring presses down installation shaft 17-6, described corner angle stock stop 17-1 can folding, described jump ring lateral pushers 17-3 and corner angle jump ring press down pusher 17-5 and are installed on corner angle jump ring installing rack 17-2, described corner angle jump ring presses down installation shaft 17-6 and comprises corner angle jump ring and press down and install outer shaft 17-61, corner angle jump ring presses down installation axis 17-62 and corner angle jump ring presses down axle 17-63 in installation, described corner angle jump ring presses down to be installed outer shaft 17-61 and is set in corner angle jump ring and presses down and install outside axis 17-62, described corner angle jump ring press down install axis 17-62 be set in corner angle jump ring press down install in outside axle 17-63, described corner angle jump ring press down install axis 17-62 relative corner angle jump ring press down install outer shaft 17-61 and corner angle jump ring press down install in axle 17-63 can move up and down, in described corner angle jump ring presses down and installs, axle 17-63 has connection projection 17-631, described corner angle jump ring presses down installation axis 17-62 and has the 17-621 that cracks, described corner angle jump ring press down outer shaft 17-61 is installed inwall on there is coupling recess portion 17-611, in described corner angle jump ring presses down and installs, the connection projection 17-631 of axle 17-63 presses down through corner angle jump ring the 17-621 that cracks installing axis 17-62 and presses down with corner angle jump ring the coupling recess portion 17-611 installing outer shaft 17-61 and be flexibly connected, in described corner angle jump ring presses down and installs, the lower end of axle 17-63 has jump ring and opens slope 17-632, described corner angle jump ring presses down to install on outer shaft 17-61 has jump ring installation through hole 17-612, described jump ring lateral pushers 17-3 drives jump ring horizontal push jack 17-4 transverse shifting, the horizontal push jack 17-4 of described jump ring can enter jump ring and install in through hole 17-612, described corner angle jump ring presses down pusher 17-5 and drives corner angle jump rings to press down installation shaft 17-6 to move up and down, the horizontal push jack 17-4 of jump ring, make jump ring f can be pushed jump ring to install in through hole 17-612 and be stuck in corner angle jump ring press down install on axle 17-63, it is pushed by corner angle e to be arranged on connector a that corner angle jump ring presses down the effect of installing outer shaft 17-61, it is pushed by jump ring f to be arranged on connector a that corner angle jump ring presses down the effect of installing axis 17-62, in corner angle jump ring presses down and installs, the effect of axle 17-63 opens slope 17-632 by jump ring, jump ring f is made to open to be stretched after the 17-632 of slope through jump ring and open up into suitable size, can be stuck on connector a, the corner angle clamp spring assembling machine structure 17 that the mechanism of the mechanism and installation jump ring f of installing corner angle e is integrated by this structure, make structure simpler, volume is less, assembling speed is faster, and can accurately corner angle e and jump ring f be installed on connector a.

The effect that connection projection 17-631 in wherein said corner angle jump ring presses down and installs on axle 17-63, corner angle jump ring press down the 17-621 that cracks installed on axis 17-62, corner angle jump ring presses down the coupling recess portion 17-611 installed on outer shaft 17-61 be in order to realize corner angle jump ring press down outer shaft 17-61 is installed, corner angle jump ring press down install axis 17-62 and corner angle jump ring press down install in can be flexibly connected between axle 17-63 three.

Wherein jump ring lateral pushers 17-3 and corner angle jump ring press down pusher 17-5 and are cylinder.

Wherein the structure homogeneous phase of corner angle stock stop 17-1 and lower gasket stock stop 10-4, connector stock stop 12-1 is all dish, forms by two pieces, can folding between two pieces, and every block is all connected with spring, can automatically restore closed after making to open.

Wherein corner angle jump ring presses down installation axis 17-62 and is provided with spring, this spring action in corner angle jump ring press down install outer shaft 17-61 and corner angle jump ring press down install in axle 17-63, realize corner angle jump ring to press down and axis 17-62 is installed when moving down, corner angle jump ring press down install outer shaft 17-61 and corner angle jump ring press down install in axle 17-63 keep motionless.

Wherein corner angle jump ring presses down and installs axis 17-62 and press down pusher 17-5 by support plate 18 with connecting plate 19 and corner angle jump ring and be connected, and makes corner angle jump ring press down installation axis 17-62 and moves more stable.

Wherein corner angle jump ring presses down the coupling recess portion 17-611 installing outer shaft 17-61 is dovetail groove, in corner angle jump ring presses down and installs, the connection projection 17-631 of axle 17-63 presses down with corner angle jump ring the coupling recess portion 17-611 installing outer shaft 17-61 and matches, it is a groove that corner angle jump ring presses down the 17-621 that cracks installed on axis 17-62, and in corner angle jump ring presses down and installs, the head of the connection projection 17-631 of axle 17-63 is greater than the width that corner angle jump ring presses down the 17-621 that cracks installed on axis 17-62.

Wherein corner angle jump ring press down and install in the upper and corner angle jump ring of axle 17-63 to press down the opposite position that the jump ring installed on outer shaft 17-61 installs through hole 17-612 be flat, jump ring f just in time can be allowed to snap in, under original state, corner angle jump ring presses down the lower end of installing axis 17-62 and is positioned at corner angle jump ring and presses down the top that the jump ring installed on outer shaft 17-61 installs through hole 17-612, make jump ring f can enter corner angle jump ring press down the jump ring installed on outer shaft 17-61 to install in through hole 17-612 and be stuck in corner angle jump ring press down install on axle 17-63, avoid jump ring f by corner angle jump ring press down install axis 17-62 block cannot be stuck in corner angle jump ring press down install on axle 17-63, in corner angle jump ring presses down and installs, the jump ring of the lower end of axle 17-63 opens slope 17-632, roughly tapered.

As Fig. 1, Figure 13, Figure 14, shown in Figure 15, also comprise secondary station 1a, described secondary station 1a is between the second station 2 and the 4th station 4, described secondary station 1a is provided with auxiliary installing mechanism, described auxiliary installing mechanism comprises auxiliary mounting deck 1a1, auxiliary actuator 1a2, auxiliary erection column 1a3 and auxiliary stock stop 1a4, described auxiliary actuator 1a2 is arranged on auxiliary mounting deck 1a1, described auxiliary actuator 1a2 is with dynamic auxiliary erection column 1a3 to move up and down, described auxiliary stock stop 1a4 can folding, described auxiliary erection column 1a3 comprises axle 1a32 in auxiliary installation outer shaft 1a31 and auxiliary installation, in auxiliary installation, axle 1a32 is provided with spring, described auxiliary installation outer shaft 1a31 is set in outside the interior axle 1a32 of auxiliary installation, in the relatively auxiliary installation of described auxiliary installation outer shaft 1a31, axle 1a32 can move up and down, making can according to the needs of product, plastic washer or bearing can be installed by secondary station 1a between corner angle e and panel c.

Wherein can also continue as required to increase secondary station 1a, secondary station 1a arranges auxiliary installing mechanism, such need to install and the parts of the packing ring of lower gasket b mono-spline structure or plane bearing time, can be installed by secondary station 1a, auxiliary actuator 1a2 is cylinder, the structure homogeneous phase of auxiliary stock stop 1a4, corner angle stock stop 17-1, lower gasket stock stop 10-4 and connector stock stop 12-1 is all dish, form by two pieces, can folding between two pieces, every block is all connected with spring, can automatically restores closed after making to open.

As Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10, Figure 11, Figure 12, Figure 13, Figure 14, shown in Figure 15, operation principle is as follows: on the first station 1, lower gasket b is arranged out by lower gasket connecting gear 9 on request, send on lower gasket stock stop 10-4, connector a is arranged out by connector connecting gear 11 on request, send into connector stock stop 12-1, lower gasket installation of driver 10-2 drives lower gasket erection column 10-3 to move down, lower gasket locating dowel 10-311 inserts in lower gasket b through hole, lower gasket b enters lower gasket erection column recess 10-31, lower gasket stock stop 10-4 is opened, lower gasket locating dowel 10-311 inserts in connector a through hole, connector stock stop 12-1 is opened, connector a and lower gasket b enters and transmits positioning seat 8, now lower gasket b is also set on connector a, lower gasket installation of driver 10-2 drive lower gasket erection column 10-3 moves up to get back to and is initially position, lower gasket stock stop 10-4 and connector stock stop 12-1 also closed getting back to is initially position.

Connector a and lower gasket b enters the second station 2 under the drive transmitting positioning seat 8, is placed on by panel c on connector a, and plate placement c can be placed and manipulator placement by artificial.

After placing panel c, connector a, lower gasket b and panel c enters the 3rd station 3 under the drive transmitting positioning seat 8, on the 3rd station 3, torsion spring d is arranged out by torsion spring connecting gear 13 on request, the torsion spring sending into torsion spring installing mechanism 14 moves down on through hole 14-81, first torsion spring installation of driver 14-2 drives torsion spring to install and presses down upper plate 14-3, centering block 14-5, press down pushing block 14-6, middle locating dowel 14-7, torsion spring installs lower depress plate 14-4, torsion spring installation presses down upper plate lifting column 14-41 and moves down together with torsion spring jig 14-8, the limited post installed on the lower depress plate 14-4 of lower depress plate 14-4 arrival precalculated position torsion spring installation when torsion spring plays position-limiting action, the lower depress plate 14-4 of torsion spring installation and torsion spring installation press down upper plate lifting column 14-41 and stop moving down, torsion spring is installed and is pressed down upper plate 14-3, centering block 14-5, press down pushing block 14-6 and middle locating dowel 14-7 continues to move down, in the middle of locating dowel 14-7 insert torsion spring and to move down in through hole 14-81 and to move down after through hole 14-81 abuts against and play the role of positioning with torsion spring, middle locating dowel 14-7 stops moving down, torsion spring is installed and is pressed down upper plate 14-3, centering block 14-5 and press down pushing block 14-6 and continue to move down, press down pushing block 14-6 to enter torsion spring and move down in through hole 14-81, press down pushing block 14-6 to move down through hole 14-81 along torsion spring and move down and slowly close, torsion spring d is under the promotion pressing down pushing block 14-6, move down through hole 14-81 and torsion spring along torsion spring to move down opening 14-82 and move down and slowly reduce, after finally slowly narrowing down to suitable size, be pressed down pushing block 14-6 from torsion spring move down through hole 14-81 release be arranged on panel c, torsion spring installation of driver 14-2 drives torsion spring to install and presses down upper plate 14-3, centering block 14-5, press down pushing block 14-6, middle locating dowel 14-7, torsion spring installs lower depress plate 14-4, torsion spring installation presses down upper plate lifting column 14-41 and torsion spring jig 14-8 moves up, press down upper plate 14-3 and arrive precalculated position torsion spring when torsion spring is installed and install and press down upper plate 14-3 and abut with the limited post on torsion spring installation of driver fixed head 14-12, torsion spring is installed and is pressed down upper plate 14-3, centering block 14-5, press down pushing block 14-6, middle locating dowel 14-7, torsion spring installs lower depress plate 14-4, torsion spring installation presses down upper plate lifting column 14-41 and torsion spring jig 14-8 and stops moving up, and pressing down pushing block 14-6 leaves after torsion spring moves down through hole 14-81, because the upper end of centering block 14-5 is connected with spring, four pieces press down pushing block 14-6 and open up into original size.

Connector a, lower gasket b, panel c and torsion spring d enters the 4th station 4 under the drive transmitting positioning seat 8, on the 4th station 4, corner angle e is arranged out by corner angle connecting gear 15 on request, send into corner angle stock stop 17-1, jump ring f is arranged out by jump ring connecting gear 16 on request, send into corner angle clamp spring assembling machine structure 17, now corner angle e is positioned at the top of the below connector a of jump ring f, described jump ring lateral pushers 17-3 drives jump ring horizontal push jack 17-4 transverse shifting, jump ring transverse direction push jack 17-4 promotion jump ring f is fastened on corner angle jump ring through jump ring installation through hole 17-612 and presses down on the interior axle 17-63 of installation, jump ring lateral pushers 17-3 drives the horizontal push jack 17-4 of jump ring to reset, corner angle jump ring presses down pusher 17-5 and drives corner angle jump rings to press down installation shaft 17-6 to move down, corner angle jump ring presses down installation outer shaft 17-61 and abuts with corner angle e, corner angle stock stop 17-1 is opened, corner angle e is pressed down installation outer shaft 17-61 by corner angle jump ring and is depressed on connector a, abut with connector a when corner angle jump ring presses down axle 17-63 in installation, abutting power is greater than corner angle jump ring when pressing down the elastic force of the spring installed on axis 17-62, in corner angle jump ring presses down and installs, axle 17-63 is slack, corner angle jump ring presses down installation axis 17-62 to be continued to move down, push card be located at corner angle jump ring press down install in jump ring f on axle 17-63 move down, jump ring f opens to be stretched after the 17-632 of slope through jump ring and opens up into suitable size, when jump ring f depart from corner angle jump rings press down install in after axle 17-63 jump ring f be stuck on connector a, finally make connector a, lower gasket b, panel c, torsion spring d, corner angle e and jump ring f fits together, corner angle jump ring presses down pusher 17-5 and drives corner angle jump rings to press down installation shaft 17-6 to move up recovery, corner angle stock stop 17-1 is returned to closure state.

As required, disclosed herein specific embodiment of the present utility model, but should be appreciated that the disclosed embodiments are just demonstrated the utility model, the utility model can have different and alternative form enforcement.Accompanying drawing may not proportionally be drawn.Therefore, concrete structure disclosed herein and function detail should not be understood to have limited significance, but only representatively property is basic to instruct those skilled in the art to adopt enforcement the utility model.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Claims (9)

1. one kind is exclusively used in the mounting equipment of door lock components, it is characterized in that: comprise the first station (1), second station (2), 3rd station (3), 4th station (4) and workbench (5), described workbench (5) is provided with transfer member (6) and drives the transfer member driving device (7) of transfer member (6) movement, described transfer member (6) is provided with parts and transmits positioning seat (8), described first station (1) is provided with lower gasket connecting gear (9), lower gasket installing mechanism (10), connector connecting gear (11) and connector detent mechanism (12), described 3rd station (3) is provided with torsion spring connecting gear (13) and torsion spring installing mechanism (14), described 4th station (4) is provided with corner angle connecting gear (15), jump ring connecting gear (16) and corner angle clamp spring assembling machine structure (17), connector detent mechanism (12) is sent into by connector connecting gear (11) at the first station (1) upper binding head (a), lower gasket (b) sends into lower gasket installing mechanism (10) by lower gasket connecting gear (9), lower gasket (b) is arranged on connector (a) and goes up and transmit on positioning seat (8) by connector (a) and lower gasket (b) feeding member by described lower gasket installing mechanism (10), connector (a) and lower gasket (b) enter the second station (2) under the drive transmitting positioning seat (8), described second station (2) is for plate placement (c), connector (a), lower gasket (b) and panel (c) enter the 3rd station (3) under the drive transmitting positioning seat (8), torsion spring installing mechanism (14) is sent into by torsion spring connecting gear (13) at the upper torsion spring (d) of the 3rd station (3), torsion spring (d) is arranged on panel (c) by described torsion spring installing mechanism (14), connector (a), lower gasket (b), panel (c) and torsion spring (d) enter the 4th station (4) under the drive transmitting positioning seat (8), corner angle clamp spring assembling machine structure (17) are sent into by corner angle connecting gear (15) at the upper corner angle (e) of the 4th station (4), jump ring (f) sends into corner angle clamp spring assembling machine structure (17) by jump ring connecting gear (16), corner angle (e) and jump ring (f) are arranged on connector (a) by corner angle clamp spring assembling machine structure (17), make connector (a), lower gasket (b), panel (c), torsion spring (d), corner angle (e) and jump ring (f) fit together.

2. a kind of mounting equipment being exclusively used in door lock components according to claim 1, it is characterized in that: described lower gasket installing mechanism (10) comprises lower gasket installing rack (10-1), lower gasket installation of driver (10-2), lower gasket erection column (10-3) and lower gasket stock stop (10-4), described lower gasket installation of driver (10-2) is arranged on lower gasket installing rack (10-1), described connector detent mechanism (12) comprises connector stock stop (12-1), the end of described lower gasket erection column (10-3) has lower gasket erection column recess (10-31), described lower gasket erection column recess (10-31) has lower gasket locating dowel (10-311), described lower gasket stock stop (10-4) and connector stock stop (12-1) all can foldings, described lower gasket installation of driver (10-2) drives lower gasket erection column (10-3) to move up and down, described lower gasket erection column (10-3) moves down that lower gasket (b) to be arranged on connector (a) upper and lower gasket (b) and connector (a) are sent into lower gasket stock stop (10-4) and connector stock stop (12-1) in the process transmitting positioning seat (8) all opened by lower gasket erection column (10-3).

3. a kind of mounting equipment being exclusively used in door lock components according to claim 1 and 2, it is characterized in that: described torsion spring installing mechanism (14) comprises torsion spring installing rack (14-1), torsion spring installation of driver (14-2), torsion spring is installed and is pressed down upper plate (14-3), torsion spring installs lower depress plate (14-4), centering block (14-5), press down pushing block (14-6), middle locating dowel (14-7) and torsion spring jig (14-8), described torsion spring installing rack (14-1) comprises torsion spring and installs lower depress plate lifting column (14-11) and torsion spring installation of driver fixed head (14-12), described torsion spring installation of driver fixed head (14-12) is arranged on torsion spring and installs on lower depress plate lifting column (14-11), described torsion spring is installed lower depress plate (14-4) torsion spring that is arranged on moving up and down and is installed on lower depress plate lifting column (14-11), the lower depress plate (14-4) of torsion spring installation has torsion spring installation and presses down upper plate lifting column (14-41), described torsion spring is installed and is pressed down upper plate (14-3) torsion spring that is arranged on moving up and down and install and press down on upper plate lifting column (14-41), what described centering block (14-5) was swingable be arranged on, and torsion spring installs presses down on upper plate (14-3), the described pushing block (14-6) that presses down is arranged on centering block (14-5), described middle locating dowel (14-7) be arranged on torsion spring install press down the upper and middle locating dowel (14-7) of upper plate (14-3) relatively torsion spring install and press down upper plate (14-3) and can move up and down, described torsion spring jig (14-8) is arranged on torsion spring and installs on lower depress plate (14-4), described torsion spring jig (14-8) has torsion spring and moves down through hole (14-81), the sidepiece of torsion spring jig (14-8) has torsion spring and moves down opening (14-82), described torsion spring moves down through hole (14-81) and moves down opening (14-82) with torsion spring and communicate, described middle locating dowel (14-7) and press down pushing block (14-6) and torsion spring can be entered move down in through hole (14-81), described torsion spring installation of driver (14-2) drives torsion spring to install and presses down upper plate (14-3), centering block (14-5), press down pushing block (14-6), middle locating dowel (14-7), torsion spring installs lower depress plate (14-4), torsion spring installation presses down upper plate lifting column (14-41) and torsion spring jig (14-8) moves up and down.

4. a kind of mounting equipment being exclusively used in door lock components according to claim 1 and 2, it is characterized in that: described corner angle clamp spring assembling machine structure (17) comprises corner angle stock stop (17-1), corner angle jump ring installing rack (17-2), jump ring lateral pushers (17-3), the horizontal push jack (17-4) of jump ring, corner angle jump ring presses down pusher (17-5) and corner angle jump ring presses down installation shaft (17-6), described corner angle stock stop (17-1) can folding, described jump ring lateral pushers (17-3) and corner angle jump ring press down pusher (17-5) and are installed on corner angle jump ring installing rack (17-2), described corner angle jump ring press down installation shaft (17-6) comprise corner angle jump ring press down install outer shaft (17-61), corner angle jump ring presses down installation axis (17-62) and corner angle jump ring presses down axle (17-63) in installation, described corner angle jump ring press down install outer shaft (17-61) be set in corner angle jump ring press down install axis (17-62) outward, described corner angle jump ring press down install axis (17-62) be set in corner angle jump ring press down install in axle (17-63) outward, described corner angle jump ring press down install axis (17-62) relatively corner angle jump ring press down and outer shaft (17-61) and corner angle jump ring are installed press down and interior axle (17-63) is installed can moves up and down, in described corner angle jump ring presses down and installs, axle (17-63) has connection projection (17-631), described corner angle jump ring presses down installation axis (17-62) to be had crack (17-621), described corner angle jump ring press down install outer shaft (17-61) inwall on there is coupling recess portion (17-611), in described corner angle jump ring presses down and installs, the connection projection (17-631) of axle (17-63) presses down through corner angle jump ring crack (17-621) that install axis (17-62) and presses down the coupling recess portion (17-611) of installing outer shaft (17-61) with corner angle jump ring and be flexibly connected, in described corner angle jump ring presses down and installs, the lower end of axle (17-63) has jump ring and opens slope (17-632), described corner angle jump ring presses down to install on outer shaft (17-61) has jump ring installation through hole (17-612), described jump ring lateral pushers (17-3) drives horizontal push jack (17-4) transverse shifting of jump ring, the horizontal push jack (17-4) of described jump ring can enter jump ring and install in through hole (17-612), described corner angle jump ring presses down pusher (17-5) and drives corner angle jump ring to press down installation shaft (17-6) to move up and down.

5. a kind of mounting equipment being exclusively used in door lock components according to claim 3, it is characterized in that: described corner angle clamp spring assembling machine structure (17) comprises corner angle stock stop (17-1), corner angle jump ring installing rack (17-2), jump ring lateral pushers (17-3), the horizontal push jack (17-4) of jump ring, corner angle jump ring presses down pusher (17-5) and corner angle jump ring presses down installation shaft (17-6), described corner angle stock stop (17-1) can folding, described jump ring lateral pushers (17-3) and corner angle jump ring press down pusher (17-5) and are installed on corner angle jump ring installing rack (17-2), described corner angle jump ring press down installation shaft (17-6) comprise corner angle jump ring press down install outer shaft (17-61), corner angle jump ring presses down installation axis (17-62) and corner angle jump ring presses down axle (17-63) in installation, described corner angle jump ring press down install outer shaft (17-61) be set in corner angle jump ring press down install axis (17-62) outward, described corner angle jump ring press down install axis (17-62) be set in corner angle jump ring press down install in axle (17-63) outward, described corner angle jump ring press down install axis (17-62) relatively corner angle jump ring press down and outer shaft (17-61) and corner angle jump ring are installed press down and interior axle (17-63) is installed can moves up and down, in described corner angle jump ring presses down and installs, axle (17-63) has connection projection (17-631), described corner angle jump ring presses down installation axis (17-62) to be had crack (17-621), described corner angle jump ring press down install outer shaft (17-61) inwall on there is coupling recess portion (17-611), in described corner angle jump ring presses down and installs, the connection projection (17-631) of axle (17-63) presses down through corner angle jump ring crack (17-621) that install axis (17-62) and presses down the coupling recess portion (17-611) of installing outer shaft (17-61) with corner angle jump ring and be flexibly connected, in described corner angle jump ring presses down and installs, the lower end of axle (17-63) has jump ring and opens slope (17-632), described corner angle jump ring presses down to install on outer shaft (17-61) has jump ring installation through hole (17-612), described jump ring lateral pushers (17-3) drives horizontal push jack (17-4) transverse shifting of jump ring, the horizontal push jack (17-4) of described jump ring can enter jump ring and install in through hole (17-612), described corner angle jump ring presses down pusher (17-5) and drives corner angle jump ring to press down installation shaft (17-6) to move up and down.

6. a kind of mounting equipment being exclusively used in door lock components according to claim 1 and 2, it is characterized in that: also comprise secondary station (1a), described secondary station (1a) is positioned between the second station (2) and the 4th station (4), described secondary station (1a) is provided with auxiliary installing mechanism, described auxiliary installing mechanism comprises auxiliary mounting deck (1a1), auxiliary actuator (1a2), auxiliary erection column (1a3) and auxiliary stock stop (1a4), described auxiliary actuator (1a2) is arranged on auxiliary mounting deck (1a1), described auxiliary actuator (1a2) is with dynamic auxiliary erection column (1a3) to move up and down, described auxiliary stock stop (1a4) can folding, described auxiliary erection column (1a3) comprises axle (1a32) in auxiliary installation outer shaft (1a31) and auxiliary installation, described auxiliary installation outer shaft (1a31) is set in the interior axle (1a32) of auxiliary installation outward, in the relatively auxiliary installation of described auxiliary installation outer shaft (1a31), axle (1a32) can move up and down.

7. a kind of mounting equipment being exclusively used in door lock components according to claim 3, it is characterized in that: also comprise secondary station (1a), described secondary station (1a) is positioned between the second station (2) and the 4th station (4), described secondary station (1a) is provided with auxiliary installing mechanism, described auxiliary installing mechanism comprises auxiliary mounting deck (1a1), auxiliary actuator (1a2), auxiliary erection column (1a3) and auxiliary stock stop (1a4), described auxiliary actuator (1a2) is arranged on auxiliary mounting deck (1a1), described auxiliary actuator (1a2) is with dynamic auxiliary erection column (1a3) to move up and down, described auxiliary stock stop (1a4) can folding, described auxiliary erection column (1a3) comprises axle (1a32) in auxiliary installation outer shaft (1a31) and auxiliary installation, described auxiliary installation outer shaft (1a31) is set in the interior axle (1a32) of auxiliary installation outward, in the relatively auxiliary installation of described auxiliary installation outer shaft (1a31), axle (1a32) can move up and down.

8. a kind of mounting equipment being exclusively used in door lock components according to claim 4, it is characterized in that: also comprise secondary station (1a), described secondary station (1a) is positioned between the second station (2) and the 4th station (4), described secondary station (1a) is provided with auxiliary installing mechanism, described auxiliary installing mechanism comprises auxiliary mounting deck (1a1), auxiliary actuator (1a2), auxiliary erection column (1a3) and auxiliary stock stop (1a4), described auxiliary actuator (1a2) is arranged on auxiliary mounting deck (1a1), described auxiliary actuator (1a2) is with dynamic auxiliary erection column (1a3) to move up and down, described auxiliary stock stop (1a4) can folding, described auxiliary erection column (1a3) comprises axle (1a32) in auxiliary installation outer shaft (1a31) and auxiliary installation, described auxiliary installation outer shaft (1a31) is set in the interior axle (1a32) of auxiliary installation outward, in the relatively auxiliary installation of described auxiliary installation outer shaft (1a31), axle (1a32) can move up and down.

9. a kind of mounting equipment being exclusively used in door lock components according to claim 5, it is characterized in that: also comprise secondary station (1a), described secondary station (1a) is positioned between the second station (2) and the 4th station (4), described secondary station (1a) is provided with auxiliary installing mechanism, described auxiliary installing mechanism comprises auxiliary mounting deck (1a1), auxiliary actuator (1a2), auxiliary erection column (1a3) and auxiliary stock stop (1a4), described auxiliary actuator (1a2) is arranged on auxiliary mounting deck (1a1), described auxiliary actuator (1a2) is with dynamic auxiliary erection column (1a3) to move up and down, described auxiliary stock stop (1a4) can folding, described auxiliary erection column (1a3) comprises axle (1a32) in auxiliary installation outer shaft (1a31) and auxiliary installation, described auxiliary installation outer shaft (1a31) is set in the interior axle (1a32) of auxiliary installation outward, in the relatively auxiliary installation of described auxiliary installation outer shaft (1a31), axle (1a32) can move up and down.