CN206366814U - The processing unit (plant) of lock cylinder lock body process equipment - Google Patents

Abstract

The utility model is related to a kind of processing unit (plant) of lock cylinder lock body process equipment, including processing seat, be provided with the processing cavity being adapted with lock core outer shape in described processing seat, in addition to be correspondingly arranged with processing seat rotation hole organisation of working, marble hole reshaping device, mounting hole organisation of working, two or three in linkage groove processing mechanism or all.Using such scheme, the utility model provides the processing unit (plant) that a kind of single-station carries out the lock cylinder lock body process equipment of multiple procedure of processings simultaneously.

Description

The processing unit (plant) of lock cylinder lock body process equipment

Technical field

The utility model is related to a kind of lock core process equipment, and in particular to a kind of processing of lock cylinder lock body process equipment Device.

Background technology

Lock cylinder is also known as cylinder lock with balls, pearl lock, snap lock or pin tumbler locks, is the most common lock structure of one of which.It is former Reason is the cylindrical component using multiple different heights（Referred to as snap, pellet or pearl）, pin lock core.When being put into correct key Spoon, each snap is pushed to identical height, and lock core is just released.

As shown in figure 1, traditional processing lock cylinder includes lock body 9, inner cylinder, pellet and linkage block, lock body 9 is along length side To the rotation hole 91 being provided with for barrel body rotation, lock body side is provided with mounting hole 92 and the linkage groove 93 with rotation hole UNICOM, The linkage groove provides swing space for the linkage block linked with inner cylinder, and lock body has been placed equidistant several and rotation along its length The marble hole 94 of hole UNICOM, the marble hole is used to place pellet, and shaping, milling linkage are carried out to lock body profile adding man-hour requirement Groove, boring rotation hole, bore marble hole, bore all multi-steps such as mounting hole, and these procedure of processings be in existing processing mode according to It is secondary to be processed on each independent station by artificial place.

Such processing mode, on the one hand, in the environment of artificial wages increasingly increase, directly increases lock core processing enterprise The cost of industry, on the other hand, due to transmitting, carrying between independent station by semi-finished product, also increases processing duration, reduces Processing efficiency.

The content of the invention

In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of single-station while carrying out multiple The processing unit (plant) of the lock cylinder lock body process equipment of procedure of processing.

To achieve the above object, the utility model provides following technical scheme：Including processing seat, described processing seat is interior It is provided with the processing cavity being adapted with lock core outer shape, in addition to rotation hole organisation of working, the bullet being correspondingly arranged with processing seat Two or three or whole in sub-aperture reshaping device, mounting hole organisation of working, linkage groove processing mechanism.

By using above-mentioned technical proposal, processing seat is set up, it is stable to place lock core, due to rotation hole, marble hole, mounting hole And linkage groove is located at the different end faces of lock core respectively, therefore two or more processing can be carried out simultaneously in single station, from And simplify procedure of processing, improve operating efficiency, it is to avoid the manufacture of many pair frocks is inconvenient and because the processing that switching frock is brought is missed Difference increase.

The utility model is further arranged to：Described rotation hole organisation of working includes hole boring cutter, the first rotary driving machine Structure and the first displacement mechanism, described processing seat are correspondingly arranged on the first processing hole with lock core rotation hole position, described First displacement mechanism includes the first shifting seat, the first displacement rails and the first displacement drive, described hole boring cutter and first Rotary drive mechanism is installed on the first shifting seat, and the first described displacement drive drives the first shifting seat along the first displacement rail Hole boring cutter is moved back and forth along the first processing hole while road is moved back and forth, described the first rotary drive mechanism driving bore hole swivel It is dynamic.

By using above-mentioned technical proposal, by the driving hole boring cutter rotation of the first rotary drive mechanism, then by the first displacement machine Structure drives the first rotary drive mechanism and hole boring cutter to carry out bore hole to lock core specified location, so as to realize the work(of processing rotation hole Can, wherein the first rotary drive mechanism often selects motor, and the first displacement mechanism then motor and by motor-driven screw mandrel group Conjunction is formed.

The utility model is further arranged to：Described mounting hole organisation of working includes processing drill, the second rotation driving Mechanism and second displacement mechanism, described processing seat are correspondingly arranged on the second processing hole with lock core mounting hole position, described Second displacement mechanism include second displacement seat, described processing drill and the second rotary drive mechanism be installed on second displacement Seat, described second displacement drive component driving second displacement seat along second displacement track move back and forth while processing drill edge Second processing hole is moved back and forth, and described the second rotary drive mechanism driving processing drill is rotated.

By using above-mentioned technical proposal, by the driving processing drill rotation of the second rotary drive mechanism, then by second displacement Mechanism drives the second rotary drive mechanism and processing drill to carry out brill mounting hole to lock core specified location, so as to realize that processing is installed The function in hole, wherein the second rotary drive mechanism often selects motor, and second displacement mechanism then motor and by motor-driven Screw mandrel is combined.

The utility model is further arranged to：Described linkage groove processing mechanism includes facing cutter, the 3rd rotary driving machine Structure and triple motion mechanism, described processing seat are correspondingly arranged on processing groove, described triple motion with linkage groove position Mechanism includes triple motion seat, triple motion track and triple motion drive component, described facing cutter and the 3rd rotation driving Mechanism is installed on triple motion seat, and described triple motion drive component driving triple motion seat is back and forth moved along triple motion track Facing cutter is moved back and forth along processing groove while dynamic, and described the 3rd rotary drive mechanism driving facing cutter is rotated.

By using above-mentioned technical proposal, milling cutter disc spins are driven by the 3rd rotary drive mechanism, then by triple motion machine Structure drives the 3rd rotary drive mechanism and facing cutter to carry out milling linkage groove to lock core specified location, so as to realize processing linkage groove Function, wherein the 3rd rotary drive mechanism often selects motor, and triple motion mechanism then motor and by motor-driven screw mandrel Combine.

The utility model is further arranged to：Described linkage groove processing mechanism also includes chip leading plate, described chip leading plate Including the curved portions being mutually connected and line part, described curved portions are coaxially disposed and above with facing cutter, described straight line Portion is linear channel and gradually reduced with away from facing cutter height.

By using above-mentioned technical proposal, the curved portions of chip leading plate avoid scrap from upspringing in process, to processing people Member damages, and by the slug collection under stopping to line part, guides to specified location, focuses on.

The utility model is further arranged to：Described marble hole reshaping device includes shaping bar, shaping pole socket and shaping Pole socket drive component, described processing seat is correspondingly arranged on the 4th processing hole, each described shaping bar with marble hole position Shaping pole socket is fixedly installed in, described shaping pole socket drive component drives what shaping bar was moved along the 4th processing hole axial reciprocating Shaping bar is moved back and forth along the 4th processing hole simultaneously.

By using above-mentioned technical proposal, shaping pole socket is driven to move by shaping pole socket drive component, so that by each shaping Bar uniformly stretches into the marble hole of lock core and carries out shaping to marble hole, realizes the function to marble hole shaping, wherein shaping pole socket Drive component often selects cylinder.

The utility model is further described with reference to the accompanying drawings and detailed description.

Brief description of the drawings

Fig. 1 is the structural representation of the lock body of lock core；

Fig. 2 is the stereogram of the utility model embodiment；

Fig. 3 is the stereogram of processing seat in the utility model embodiment；

Fig. 4 is the structural representation of processing seat and marble hole reshaping device in the utility model embodiment.

Embodiment

As shown in Fig. 1-Fig. 3, the utility model discloses a kind of processing unit (plant) of lock cylinder lock body process equipment, bag Include in processing seat 1, processing seat 1 and be provided with the processing cavity 11 being adapted with lock core outer shape, in addition to seat 1 is corresponding sets with processing One kind or many in the rotation hole organisation of working put, marble hole reshaping device, mounting hole organisation of working, linkage groove processing mechanism Kind, processing seat 1 is set up, it is stable to place lock core, because rotation hole, marble hole, mounting hole and linkage groove are located at lock core not respectively Same end face, therefore one or more processing can be carried out simultaneously in single station, so as to simplify procedure of processing, operating efficiency is improved, Avoid the manufacture inconvenience of many secondary frocks and because switching the mismachining tolerance increase that frock is brought.

Rotation hole organisation of working include hole boring cutter 2, the first rotary drive mechanism 21 and the first displacement mechanism, processing seat 1 with Lock core rotation hole position is correspondingly arranged on the first processing hole 12, and the first displacement mechanism includes the first shifting seat 22, first The displacement drive 24 of track 23 and first is moved, the rotary drive mechanism 21 of hole boring cutter 2 and first is installed on the first shifting seat 22, the One displacement drive 24 drive the first shifting seat 22 along the first displacement rails 23 move back and forth while hole boring cutter 2 along first plus Work hole 12 is moved back and forth, and the first rotary drive mechanism 21 driving hole boring cutter 2 is rotated, and bore hole is driven by the first rotary drive mechanism 21 Knife 2 rotates, then drives the first rotary drive mechanism 21 and hole boring cutter 2 to carry out boring to lock core specified location by the first displacement mechanism Hole, so that the function of processing rotation hole is realized, wherein the first rotary drive mechanism 21 often selects motor, and the first displacement drive Component 24 then motor and is combined by motor-driven screw mandrel.

Mounting hole organisation of working includes processing drill 3, the second rotary drive mechanism 31 and second displacement mechanism, processes seat 1 The second processing hole 13 is correspondingly arranged on lock core mounting hole position, second displacement mechanism includes second displacement seat 32, second Displacement rails 33 and second displacement drive component 34, the rotary drive mechanism 31 of processing drill 3 and second are installed on second displacement seat 32, second displacement drive component 34 driving second displacement seat 32 along second displacement track 33 move back and forth while processing drill 3 Moved back and forth along the second processing hole 13, the second rotary drive mechanism 31 driving processing drill 3 is rotated, by the second rotary drive mechanism 31 driving processing drills 3 rotate, then drive the second rotary drive mechanism 31 and processing drill 3 to refer to lock core by second displacement mechanism Progress brill mounting hole is put in positioning, so that the function of processing mounting holes is realized, wherein the second rotary drive mechanism 31 often selects electricity Machine, and second displacement drive component 34 then motor and is combined by motor-driven screw mandrel.

The groove processing mechanism of linking includes facing cutter 4, the 3rd rotary drive mechanism 41 and triple motion mechanism, processing seat 1 with Linkage groove position is correspondingly arranged on processing groove 14, and triple motion mechanism includes triple motion seat 42, triple motion track 43 And triple motion drive component 44, the rotary drive mechanism 41 of facing cutter 4 and the 3rd be installed on triple motion seat 42, triple motion drive The dynamic driving of component 44 triple motion seat 42 along triple motion track 43 move back and forth while facing cutter 4 back and forth moved along processing groove 14 Dynamic, the 3rd rotary drive mechanism 41 driving facing cutter 4 is rotated, and drives facing cutter 4 to rotate by the 3rd rotary drive mechanism 41, then by Triple motion mechanism drives the 3rd rotary drive mechanism 41 and facing cutter 4 to carry out milling linkage groove to lock core specified location, so that real The function of now processing linkage groove, wherein the 3rd rotary drive mechanism 41 often selects motor, and triple motion drive component 44 is then Motor and combined by motor-driven screw mandrel.

The groove processing that links mechanism also includes chip leading plate 45, and chip leading plate 45 includes curved portions 451 and the line part being mutually connected 452, curved portions 451 are coaxially disposed and above with facing cutter 4, and line part 452 is for linear channel and with away from milling cutter Disk height is gradually reduced, and the curved portions 451 of chip leading plate 45 avoid scrap from upspringing in process, and wound is caused to processing staff Evil, by the slug collection under stopping to line part 452, guides to specified location, focuses on.

Marble hole reshaping device includes shaping bar 5, shaping pole socket 51 and shaping pole socket drive component 52, processing seat 1 and bullet Sub-aperture position is correspondingly arranged on the 4th processing hole 15, and each shaping bar 5 is fixedly installed in shaping pole socket 51, the driving of shaping pole socket The driving shaping of component 52 bar 5 is processed shaping bar 5 while hole axial reciprocating is moved along the 4th and moved back and forth along the 4th processing hole 15, Shaping pole socket 51 is driven to move by shaping pole socket drive component 52, so that each shaping bar 5 is uniformly stretched into the marble hole of lock core Shaping is carried out to marble hole, the function to marble hole shaping is realized, wherein shaping pole socket drive component 52 often selects cylinder.

During processing, rotation hole organisation of working is located at the processing axial end portion of seat 1, and mounting hole organisation of working is located at processing seat 1 side Face, linkage groove processing mechanism is located at the top of processing seat 1, and marble hole reshaping device is located at the lower section of processing seat 1.

Claims (6)

1. a kind of processing unit (plant) of lock cylinder lock body process equipment, it is characterised in that：Including processing seat, described processing seat is interior It is provided with the processing cavity being adapted with lock core outer shape, in addition to rotation hole organisation of working, the bullet being correspondingly arranged with processing seat Two or three or whole in sub-aperture reshaping device, mounting hole organisation of working, linkage groove processing mechanism.

2. the processing unit (plant) of lock cylinder lock body process equipment according to claim 1, it is characterised in that：Described rotation Hole machined mechanism includes hole boring cutter, the first rotary drive mechanism and the first displacement mechanism, described processing seat and lock core rotation hole Position is correspondingly arranged on the first processing hole, and the first described displacement mechanism includes the first shifting seat, the first displacement rails and First displacement drive, described hole boring cutter and the first rotary drive mechanism is installed on the first shifting seat, described first Move drive component drive the first shifting seat along the first displacement rails move back and forth while hole boring cutter along first processing hole back and forth move Dynamic, described the first rotary drive mechanism driving hole boring cutter is rotated.

3. the processing unit (plant) of lock cylinder lock body process equipment according to claim 1, it is characterised in that：Described installation Hole machined mechanism includes processing drill, the second rotary drive mechanism and second displacement mechanism, and described processing seat is installed with lock core Hole position is correspondingly arranged on the second processing hole, and described second displacement mechanism includes second displacement seat, and described processing is bored Head and the second rotary drive mechanism are installed on second displacement seat, and described second displacement drive component driving second displacement seat is along the Processing drill is moved back and forth along the second processing hole while two displacement rails are moved back and forth, and the second described rotary drive mechanism drives Dynamic processing drill is rotated.

4. the processing unit (plant) of lock cylinder lock body process equipment according to claim 1, it is characterised in that：Described linkage Groove processing mechanism includes facing cutter, the 3rd rotary drive mechanism and triple motion mechanism, described processing seat and linkage groove place Position is correspondingly arranged on processing groove, and described triple motion mechanism includes triple motion seat, triple motion track and triple motion Drive component, described facing cutter and the 3rd rotary drive mechanism is installed on triple motion seat, described triple motion driving group Part driving triple motion seat along triple motion track move back and forth while facing cutter moved back and forth along processing groove, the described the 3rd Rotary drive mechanism driving facing cutter is rotated.

5. the processing unit (plant) of lock cylinder lock body process equipment according to claim 4, it is characterised in that：Described linkage Groove processing mechanism also includes chip leading plate, and described chip leading plate includes curved portions and the line part being mutually connected, described curved portions with Facing cutter is coaxially disposed and above, and described line part gradually drops for linear channel and with away from facing cutter height It is low.

6. the processing unit (plant) of lock cylinder lock body process equipment according to claim 1, it is characterised in that：Described pellet Hole reshaping device includes shaping bar, shaping pole socket and shaping pole socket drive component, described processing seat and marble hole position The 4th processing hole is correspondingly arranged on, each described shaping bar is fixedly installed in shaping pole socket, described shaping pole socket drive component Driving shaping bar is processed shaping bar while hole axial reciprocating is moved along the 4th and moved back and forth along the 4th processing hole.