CN202412012U - Lock body polishing machine - Google Patents
Lock body polishing machine Download PDFInfo
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- CN202412012U CN202412012U CN2012200099992U CN201220009999U CN202412012U CN 202412012 U CN202412012 U CN 202412012U CN 2012200099992 U CN2012200099992 U CN 2012200099992U CN 201220009999 U CN201220009999 U CN 201220009999U CN 202412012 U CN202412012 U CN 202412012U
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Abstract
The utility model discloses a lock body polishing machine, which comprises a machine seat (1), a first blanking trough (2), a first linear driving mechanism (3), a second linear driving mechanism (4), a third linear driving mechanism (5), an abrasive mechanism (6), a first discharging trough (7) and a control system, wherein the abrasive mechanism (6) is arranged on the machine seat (1); the first linear driving mechanism (3) is provided with a first extractor (3.1); the first extractor (3.1) is positioned below an opening at the lower end of the first blanking trough (2); the third linear driving mechanism (5) is provided with a first clamping and positioning mechanism (5.1); the second linear driving mechanism (4) is provided with a push rod; and the first discharging trough (7) is arranged on the machine seat. By adopting the polishing machine, a lock body is polished quickly, and the labor intensity of workers is reduced; and by automatic polishing, the parallel degrees of two end surfaces of a lock body to be machined are high, the size control is relatively good, and grains of the two polished end surfaces are clear.
Description
Technical field
The utility model relates to the lock body manufacture field, is a kind of lock body sander concretely.
Background technology
At present, for lock body, generally carry out production and processing according to following operation: sand-sanding and polishing-plating sealing-assembling-check-packing cut edge-is beaten in raw material shearing-mould punching press-deburring; Wherein the polishing of lock body is also referred to as polishing; Promptly the both ends of the surface of lock body are polished,, make the lock body size qualified through polishing; End face is bright and clean, and the depth of parallelism between both ends of the surface is also better.The polishing of the lock body of prior art is mainly accomplished by manually-operated, through manual work the machined surface of lock body is contacted with the abrasive band face of belt sander and polishes, owing to polishing to the lock body both ends of the surface; So working strength of workers is bigger; Polishing speed is also slower, simultaneously owing to the unstability of artificial polishing, can't control the depth of parallelism of both ends of the surface preferably; Size for lock body also can't be controlled preferably, and the both ends of the surface lines of being polished is also clear inadequately.
The utility model content
The technical problem that the utility model will solve is, provide a kind of can automatically grinding, polishing speed sooner, effectively reduces labor strength, the both ends of the surface lines of being polished is clear, better guarantee the depth of parallelism of both ends of the surface and can better control the lock body sander of lock body size.
For solving the problems of the technologies described above; A kind of lock body sander of the utility model; Comprise support, first charging conduit, first linear driving mechanism, second linear driving mechanism, be used for processed lock body is sent into the trilinear driving mechanism of abrasive material mechanism, the abrasive material mechanism that is used for processing simultaneously processed lock body both ends of the surface, first blow tank and control system; Said abrasive material mechanism is arranged on the support; Said first linear driving mechanism, second linear driving mechanism, trilinear driving mechanism all are arranged on the support and are positioned at a side of abrasive material mechanism; The output of first linear driving mechanism is provided with first dispenser that is used for ccontaining processed lock body, and first dispenser is positioned at the below of the first charging conduit lower ending opening, and the trilinear driving mechanism is provided with first clamping positioning mechanism that is used for ccontaining processed lock body; Second linear driving mechanism is provided with and is used for processed lock body is pushed the push rod of first clamping positioning mechanism from first dispenser, and said first blow tank is arranged on the support.
After adopting said structure; The utlity model has following advantage: processed lock body is in first charging conduit landing to the first dispenser, and the motion of first linear driving mechanism is pushed ahead a segment distance with first dispenser; By second linear driving mechanism processed lock body is pushed first clamping positioning mechanism from first dispenser again; The trilinear driving mechanism advances, and processed lock body is sent into the processing of abrasive material mechanism, after machining; The trilinear driving mechanism is retreated, and by second linear driving mechanism processed lock body is pushed in first blow tank; Sander only needs lock body to be processed is put into first charging conduit, and operation afterwards all can full-automatic complete operation, compares present manual work polishing; Polishing speed is faster; Reduced working strength of workers, simultaneously, automatically grinding makes the depth of parallelism of lock body both ends of the surface to be processed better; Size Control is also better, and the both ends of the surface lines of being polished is more clear.
As improvement; The opposite side of said abrasive material mechanism also is provided with second charging conduit, the 4th linear driving mechanism, the 5th linear driving mechanism, is used for processed lock body is sent into the 6th linear driving mechanism and second blow tank of abrasive material mechanism; The output of the 4th linear driving mechanism is provided with second dispenser that is used for ccontaining processed lock body; Second dispenser is positioned at the below of the second charging conduit lower ending opening; The 6th linear driving mechanism is provided with second clamping positioning mechanism that is used for ccontaining processed lock body; The 5th linear driving mechanism is provided with and is used for processed lock body is pushed the push rod of second clamping positioning mechanism from second dispenser, and said second blow tank is arranged on the support, and said trilinear driving mechanism and the 6th linear driving mechanism are done linear movement along same first guide rail.Adopt a stand lock body sander, the workpiece polishing mechanism polishing is sent processed lock body in turn in both sides, has accomplished continuous processing, has effectively promoted the working (machining) efficiency of lock body sander.
As improvement; Said first linear driving mechanism, second linear driving mechanism, trilinear driving mechanism are cylinder; The direction of motion of first linear driving mechanism and the direction of motion of trilinear driving mechanism in the same way, the direction of motion of second linear driving mechanism is vertical with the direction of motion of trilinear driving mechanism.Adopt air cylinder driven, simple in structure, be convenient to Stroke Control, and movement velocity is fast, efficient is high.
As improvement; Said the 4th linear driving mechanism, the 5th linear driving mechanism, the 6th linear driving mechanism are cylinder; The direction of motion of the direction of motion of the 4th linear driving mechanism and the 6th linear driving mechanism in the same way, the direction of motion of the 5th linear driving mechanism is vertical with the direction of motion of the 6th linear driving mechanism.Adopt air cylinder driven, simple in structure, be convenient to Stroke Control, and movement velocity is fast, efficient is high.
As improvement; Said first clamping positioning mechanism comprises the first retainer device that is installed on the trilinear driving mechanism, be hinged on first holding pad, first spring, second spring, first top board and an end on the first retainer device is used for first adjustment screw that offsets with first top board; First top board and first holding pad are fixed; First spring and second spring lay respectively at the both sides of articulated position; First spring, one end and trilinear driving mechanism upper surface offset, and the first spring other end and the first top board lower surface offset; Second spring, one end and the first retainer device upper surface offset, and the second spring other end and the first holding pad lower surface offset, and first adjustment screw is fixed on the trilinear driving mechanism.When first clamping positioning mechanism was positioned at the home position, first adjustment screw and first top board offseted, and a side that makes first holding pad be used to compress processed lock body upwarps; Convenient processed lock body gets into the first retainer device, and after first clamping positioning mechanism advanced, first adjustment screw was separated with first top board; The side that first holding pad is used to compress processed lock body presses down; Processed lock body is compressed, adopt such clamping positioning mechanism, simple in structure, practical and clamp effective.
As improvement; Said second clamping positioning mechanism comprises the second retainer device that is installed on the 6th linear driving mechanism, be hinged on second holding pad, the 3rd spring, the 4th spring, second top board and an end on the second retainer device is used for second adjustment screw that offsets with second top board; The 3rd spring and the 4th spring lay respectively at the both sides of articulated position; The 3rd spring one end and the 6th linear driving mechanism upper surface offset, and the 3rd spring other end and the second top board lower surface offset; The 4th spring one end and the second retainer device upper surface offset, and the 4th spring other end and the second holding pad lower surface offset, and second adjustment screw is fixed on the 6th linear driving mechanism.When second clamping positioning mechanism was positioned at the home position, second adjustment screw and second top board offseted, and a side that makes second holding pad be used to compress processed lock body upwarps; Convenient processed lock body gets into the second retainer device, and after second clamping positioning mechanism advanced, second adjustment screw was separated with first top board; The side that second holding pad is used to compress processed lock body presses down; Processed lock body is compressed, adopt such clamping positioning mechanism, simple in structure, practical and clamp effective.
As improvement; Described abrasive material mechanism comprises a pair of grinding wheel structure that is respectively applied for the processed lock body both ends of the surface of processing, respectively with a pair of second guide rail of each grinding wheel structure sliding fit be respectively applied for and drive a pair of first motor that each grinding wheel structure is done linear movement; Described a pair of second guide rail is along the center line symmetric arrangement of support length direction; Each second guide rail all is fixed on the frame upper surface, and described a pair of first motor is separately fixed on each second guide rail; Described each grinding wheel structure includes second motor, abrasive band belt pulley, conveyer belt, abrasive band driven pulley and abrasive band, second Motor Shaft and the one end band transmission of abrasive band belt pulley, and the abrasive band belt pulley other end and abrasive band driven pulley are through abrasive band band transmission.Adopt a pair of grinding wheel structure that the both ends of the surface of processed lock body are polished simultaneously, grinding efficiency is high, and can better control the size of processed lock body, and the both ends of the surface processing back lines of processed lock body is clear, and the depth of parallelism is good.
As improvement, described each driven pulley outside, abrasive band is equipped with protective cover, and said protective cover and grinding wheel structure are fixed.Adopt protective cover, effectively stoped splashing of scrap to a certain extent, it is safer that the lock body sander is operated.
As improvement; Said frame upper surface is provided with opening; Said opening is positioned at the below of the processed both ends of the surface of processed lock body, and a side of said pedestal is provided with the copper powder gatherer, is provided with the copper powder collection channel in the said support; Said copper powder collection channel one end links to each other with the copper powder gatherer, and the copper powder collection channel other end links to each other with opening.Be provided with the copper powder gatherer, processing waste material is reclaimed, played environmental protection and the effect of practicing thrift cost.
Description of drawings
Fig. 1 is the structural representation in the front of the utility model lock body sander.
Fig. 2 is the structural representation at the back side of the utility model lock body sander.
Fig. 3 is the structural representation of the utility model lock body sander first linear driving mechanism.
Fig. 4 is the structural representation of the utility model lock body sander the 4th linear driving mechanism.
Fig. 5 is the structural representation of the utility model lock body sander trilinear driving mechanism and the 6th linear driving mechanism.
Fig. 6 is the structural representation of the utility model lock body sander grinding wheel structure.
Fig. 7 is the sectional structure sketch map of the utility model lock body sander grinding wheel structure.
Fig. 8 is the structural scheme of mechanism of the utility model lock body sander support.
Shown in the figure, 1-support, 1.1-opening, 1.2-copper powder gatherer, 2-first charging conduit, 3-first linear driving mechanism; 3.1-first dispenser, 4-second linear driving mechanism, 5-trilinear driving mechanism, 5.1-first clamping positioning mechanism, the 5.2-first retainer device, 5.3-first holding pad; 5.4-first spring, 5.5-second spring, 5.6-first guide rail, 5.7-first top board, 5.8-first adjustment screw; 6-abrasive material mechanism, 6.1-second guide rail, 6.2-first motor, 6.3-grinding wheel structure, 6.4-second motor; 6.5-the abrasive band belt pulley, 6.6-conveyer belt, 6.7-abrasive band driven pulley, 6.8-abrasive band, 6.9-protective cover; 7-first blow tank, 8-the 4th linear driving mechanism, 8.1-second dispenser, 9-the 5th linear driving mechanism, 10-the 6th linear driving mechanism; 10.1-second clamping positioning mechanism, the 10.2-second retainer device, 10.3-second holding pad, 10.4-the 3rd spring, 10.5-the 4th spring; 10.6-second top board, 10.7-second adjustment screw, 11-second charging conduit, the processed lock body of 12-, 13-second blow tank.
The specific embodiment
Below in conjunction with accompanying drawing the utility model is done further to specify.
Shown in Fig. 1 to 8; A kind of lock body sander; Comprise support 1, first charging conduit 2, first linear driving mechanism 3, second linear driving mechanism 4, be used for processed lock body 12 send into abrasive material mechanism 6 trilinear driving mechanism 5, be used for processing simultaneously abrasive material mechanism 6, first blow tank 7 and the control system of processed lock body 12 both ends of the surface; First charging conduit 2 and first linear driving mechanism 3 are fixing, and said abrasive material mechanism 6 is arranged on the support 1; Said abrasive material mechanism 6 is installed in support 1 upper surface centre position; Said first linear driving mechanism 3, second linear driving mechanism 4, trilinear driving mechanism 5 all is arranged on the support 1 and be positioned at a side of abrasive material mechanism 6; The output of first linear driving mechanism 3 is provided with first dispenser 3.1 that is used for ccontaining processed lock body 12; First dispenser 3.1 is positioned at the below of first charging conduit, 2 lower ending openings; Trilinear driving mechanism 5 is provided with first clamping positioning mechanism 5.1 that is used for ccontaining processed lock body 12; Second linear driving mechanism 4 is provided with the push rod that is used for processed lock body 12 is pushed from first dispenser 3.1 first clamping positioning mechanism 5.1; Said first blow tank 7 is arranged on the support, the axis coaxle line of said first blow tank, 7 axis and second linear driving mechanism, 4 push rods, and an end of first blow tank 7 docks with first clamping positioning mechanism, 5.1 1 ends.
The opposite side of said abrasive material mechanism 6 also is provided with second charging conduit 11, the 4th linear driving mechanism 8, the 5th linear driving mechanism 9, is used for processed lock body 12 is sent into the 6th linear driving mechanism 10 and second blow tank 13 of abrasive material mechanism 6; Second charging conduit 11 and the 4th linear driving mechanism 8 are fixing; The output of the 4th linear driving mechanism 8 is provided with second dispenser 8.1 that is used for ccontaining processed lock body 12; Second dispenser 8.1 is positioned at the below of second charging conduit, 11 lower ending openings; The 6th linear driving mechanism 10 is provided with second clamping positioning mechanism 10.1 that is used for ccontaining processed lock body 12; The 5th linear driving mechanism 9 is provided with the push rod that is used for processed lock body 12 is pushed from second dispenser 8.1 second clamping positioning mechanism 10.1; Said second blow tank 11 is arranged on the support 1, the axis coaxle line of the axis of second blow tank 13 and the 5th linear driving mechanism 9 push rods, and said trilinear driving mechanism 5 and the 6th linear driving mechanism 10 are done linear movement along same first guide rail 5.6.
Said first linear driving mechanism 3, second linear driving mechanism 4, trilinear driving mechanism 5 are cylinder; The direction of motion of first linear driving mechanism 3 and the direction of motion of trilinear driving mechanism 5 in the same way, the direction of motion of second linear driving mechanism 4 is vertical with the direction of motion of trilinear driving mechanism 5.
Said the 4th linear driving mechanism 8, the 5th linear driving mechanism 9, the 6th linear driving mechanism 10 are cylinder; The direction of motion of the direction of motion of the 4th linear driving mechanism 8 and the 6th linear driving mechanism 10 in the same way, the direction of motion of the 5th linear driving mechanism 9 is vertical with the direction of motion of the 6th linear driving mechanism 10.
Said first linear driving mechanism 3 is identical with the 4th linear driving mechanism 8 structures, and is symmetrical set along the center line on support 1 width; Said second linear driving mechanism 4 is identical with the 5th linear driving mechanism 9 structures, and is symmetrical set along the center line on support 1 width; Said trilinear driving mechanism 5 is identical with the 6th linear driving mechanism 10 structures, and is symmetrical set along the center line on support 1 width; Said first blow tank 7 is identical with the second blow tank structure, and is symmetrical set along the center line on support 1 width.
Said first clamping positioning mechanism 5.1 comprises the first retainer device 5.2 that is installed on the trilinear driving mechanism 5, be hinged on first holding pad 5.3 on the first retainer device 5.2, first spring 5.4, second spring 5.5, first top board 5.7 and an end are used for first adjustment screw 5.8 that offsets with first top board 5.7; First top board 5.7 and first holding pad 5.3 are fixing; First spring 5.4 and second spring 5.5 lay respectively at the both sides of articulated position; Described both sides are the left and right sides as shown in Figure 5, and first spring, 5.4 1 ends and trilinear driving mechanism 5 upper surfaces offset, and described first spring, 5.4 1 ends and trilinear driving mechanism 5 upper surfaces offset and are meant; Trilinear driving mechanism 5 is provided with push rod; Push rod one end is provided with a flat board, and said first clamping positioning mechanism 5.1 is fixed on dull and stereotyped upper surface, and dull and stereotyped lower surface is provided with slide block; Slide block and first guide rail, 5.6 sliding fits, first spring, 5.4 1 ends and dull and stereotyped upper surface offset; First spring, 5.4 other ends and first top board, 5.7 lower surfaces offset; Second spring, 5.5 1 ends and the first retainer device, 5.2 upper surfaces offset; Second spring, 5.5 other ends and first holding pad, 5.3 lower surfaces offset; First adjustment screw 5.8 is fixed on the trilinear driving mechanism 5, and described first adjustment screw 5.8 is fixed on and is meant on the trilinear driving mechanism 5 that first adjustment screw 5.8 is fixed on the position of not moving on the trilinear driving mechanism 5.
Said second clamping positioning mechanism 10.1 comprises the second retainer device 10.2 that is installed on the 6th linear driving mechanism 10, be hinged on second holding pad 10.3 on the second retainer device 10.2, the 3rd spring 10.4, the 4th spring 10.5, second top board 10.6 and an end are used for second adjustment screw 10.7 that offsets with second top board 10.6; The 3rd spring 10.4 and the 4th spring 10.5 lay respectively at the both sides of articulated position; Described both sides are the left and right sides as shown in Figure 5; The 3rd spring 10.4 one ends and the 6th linear driving mechanism 10 upper surfaces offset; Described the 3rd spring 10.4 one ends and the 6th linear driving mechanism 10 upper surfaces offset and are meant that the 6th linear driving mechanism 10 is provided with push rod, and push rod one end is provided with a flat board; Said second clamping positioning mechanism 10.1 is fixed on dull and stereotyped upper surface; Dull and stereotyped lower surface is provided with slide block, slide block and first guide rail, 5.6 sliding fits, and the 3rd spring 10.4 one ends and dull and stereotyped upper surface offset; The 3rd spring 10.4 other ends and second top board, 10.6 lower surfaces offset; The 4th spring 10.5 one ends and the second retainer device, 10.2 upper surfaces offset; The 4th spring 10.5 other ends and second holding pad, 10.3 lower surfaces offset; Second adjustment screw 10.7 is fixed on the 6th linear driving mechanism 10, and described second adjustment screw 10.7 is fixed on and is meant on the 6th linear driving mechanism 10 that second adjustment screw 10.7 is fixed on the position of not moving on the 6th linear driving mechanism 10.
So first clamping positioning mechanism 5.1 is identical with second clamping positioning mechanism, 10.1 structures, operation principle is also identical; Be example with first clamping positioning mechanism 5.1 below; Brief description clamps principle: when first clamping positioning mechanism 5.1 is positioned at the home position; First adjustment screw 5.8 and first top board 5.7 offset, and a side that makes first holding pad 5.3 be used to compress processed lock body 12 upwarps, and convenient processed lock body 12 gets into the first retainer device 5.2; After first clamping positioning mechanism 5.1 advances; First adjustment screw 5.8 is separated with first top board 5.7, and the side that first holding pad 5.3 is used to compress processed lock body 12 presses down, and processed lock body 12 is compressed.
Described abrasive material mechanism 6 comprises a pair of grinding wheel structure 6.3 that is respectively applied for processed lock body 12 both ends of the surface of processing, respectively with a pair of second guide rail 6.1 of each grinding wheel structure 6.3 sliding fit be respectively applied for and drive a pair of first motor 6.2 that each grinding wheel structure 6.3 is done linear movement; Described a pair of second guide rail 6.1 is along the center line symmetric arrangement of support 1 length direction; Each second guide rail 6.1 all is fixed on support 1 upper surface; Described a pair of first motor 6.2 is separately fixed on each second guide rail 6.1, and described first motor 6.2, second guide rail 6.1, grinding wheel structure 6.3 quantity are corresponding one by one; Described each grinding wheel structure 6.3 includes second motor 6.4, abrasive band belt pulley 6.5, conveyer belt 6.6, abrasive band driven pulley 6.7 and abrasive band 6.8; Second motor, 6.4 shafts and the 6.7 1 end band transmissions 6.5 of abrasive band belt pulley, abrasive band belt pulley 6.5 other ends and abrasive band driven pulley 6.7 are through abrasive band 6.8 band transmissions.Described each abrasive band driven pulley 6.7 outside are equipped with protective cover 6.9, and said protective cover 6.9 is fixing with grinding wheel structure 6.3.
Said support 1 upper surface is provided with opening 1.1; Said opening 1.1 is positioned at the below of processed lock body 12 processed both ends of the surface; One side of said support 1 is provided with copper powder gatherer 1.2; Be provided with the copper powder collection channel in the said support 1.2, said copper powder collection channel one end links to each other with copper powder gatherer 1.2, and the copper powder collection channel other end links to each other with opening 1.1.
Said lock body sander employing PLC control, wherein cylinder is meant by PLC control: PLC controls magnetic valve, solenoid control cylinder turnover gas direction, the change of turnover gas direction is advanced cylinder or is retreated; Motor is meant by PLC control: used first motor and second motor are servomotor, PLC through the control servo controller starting or stop, controlling starting or stoping of servomotor.
The concrete course of work of said lock body sander is following: in a plurality of processed lock bodies 12 placements and first charging conduit 2 and second charging conduit 11, start the lock body sander then, processed lock body 12 is in first charging conduit, 2 landing to the first dispensers 3.1; This moment, 3 motions of first linear driving mechanism were pushed ahead a segment distance with first dispenser 3.1, were in the push rod front end of second linear driving mechanism 4 to processed lock body 12; Second linear driving mechanism, 4 motions then, push rod pushes processed lock body 12 in the first retainer device 5.2 from first dispenser 3.1, trilinear driving mechanism 5 motions this moment; Processed lock body 12 is sent into abrasive material mechanism 6; The grinding wheel structure 6.3 on the left side in the abrasive material mechanism 6 drives through first motor 6.2 and moves to assigned address earlier, grinding wheel structure 6.3 setting in motion under the driving of first motor 6.2 on the right then, when the grinding wheel structure 6.3 on the right with after processed lock body 12 1 end faces contact; Second motor 6.4 drives a pair of grinding wheel structure 6.3 motions; Begin to process processed lock body 12, in the process, the grinding wheel structure 6.3 continuous feedings on the right; After the number of turns is set in 6.8 motions of the abrasive band in the grinding wheel structure 6.3, feed-disabling; In processed lock body 12 both ends of the surface of processing; First linear driving mechanism 3 and second linear driving mechanism 4 are all replied the home position, and simultaneously, second processed lock body 12 is in first charging conduit, 2 landing to the first dispensers 3.1; 3 motions of first linear driving mechanism; First dispenser 3.1 is pushed ahead a segment distance, and extremely processed lock body 12 is in the push rod front end of second linear driving mechanism 4, simultaneously; The 4th linear driving mechanism 8, the 5th linear driving mechanism 9, the 6th linear driving mechanism 10 that are positioned at abrasive material mechanism 6 opposite sides have also been accomplished the action of charging same as described above, are about to processed lock body 12 and are in the second retainer device 10.2; After first processed lock body 12 polishings are accomplished; Trilinear driving mechanism 5 is toward swivel motion the time; The grinding wheel structure 6.3 of the left and right sides back moves to the home position, and the 6th linear movement mechanism 10 promotes the second retainer device 10.2 and advances in the abrasive material mechanism 6, and the grinding wheel structure 6.3 on the left side in the abrasive material mechanism 6 drives through first motor 6.2 and moves to assigned address earlier then; Grinding wheel structure 6.3 setting in motion under the driving of first motor 6.2 then; When the grinding wheel structure 6.3 on the right with after processed lock body 12 1 end faces contact, second motor 6.4 drives a pair of grinding wheel structure 6.3 motions, begins to process processed lock body 12; After trilinear driving mechanism 5 back moves to the home position; First linear driving mechanism 3 promotes to be positioned at second processed lock body 12 arrival first retainer device 5.2 of first dispenser 3.1; Second processed lock body 12 promotes to have accomplished first processed lock body 12 entering first blow tank 7 of processing; Then, first linear driving mechanism 3 and second linear driving mechanism 4 are all replied the home position again, simultaneously; The 3rd processed lock body 12 is in first charging conduit, 2 landing to the first dispensers 3.1; 3 motions of first linear driving mechanism are pushed ahead a segment distance with first dispenser 3.1, are in the push rod front end of second linear driving mechanism 4 to the 3rd processed lock body 12; The mechanism that is positioned at abrasive material mechanism 6 both sides alternately sends processed lock body 12 into abrasive material mechanism 6 and processes.
Claims (9)
1. lock body sander; It is characterized in that: comprise support (1), first charging conduit (2), first linear driving mechanism (3), second linear driving mechanism (4), be used for processed lock body (12) is sent into the trilinear driving mechanism (5) of abrasive material mechanism (6), the abrasive material mechanism (6) that is used for processing simultaneously processed lock body (12) both ends of the surface, first blow tank (7) and control system; Said abrasive material mechanism (6) is arranged on the support (1); Said first linear driving mechanism (3), second linear driving mechanism (4), trilinear driving mechanism (5) all are arranged on the side that abrasive material mechanism (6) was gone up and be positioned to support (1); The output of first linear driving mechanism (3) is provided with first dispenser (3.1) that is used for ccontaining processed lock body (12); First dispenser (3.1) is positioned at the below of first charging conduit (2) lower ending opening; Trilinear driving mechanism (5) is provided with first clamping positioning mechanism (5.1) that is used for ccontaining processed lock body (12); Second linear driving mechanism (4) is provided with and is used for processed lock body (12) is pushed the push rod of first clamping positioning mechanism (5.1) from first dispenser (3.1), and said first blow tank (7) is arranged on the support.
2. lock body sander according to claim 1; It is characterized in that: the opposite side of said abrasive material mechanism (6) also is provided with second charging conduit (11), the 4th linear driving mechanism (8), the 5th linear driving mechanism (9), is used for processed lock body (12) is sent into the 6th linear driving mechanism (10) and second blow tank (13) of abrasive material mechanism (6); The output of the 4th linear driving mechanism (8) is provided with second dispenser (8.1) that is used for ccontaining processed lock body (12); Second dispenser (8.1) is positioned at the below of second charging conduit (11) lower ending opening; The 6th linear driving mechanism (10) is provided with second clamping positioning mechanism (10.1) that is used for ccontaining processed lock body (12); The 5th linear driving mechanism (9) is provided with the push rod that is used for processed lock body (12) is pushed from second dispenser (8.1) second clamping positioning mechanism (10.1); Said second blow tank (11) is arranged on the support (1), and said trilinear driving mechanism (5) is done linear movement with the 6th linear driving mechanism (10) along same first guide rail (5.6).
3. lock body sander according to claim 1; It is characterized in that: said first linear driving mechanism (3), second linear driving mechanism (4), trilinear driving mechanism (5) are cylinder; The direction of motion of first linear driving mechanism (3) and the direction of motion of trilinear driving mechanism (5) in the same way, the direction of motion of second linear driving mechanism (4) is vertical with the direction of motion of trilinear driving mechanism (5).
4. lock body sander according to claim 2; It is characterized in that: said the 4th linear driving mechanism (8), the 5th linear driving mechanism (9), the 6th linear driving mechanism (10) are cylinder; The direction of motion of the direction of motion of the 4th linear driving mechanism (8) and the 6th linear driving mechanism (10) in the same way, the direction of motion of the 5th linear driving mechanism (9) is vertical with the direction of motion of the 6th linear driving mechanism (10).
5. lock body sander according to claim 1; It is characterized in that: said first clamping positioning mechanism (5.1) comprises the first retainer device (5.2) that is installed on the trilinear driving mechanism (5), be hinged on first holding pad (5.3), first spring (5.4), second spring (5.5), first top board (5.7) and an end on the first retainer device (5.2) is used for first adjustment screw (5.8) that offsets with first top board (5.7); First top board (5.7) is fixing with first holding pad (5.3); First spring (5.4) and second spring (5.5) lay respectively at the both sides of articulated position; First spring (5.4) one ends and trilinear driving mechanism (5) upper surface offset, and first spring (5.4) other end and first top board (5.7) lower surface offset; Second spring (5.5) one ends and first retainer device (5.2) upper surface offset, and second spring (5.5) other end and first holding pad (5.3) lower surface offset, and first adjustment screw (5.8) is fixed on the trilinear driving mechanism (5).
6. lock body sander according to claim 2; It is characterized in that: said second clamping positioning mechanism (10.1) comprises the second retainer device (10.2) that is installed on the 6th linear driving mechanism (10), be hinged on second holding pad (10.3), the 3rd spring (10.4), the 4th spring (10.5), second top board (10.6) and an end on the second retainer device (10.2) is used for second adjustment screw (10.7) that offsets with second top board (10.6); The 3rd spring (10.4) and the 4th spring (10.5) lay respectively at the both sides of articulated position; The 3rd spring (10.4) one ends and the 6th linear driving mechanism (10) upper surface offset, and the 3rd spring (10.4) other end and second top board (10.6) lower surface offset; The 4th spring (10.5) one ends and second retainer device (10.2) upper surface offset, and the 4th spring (10.5) other end and second holding pad (10.3) lower surface offset, and second adjustment screw (10.7) is fixed on the 6th linear driving mechanism (10).
7. lock body sander according to claim 1; It is characterized in that: described abrasive material mechanism (6) comprise a pair of grinding wheel structure (6.3) that is respectively applied for processing processed lock body (12) both ends of the surface, respectively with a pair of second guide rail (6.1) of each grinding wheel structure (6.3) sliding fit be respectively applied for each grinding wheel structure of driving (6.3) and make a pair of first motor (6.2) of linear movement; Described a pair of second guide rail (6.1) is along the center line symmetric arrangement of support (1) length direction; Each second guide rail (6.1) all is fixed on support (1) upper surface, and described a pair of first motor (6.2) is separately fixed on each second guide rail (6.1); Described each grinding wheel structure (6.3) includes second motor (6.4), abrasive band belt pulley (6.5), conveyer belt (6.6), abrasive band driven pulley (6.7) and abrasive band (6.8); Second motor (6.4) shaft and (6.7) the one end band transmissions (6.5) of abrasive band belt pulley, abrasive band belt pulley (6.5) other end and abrasive band driven pulley (6.7) are through abrasive band (6.8) band transmission.
8. lock body sander according to claim 7 is characterized in that: described each abrasive band driven pulley (6.7) outside is equipped with protective cover (6.9), and said protective cover (6.9) is fixing with grinding wheel structure (6.3).
9. lock body sander according to claim 7; It is characterized in that: said support (1) upper surface is provided with opening (1.1); Said opening (1.1) is positioned at the below of the processed both ends of the surface of processed lock body (12), and a side of said support (1) is provided with copper powder gatherer (1.2), and said support is provided with the copper powder collection channel in (1.2); Said copper powder collection channel one end links to each other with copper powder gatherer (1.2), and the copper powder collection channel other end links to each other with opening (1.1).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2012200099992U CN202412012U (en) | 2012-01-11 | 2012-01-11 | Lock body polishing machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2012200099992U CN202412012U (en) | 2012-01-11 | 2012-01-11 | Lock body polishing machine |
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CN202412012U true CN202412012U (en) | 2012-09-05 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN2012200099992U Withdrawn - After Issue CN202412012U (en) | 2012-01-11 | 2012-01-11 | Lock body polishing machine |
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Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102528595A (en) * | 2012-01-11 | 2012-07-04 | 宁波数泰信息科技有限公司 | Lock polisher |
CN103481108A (en) * | 2013-09-30 | 2014-01-01 | 无锡众望四维科技有限公司 | Locating and feeding device for lock body machining equipment |
CN103802014A (en) * | 2014-01-17 | 2014-05-21 | 浙江浦江方圆锁业有限公司 | Locking face polishing machine |
CN104249286A (en) * | 2014-09-10 | 2014-12-31 | 海宁金神五金锁具有限公司 | Lock polisher |
CN104526485A (en) * | 2014-12-25 | 2015-04-22 | 无锡市强茂金属制品有限公司 | Automatic lock cylinder end face sanding machine |
CN104959896A (en) * | 2015-06-29 | 2015-10-07 | 卢国才 | Executing mechanism of automatic polishing machine |
CN105150075A (en) * | 2015-06-29 | 2015-12-16 | 卢国才 | Execution mechanism of multi-station automatic polishing machine |
CN105397599A (en) * | 2015-11-25 | 2016-03-16 | 张必葵 | Work-piece polishing machine |
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2012
- 2012-01-11 CN CN2012200099992U patent/CN202412012U/en not_active Withdrawn - After Issue
Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102528595A (en) * | 2012-01-11 | 2012-07-04 | 宁波数泰信息科技有限公司 | Lock polisher |
CN103481108A (en) * | 2013-09-30 | 2014-01-01 | 无锡众望四维科技有限公司 | Locating and feeding device for lock body machining equipment |
CN103802014A (en) * | 2014-01-17 | 2014-05-21 | 浙江浦江方圆锁业有限公司 | Locking face polishing machine |
CN103802014B (en) * | 2014-01-17 | 2016-03-02 | 浙江浦江方圆锁业有限公司 | A kind of locking face polishing machine |
CN104249286A (en) * | 2014-09-10 | 2014-12-31 | 海宁金神五金锁具有限公司 | Lock polisher |
CN104526485A (en) * | 2014-12-25 | 2015-04-22 | 无锡市强茂金属制品有限公司 | Automatic lock cylinder end face sanding machine |
CN104959896A (en) * | 2015-06-29 | 2015-10-07 | 卢国才 | Executing mechanism of automatic polishing machine |
CN105150075A (en) * | 2015-06-29 | 2015-12-16 | 卢国才 | Execution mechanism of multi-station automatic polishing machine |
CN104959896B (en) * | 2015-06-29 | 2017-09-29 | 卢国才 | A kind of executing agency of automatic polishing machine |
CN105150075B (en) * | 2015-06-29 | 2018-02-09 | 卢国才 | A kind of executing agency of multi-station automatic polishing machine |
CN105397599A (en) * | 2015-11-25 | 2016-03-16 | 张必葵 | Work-piece polishing machine |
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