CN209491594U - A kind of needle-valve body technology chamfering automatic loading/unloading grinding attachment - Google Patents

Abstract

The utility model relates to a kind of needle-valve body technology chamfering automatic loading/unloading grinding attachments, it is related to the technical field of equipment for grinding, it is all by manually feeding that existing needle-valve body, which is solved, in processing, precision is difficult to carry out control, the problem for causing the machining accuracy of the technique chamfering of needle-valve body lower, comprising: further include the discharge mechanism for being set in rack and being placed for needle-valve body, it is set to the positioning column that rack is arranged positioning close to the side of grinding mechanism and for needle-valve body, it is set on discharge mechanism and discharge mechanism and is sheathed on the feed mechanism on positioning column for driving needle-valve body to slip away, it is set in rack and controls needle-valve body on positioning column and the press mechanism that drives needle-valve body to rotate and being set in rack and for driving needle-valve body to be detached from the cutting agency of positioning column.The utility model has automatic charging when realizing needle-valve body processing, and precision is easier to control, and improves the effect of the machining accuracy of needle-valve body technology chamfering.

Description

A kind of needle-valve body technology chamfering automatic loading/unloading grinding attachment

Technical field

The utility model relates to the technical fields of equipment for grinding, automatically upper and lower more particularly, to a kind of needle-valve body technology chamfering Expect grinding attachment.

Background technique

Injector nozzle matching parts are the core components of diesel fuel system, and effect is the height for providing high-pressure fuel pump of diesel engine Pressure oil requires to inject cylinder with certain pressure, certain injection rate and atomization.The effect of needle-valve body is conduct high tension oil and and needle Valve can complete fuel feeding by fuel oil rule.

As shown in Figure 1, the head of needle-valve body 3 is equipped with technique chamfering 33, technique chamfering 33 is most important, and subsequent process is all It is on the basis of this technique chamfering 33, therefore required precision is relatively high.The technique chamfering 33 of existing needle-valve body 3 is all It is completed the process on grinding machine.

Prior art among the above has the following deficiencies: that existing needle-valve body 3 is all by artificial hand in processing Dynamic feeding, precision are difficult to carry out control, cause the machining accuracy of the technique chamfering 33 of needle-valve body 3 lower.

Utility model content

The purpose of the utility model is to provide a kind of needle-valve body technology chamfering automatic loading/unloading grinding attachments, realize needle-valve Automatic charging when body is processed, precision are easier to control, and improve the machining accuracy of needle-valve body technology chamfering.

The above-mentioned purpose of utility model of the utility model has the technical scheme that

A kind of needle-valve body technology chamfering automatic loading/unloading grinding attachment, including rack and the grinding being slidably connected in rack Mechanism further includes being set in rack and for the discharge mechanism of needle-valve body placement, the side for being set to rack close to grinding mechanism And it is arranged the positioning column of positioning for needle-valve body, is set on discharge mechanism and discharge mechanism and is arranged for driving needle-valve body to slip away In on positioning column feed mechanism, be set in rack and control needle-valve body on positioning column and drive needle-valve body rotate pushing Mechanism and the cutting agency for being set in rack and be used to drive needle-valve body disengaging positioning column.

By using above-mentioned technical proposal, the combination settings of discharge mechanism, positioning column and feed mechanism make needle-valve body exist When processing technology chamfering, can automatic charging, precision is easier to control, and improves the processing essence of the technique chamfering of needle-valve body Degree, while the labor intensity of operator is reduced, improve the efficiency of feeding；The setting of press mechanism realizes needle-valve body and adds The positioning and rotation in working hour, without manually participating in, high degree of automation；The setting of cutting agency realizes needle-valve body blanking Automation reduce the labor intensity of operator without manually participating in, improve the blanking efficiency of needle-valve body, improve The processing efficiency of needle-valve body.

The utility model is further arranged to: the discharge mechanism includes:

Fixing seat, screw are fixed in rack；

Feeding plate, is set in fixing seat and the direction for being tilted towards positioning column is arranged for needle-valve body proper alignment and guides Needle-valve body is slided to the direction close to positioning column；

Baffle, screw are fixed on feeding plate close to one end of positioning column to control needle-valve body on feeding plate；

Discharge port is opened in feeding plate close to the side of baffle and slips away on feeding plate to positioning column for needle-valve body；

Baffle, screw are fixed on baffle and are located at the surface of discharge port to control needle-valve body on feeding plate.

By using above-mentioned technical proposal, enables a certain number of needle-valve bodies are neat to come on feeding plate, make blowing The needle-valve body of lower side is not easy the feeding plate that slips away under the action of baffle and baffle on plate, provides base for the feeding of feed mechanism Plinth.

The utility model is further arranged to: the feed mechanism includes:

First cylinder, is fixed in fixing seat and the connection of the downside of piston rod and feeding plate is to drive the discharging on feeding plate Mouth alignment positioning column；

Second cylinder is set to side of the feeding plate close to block；

Mandril, it is corresponding to drive needle-valve body to slip away blowing through discharge port with the connection of the piston rod of the second cylinder and with discharge port Plate is simultaneously sheathed on positioning column.

By using above-mentioned technical proposal, feeding plate is with needle-valve body together to close to positioning column under the driving of the first cylinder Direction it is mobile so that the discharge port on feeding plate is aligned with positioning column, mandril is made to drive blowing under the driving of the second cylinder The needle-valve body of plate lower side slips away through discharge port and feeding plate and is sheathed on positioning column, realizes the automatic charging of needle-valve body, subtracts Lack error when artificial loading, improves the machining accuracy of needle-valve body technology chamfering.

The utility model is further arranged to: the baffle has been wholely set bootstrap block close to the side of mandril, described to draw The guide hole worn for mandril to guide mandril to slide is offered on guide block.

By using above-mentioned technical proposal, the setting of bootstrap block is guided the sliding of mandril, when sliding mandril It is not easy to tilt, improves stability when end cap sliding.

The utility model is further arranged to: the baffle offers arc notch close to the side of positioning column.

By using above-mentioned technical proposal, the setting of arc notch reduces contact of the baffle corner angle with needle-valve body, makes needle Valve body is not easy to be scratched by baffle, reduces the appearance of waste product, improves yield rate when needle-valve body production.

The utility model is further arranged to: the long lumbar hole worn for screw is offered in the fixing seat.

By using above-mentioned technical proposal, the setting of long lumbar hole allows feeding plate with fixing seat according to feeding plate Size be finely adjusted, reduce difficulty when installation, improve feeding plate use when precision.

The utility model is further arranged to: the press mechanism includes:

Motor is set in rack；

Connecting rod, one end are sheathed on the rotation connection of the shaft in the shaft of motor and with motor, and the other end is to close to positioning column Direction extend；

First pulley is sheathed on the shaft in the shaft of motor and with motor and rotates synchronously；

Second belt wheel is rotationally connected with the other end of connecting rod and corresponding with first pulley；

Belt is sheathed on first pulley and the second belt wheel and for driving needle-valve body to rotate around needle-valve body；

Driving assembly is set in rack and for driving belt to compress needle-valve body in positioning column.

By using above-mentioned technical proposal, so that connecting rod is pushed under the action of driving assembly, make belt by needle-valve body It is pressed on positioning column, while belt drives needle-valve body to rotate around positioning column, add the circumference of the technique chamfering of needle-valve body can Work arrives, and improves the machining accuracy of needle-valve body technology chamfering.

The utility model is further arranged to: the driving component includes:

Side of the connecting rod far from first pulley is fixed in drive rod, one end；

Third cylinder, is articulated in rack and piston rod is flexibly connected with the other end of drive rod to drive connecting rod to push.

By using above-mentioned technical proposal, drive drive rod under the driving of third cylinder under connecting rod and belt Pressure, needle-valve body is pressed on positioning column and needle-valve body is driven to rotate, and realizes the automation of connecting rod pushing, without artificial dry In advance, processing efficiency is improved.

The utility model is further arranged to: the cutting agency includes:

Blanking plate is sheathed on positioning column and abuts with needle-valve body and be used to that needle-valve body to be driven to be detached from positioning column；

4th cylinder, piston rod are connect to drive blanking plate that needle-valve body is driven to be detached from positioning column with blanking plate；

The perforating worn for positioning column is offered on the blanking plate.

By using above-mentioned technical proposal, enable blanking plate that needle-valve body to be driven to slip away positioning under the drive of the 4th cylinder Column carries out blanking, realizes the automation of needle-valve body blanking, reduces the labor intensity of operator, improves needle-valve body blanking Efficiency.

The utility model is further arranged to: being also provided on the blanking plate equal with the edge of perforating and blanking plate Connection is arranged slot.

By using above-mentioned technical proposal, it is arranged the setting of slot, is not necessarily to blanking plate during installation from the end of positioning column It is inserted in, and can be inserted in from the side of positioning column, it is easy for installation, improve the installation effectiveness of blanking plate.

In conclusion the advantageous effects of the utility model are as follows:

1. realizing automatic charging when needle-valve body processing, precision is easier to control, and improves needle-valve body technology chamfering Machining accuracy；

2. the setting of cutting agency realizes the automation of needle-valve body blanking, without manually participating in, operator is reduced Labor intensity, improve the blanking efficiency of needle-valve body, improve the processing efficiency of needle-valve body.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of needle-valve body.

Fig. 2 is a kind of structural schematic diagram of needle-valve body technology chamfering automatic loading/unloading grinding attachment of the utility model.

Fig. 3 is the structural schematic diagram of discharge mechanism and feed mechanism.

Fig. 4 is the enlarged drawing in the portion A in Fig. 3.

Fig. 5 is confined explosion's schematic diagram of fixing seat and rack.

Fig. 6 is the structural schematic diagram of press mechanism.

Fig. 7 is the partial structural diagram of cutting agency.

In figure, 1, rack；2, grinding mechanism；3, needle-valve body；4, discharge mechanism；5, positioning column；6, feed mechanism；7, it pushes Mechanism；8, cutting agency；9, fixing seat；10, feeding plate；11, baffle；12, discharge port；13, baffle；14, the first cylinder；15, Second cylinder；16, mandril；17, bootstrap block；18, guide hole；19, arc notch；20, long lumbar hole；21, motor；22, connecting rod； 23, first pulley；24, the second belt wheel；25, belt；26, driving assembly；27, drive rod；28, third cylinder；29, blanking plate； 30, the 4th cylinder；31, perforating；32, it is arranged slot；33, technique chamfering.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing 2-7.

It is a kind of needle-valve body technology chamfering automatic loading/unloading grinding attachment disclosed by the utility model, including machine referring to Fig. 2 Frame 1, grinding mechanism 2, discharge mechanism 4, positioning column 5, feed mechanism 6, press mechanism 7 and cutting agency 8；Grinding mechanism 2 slides It is connected to the technique chamfering 33 in rack 1 and for processing needle-valve body 3, discharge mechanism 4 is set in rack 1 and puts for needle-valve body 3 It sets, positioning column 5 is set to rack 1 and is arranged positioning close to the side of grinding mechanism 2 and for needle-valve body 3, and feed mechanism 6 is set to feeding machine Discharge mechanism 4 and positioning column 5 is sheathed on structure 4 and for driving needle-valve body 3 to slip away, and press mechanism 7 is set in rack 1 and uses It is pressed on positioning column 5 in by needle-valve body 3, press mechanism 7 is also used to that needle-valve body 3 is driven to rotate around positioning column 5, cutting agency 8 Blanking is carried out in rack 1 and for driving needle-valve body 3 to be detached from positioning column 5.

Referring to Fig. 2,3, discharge mechanism 4 includes fixing seat 9, feeding plate 10, baffle 11, discharge port 12 and baffle 13；It is fixed Seat 9 is fixed in rack 1 by screw, and feeding plate 10 is set in fixing seat 9 and is inclined to set, and feeding plate 10 inclines from top to bottom The direction of oblique positioning column 5 is arranged, and feeding plate 10 is arranged for needle-valve body 3 and placed, and guides needle-valve body 3 to close to positioning column 5 Direction rolls, and the cross section of feeding plate 10 is arranged in sector, and dog-ear is fixed on blowing by screw in 90 ° of settings, baffle 11 Plate 10 limits needle-valve body 3 close to one end of positioning column 5, baffle 11, and guides needle-valve body 3 to the side close to positioning column 5 To convergence, needle-valve body 3 is made to be not easy the feeding plate 10 that slips away, discharge port 12 is opened in feeding plate 10 close to positioning column 5 and close to baffle 11 side, discharge port 12 are passed through for needle-valve body 3 with the feeding plate 10 that slips away, and baffle 13 is fixed on the upside of baffle 11 and is located at The surface of material mouth 12, baffle 13 are bent downward close to one end of discharge port 12, so that The book of Changes discharge port 12 does not slip away needle-valve body 3 Feeding plate 10.

Referring to Fig. 3,4, baffle 13 offers arc notch 19 close to one end of positioning column 5, and arc notch 19 reduces gear The contact of the seamed edge of piece 13 and needle-valve body 3 makes needle-valve body 3 be not easy to be scratched by the seamed edge of baffle 13.

Referring to Fig. 5, the downside of fixing seat 9 offers long lumbar hole 20, and long lumbar hole 20 is worn for screw, to facilitate to fixing seat 9 are finely adjusted calibration with the position of feeding plate 10.

Referring to Fig. 2,3, feed mechanism 6 includes the first cylinder 14, the second cylinder 15 and mandril 16；First cylinder 14 is fixed on In fixing seat 9, and the piston rod of the first cylinder 14 is connect with the downside of feeding plate 10, to drive feeding plate 10 to close to positioning column 5 direction is mobile, so that the discharge port 12 on feeding plate 10 is directed at positioning column 5, the second cylinder 15 is fixed on the downside of feeding plate 10 And it is located at feeding plate 10 close to the side of baffle 11, mandril 16 is connect with the piston rod of the second cylinder 15, in the second cylinder 15 Drive under drive needle-valve body 3 on feeding plate 10 to slip away feeding plate 10 by discharge port 12, and be sheathed on positioning column 5；Gear One end of the remotely located column 5 of plate 11 is also integrally formed with bootstrap block 17, guide hole 18 is offered on bootstrap block 17, guide hole 18 is for top Bar 16 is worn, to guide mandril 16 to slide.

Referring to Fig. 2,6, press mechanism 7 includes motor 21, connecting rod 22, first pulley 23, the second belt wheel 24, belt 25 and drives Dynamic component 26；Motor 21 is set in rack 1, and first pulley 23 is sheathed in the shaft of motor 21, and first pulley 23 and motor 21 shaft interference fit, first pulley 23 are rotated together with the shaft of motor 21, and 22 one end of connecting rod is sheathed on turning for motor 21 On axis, the other end extends to the direction close to positioning column 5, and the length of connecting rod 22 is greater than the distance between motor 21 and locating rod, Second belt wheel 24 is rotationally connected with the other end of connecting rod 22 and corresponding with first pulley 23, belt 25 be sheathed on first pulley 23 with On second belt wheel 24, driving assembly 26 is set in rack 1 and for driving connecting rod 22 and belt 25 to push.

Driving assembly 26 includes drive rod 27 and third cylinder 28；27 one end of drive rod is fixed on connecting rod 22 and is located at the Between one belt wheel 23 and the second belt wheel 24, the other end of drive rod 27 is flexibly connected with the piston rod of third cylinder 28, third gas Cylinder 28 is articulated in rack 1, and drives connecting rod 22 to push by the contraction of piston rod, is pressed in belt 25 by needle-valve body 3 fixed On the column 5 of position, while belt 25 drives needle-valve body 3 to rotate around positioning column 5.

Referring to Fig. 7, cutting agency 8 includes blanking plate 29 and the 4th cylinder 30；Blanking plate 29 is sheathed on positioning column 5 and position In the lower end of needle-valve body 3, the perforating 31 worn for positioning column 5 is offered on blanking plate 29, the 4th cylinder 30 is fixed on rack 1 Upper and piston rod and blanking plate 29 are fixed, to drive blanking plate 29 that needle-valve body 3 is driven to be detached from positioning column by the elongation of piston rod 5；The downside of blanking plate 29, which is also provided with, is arranged slot 32, is arranged slot 32 and connects with the lower side of perforating 31 and blanking plate 29 edge It is logical, so that blanking plate 29 is not necessarily to be inserted in from one end of positioning column 5 during installation, and can be inserted in from side.

The course of work:

1, a certain number of needle-valve bodies 3 are placed on feeding plate 10, needle-valve body 3 is under gravity along feeding plate 10 It is rolled to one end close to positioning column 5, and proper alignment, the lowermost needle-valve body 3 stop in baffle 11 and acting on for baffle 13 It stays at discharge port 12；

2, the piston rod elongation of the first cylinder 14 drives needle-valve body 3 with feeding plate 10 to the direction close to positioning column 5 It is mobile, until discharge hole is aligned with positioning column 5；

3, the piston rod of the second cylinder 15 is shunk, and mandril 16 drives the needle at discharge port 12 under the drive of the second cylinder 15 Valve body 3 slips away through discharge port 12 and feeding plate 10 and is sheathed on positioning column 5, and later, the piston rod of the first cylinder 14 is shunk, and drives Needle-valve body 3 and feeding plate 10 reset；

4, the piston rod of third cylinder 28 is shunk, and connecting rod 22 and belt 25 is driven to push, belt 25 by needle-valve body 3 compress with On positioning column 5, and needle-valve body 3 is driven to rotate around positioning column 5；

5, grinding mechanism 2 processes the technique chamfering 33 of needle-valve body 3 to close to the movement of the direction of needle-valve body 3；

6, complete the process, grinding mechanism 2 resets, the elongation of the piston rod of third cylinder 28, drive connecting rod 22 and belt 25 to On lift, later, the piston rod of the 4th cylinder 30 extends, and drives blanking plate 29 that the needle-valve body 3 completed the process is driven to be detached from positioning Column 5 carries out blanking.

The implementation principle of the present embodiment are as follows: by the setting of discharge mechanism 4 and feed mechanism 6 and positioning column 5, realize The automatic charging of needle-valve body 3 reduces error when artificial loading processing；The setting of press mechanism 7 realizes needle-valve body 3 and adds The positioning and rotation in working hour；The setting of cutting agency 8 realizes the automation of 3 blanking of needle-valve body.

The embodiment of present embodiment is the preferred embodiment of the utility model, and not limitation is originally practical new according to this The protection scope of type, therefore: the equivalence changes that all structures, shape, principle according to the utility model are done should all be covered by practical Within novel protection scope.

Claims (10)

1. a kind of needle-valve body technology chamfering automatic loading/unloading grinding attachment including rack (1) and is slidably connected on rack (1) Grinding mechanism (2), it is characterised in that: further include be set on rack (1) and for needle-valve body (3) place discharge mechanism (4), set Rack (1) is placed in close to the side of grinding mechanism (2) and is arranged the positioning column (5) of positioning for needle-valve body (3), is set to feeding machine On structure (4) and for drive needle-valve body (3) slip away discharge mechanism (4) and be sheathed on positioning column (5) feed mechanism (6), set It is placed on rack (1) and controls needle-valve body (3) on positioning column (5) and the press mechanism (7) that drives needle-valve body (3) to rotate and setting It is placed on rack (1) and for driving needle-valve body (3) to be detached from the cutting agency (8) of positioning column (5).

2. a kind of needle-valve body technology chamfering automatic loading/unloading grinding attachment according to claim 1, it is characterised in that: described Discharge mechanism (4) includes:

Fixing seat (9), screw are fixed on rack (1)；

Feeding plate (10) is set on fixing seat (9) and is tilted towards the direction setting of positioning column (5) so that needle-valve body (3) is neat It arranges and needle-valve body (3) is guided to slide to the direction close to positioning column (5)；

Baffle (11), screw are fixed on the one end of feeding plate (10) close positioning column (5) to control needle-valve body (3) in feeding plate (10) on；

Discharge port (12) is opened in feeding plate (10) close to the side of baffle (11) and slips away feeding plate (10) for needle-valve body (3) To on positioning column (5)；

Baffle (13), screw are fixed on baffle (11) and are located at the surface of discharge port (12) to control needle-valve body (3) in putting On flitch (10).

3. a kind of needle-valve body technology chamfering automatic loading/unloading grinding attachment according to claim 2, it is characterised in that: described Feed mechanism (6) includes:

First cylinder (14), is fixed on fixing seat (9) and piston rod is connect with the downside of feeding plate (10) to drive feeding plate (10) discharge port (12) on is directed at positioning column (5)；

Second cylinder (15) is set to the side of feeding plate (10) close to block；

Mandril (16), it is with the connection of the piston rod of the second cylinder (15) and corresponding to drive needle-valve body (3) through going out with discharge port (12) Material mouth (12), which slips away, feeding plate (10) and to be sheathed on positioning column (5).

4. a kind of needle-valve body technology chamfering automatic loading/unloading grinding attachment according to claim 3, it is characterised in that: described Baffle (11) has been wholely set bootstrap block (17) close to the side of mandril (16), is offered on the bootstrap block (17) for mandril (16) guide hole (18) to guide mandril (16) to slide is worn.

5. a kind of needle-valve body technology chamfering automatic loading/unloading grinding attachment according to claim 2, it is characterised in that: described Baffle (13) offers arc notch (19) close to the side of positioning column (5).

6. a kind of needle-valve body technology chamfering automatic loading/unloading grinding attachment according to claim 2, it is characterised in that: described The long lumbar hole (20) worn for screw is offered in fixing seat (9).

7. a kind of needle-valve body technology chamfering automatic loading/unloading grinding attachment according to claim 1, it is characterised in that: described Press mechanism (7) includes:

Motor (21) is set on rack (1)；

Connecting rod (22), one end are sheathed in the shaft of motor (21) and are rotatablely connected with the shaft of motor (21), and the other end is to leaning on The direction of nearly positioning column (5) extends；

First pulley (23) is sheathed in the shaft of motor (21) and rotates synchronously with the shaft of motor (21)；

Second belt wheel (24) is rotationally connected with the other end of connecting rod (22) and corresponding with first pulley (23)；

Belt (25) is sheathed on first pulley (23) and the second belt wheel (24) and for driving needle-valve body (3) around needle-valve body (3) Rotation；

Driving assembly (26) is set on rack (1) and for driving belt (25) to compress needle-valve body (3) in positioning column (5).

8. a kind of needle-valve body technology chamfering automatic loading/unloading grinding attachment according to claim 7, it is characterised in that: described Driving assembly (26) includes:

The side of connecting rod (22) far from first pulley (23) is fixed in drive rod (27), one end；

Third cylinder (28), is articulated on rack (1) and piston rod is flexibly connected with the other end of drive rod (27) with the company of driving Bar (22) pushes.

9. a kind of needle-valve body technology chamfering automatic loading/unloading grinding attachment according to claim 1, it is characterised in that: described Cutting agency (8) includes:

Blanking plate (29) is sheathed on positioning column (5) and abuts with needle-valve body (3) and position for driving needle-valve body (3) to be detached from Column (5)；

4th cylinder (30), piston rod are connect to drive blanking plate (29) that needle-valve body (3) is driven to be detached from positioning with blanking plate (29) Column (5)；

The perforating (31) worn for positioning column (5) is offered on the blanking plate (29).

10. a kind of needle-valve body technology chamfering automatic loading/unloading grinding attachment according to claim 9, it is characterised in that: institute It states to be also provided on blanking plate (29) and is arranged slot (32) with what the edge of perforating (31) and blanking plate (29) was connected to.