CN202803867U - Automatic double-end chamfering equipment - Google Patents

Abstract

The utility model relates to automatic double-end chamfering equipment. The equipment mainly comprises a rack, a vibration feeding mechanism, a bottom ejecting mechanism, a punch chamfering mechanism, an unloading mechanism and a clamping mechanism, wherein the vibration feeding mechanism transports wool, required to be processed, to a wool processing station through a transporting channel; the wool is clamped and positioned through the clamping mechanism; then two-side chamfering of the wool is finished by the punch chamfering mechanism and the unloading mechanism; and finally, the processed wool is pushed outside the wool processing station by the unloading mechanism. The automatic double-end chamfering equipment has the advantages that firstly full-automatic mechanical chamfering processing is realized, so that production efficiency is greatly improved, labor intensity of workers is reduced, and manual costs is lowered; secondly, synchronous chamfering processing on two sides of a pipe material and is realized, so that deformation of the pipe material in a processing process is avoided, remarkably scrape rate is remarkably reduced, production cost is saved, and enterprise economic benefits is improved; and thirdly unqualified wool can be monitored and removed to remarkably improve yield.

Description

A kind of double end automatic chamfering equipment

Technical field

The utility model relates to the machined field, is specifically related to a kind of double end automatic chamfering equipment for materials in the tube.

Background technology

The Dual-head chamfering of processing materials in the tube is manually workpiece to be machined to be placed on the jig of equipment at present, take off after processing one, counter-rotating is placed on reprocesses the other end on the jig, such joint need to be processed twice, the manual work piece of installing, have the following disadvantages: (1), when processing work artificial loading, hand-operated clamping, can only process a part at every turn, efficient is low; (2), the clamping of workpiece, unclamp by artificial; (3), when processing parts is in batches large, artificial loading and unloading holding time is long, labourer's intensity is larger, not only needs the time long, efficient is low, and it is dangerous that workpiece manually is installed.

The utility model content

The purpose of this utility model is to be the deficiency that solves the problems of the technologies described above, and a kind of double end automatic chamfering equipment is provided, and has realized materials in the tube Full-automatic mechanized chamfer machining, has greatly improved production efficiency, has reduced labour intensity, has saved cost of labor.

The utility model is the deficiency that solves the problems of the technologies described above, the technical scheme that adopts is: a kind of double end automatic chamfering equipment, described double end automatic chamfering equipment mainly are comprised of frame, vibrating feeding mechanism, top, bottom position mechanism, punching chamfers mechanism, shedding mechanism and clamp mechanism; Frame mainly is made of base plate, intermediate plate and main fixed block, intermediate plate is vertically set on the base plate, main fixed block is arranged on the sidewall of intermediate plate one side, described main fixed block offers horizontal channel I, horizontal channel II and vertical channel, article three, the mutual square crossing of passage, and consist of woollen machining position at infall; Wherein, the blanking channel of vibrating feeding mechanism and top, bottom position mechanism are arranged on the up and down two ends of main fixed block vertical channel, punching chamfers mechanism and shedding mechanism are separately positioned on the two ends of main fixed block horizontal channel I, and two clamping elements of clamp mechanism are arranged on the two ends of main fixed block horizontal channel II;

Described vibrating feeding mechanism mainly is comprised of vibrating feed dish, horizontal conveying passage and blanking channel, the vibrating feed dish is arranged on a relative side with main fixed block of intermediate plate, the discharging opening of vibrating feed dish is connected with the blanking channel upper end by horizontal conveying passage, blanking channel is located in the vertical channel of main fixed block, and the blanking channel lower end is concordant with woollen machining position top.

Position, top, described bottom mechanism mainly is comprised of plunger, floating junction and spring, and plunger is located in the vertical passage of main fixed block, and its upper end is concordant with woollen machining position, and its lower end is connected with floating junction by spring.

Described punching chamfers mechanism mainly by active drift, drift guide pad, adjust bolt, propulsion cylinder and back-moving spring and form, the drift guide pad is fixedly installed on the frame, offer the through hole that aligns with the horizontal channel I on the drift guide pad, described active drift one end passes through hole, its other end is arranged with the adjustment bolt, propulsion cylinder is arranged on adjusts bolt one side, is provided with back-moving spring between described adjustment bolt and the drift guide pad.

Described shedding mechanism mainly is comprised of discharge plate, discharge ram, caging bolt, progressive cylinder and back-moving spring, described intermediate plate offers the through hole corresponding with the horizontal channel I, an end face of discharge ram is provided with the chamfering inclined-plane, and discharge ram is provided with chamfering inclined-plane one end and is located in the through hole of intermediate plate, its other end passes discharge plate and is connected with progressive cylinder, caging bolt is set on the discharge ram between intermediate plate and the discharge plate, and is provided with back-moving spring between caging bolt and the intermediate plate.

Described clamp mechanism is mainly by pushing block, clamping push rod and step slide block forms, clamping push rod one end is the intrados that cooperatively interacts with woollen external diameter, its other end is provided with spherical stopper, the step slide block simultaneously has two different grooves of the depth, two grooves are by the slope transition, described pushing block is arranged on the below of main fixed block, pushing block connects clamping cylinder by floating junction, two step slide blocks are symmetricly set on the pushing block two ends, and step slide block groove surface arranges towards the horizontal channel of main fixed block II, two clamp the II both sides, horizontal channel that push rod is located in respectively main fixed block, and clamp cambered surface one end of push rod towards woollen machining position setting, its spherical stopper one end is against in the groove of step slide block, and is provided with back-moving spring between snaphead and the main fixed block.

[0009]Described active drift is the step drift, comprises two sections cylinders that diameter is different, and wherein the chamfering inclined-plane is arranged on the larger drift cylinder of diameter.

Beneficial effect

1, double end automatic chamfering equipment of the present utility model realized materials in the tube from material loading, clamp location, bilateral simultaneously chamfering and discharging operation Full-automatic mechanized chamfer machining, greatly improved production efficiency, reduced workman's labour intensity, saved cost of labor.

2, double end automatic chamfering equipment of the present utility model can be realized the bilateral while chamfer machining of materials in the tube, can not cause materials in the tube deformation in the process, and the rate of obviously reducing the number of rejects and seconds saves production cost, and improves Business Economic Benefit.

3, double end automatic chamfering equipment of the present utility model can be monitored out underproof woolen cloth, and with defective woollen rejecting, can obviously improve yield rate.

Description of drawings

Fig. 1 is the structural representation of double end automatic chamfering equipment of the present utility model.

Fig. 2 is the structural representation of punching chamfers mechanism of the present utility model and shedding mechanism.

Fig. 3 is the structural representation of bottom of the present utility model top position mechanism and clamp mechanism.

Fig. 4 is the structural representation of active drift of the present utility model.

Fig. 5 is the structural representation of clamping push rod of the present utility model.

Fig. 6 is the schematic diagram of double end automatic chamfering equipment of the present utility model when carrying out punching chamfers.

Fig. 7 is the partial schematic diagram of double end automatic chamfering equipment of the present utility model when carrying out punching chamfers.

Fig. 8 is the schematic diagram of double end automatic chamfering equipment of the present utility model when carrying out discharging.

Mark among the figure: 1, frame, 11, base plate, 12, intermediate plate, 13, main fixed block, 14, woollen machining position, 2, vibrating feeding mechanism, 21, the vibrating feed dish, 22, horizontal conveying passage, 23, blanking channel, 3, top, bottom position mechanism, 31, plunger, 32, buffer spring, 4, punching chamfers mechanism, 41, the active drift, 42, the drift guide pad, 43, adjust bolt, 44, propulsion cylinder, 5, shedding mechanism, 51, discharge plate, 52, discharge ram, 53, caging bolt, 54, progressive cylinder, 6, clamp mechanism, 61, pushing block, 62, clamp push rod, 621, spherical stopper, 63, the step slide block, 64, clamping cylinder, 65, floating junction, 7, materials in the tube.

The specific embodiment

As shown in Figure 1: a kind of double end automatic chamfering equipment mainly is comprised of frame 1, vibrating feeding mechanism 2, top, bottom position mechanism 3, punching chamfers mechanism 4, shedding mechanism 5 and clamp mechanism 6.Frame 1 mainly is made of base plate 11, intermediate plate 12 and main fixed block 13, intermediate plate 12 is vertically set on the base plate 11, main fixed block 13 is arranged on the sidewall of intermediate plate 12 1 sides, described main fixed block 13 offers horizontal channel I, horizontal channel II and vertical channel, article three, the mutual square crossing of passage, and consist of woollen machining position 14 at infall.Wherein, the blanking channel of vibrating feeding mechanism 2 and top, bottom position mechanism 3 are arranged on the up and down two ends of main fixed block 13 vertical channels, punching chamfers mechanism 4 and shedding mechanism 5 are separately positioned on the two ends of main fixed block 13 horizontal channel I, and two clamping elements of clamp mechanism 6 are arranged on the two ends of main fixed block 13 horizontal channel II.

As shown in Figure 1: vibrating feeding mechanism 2 mainly is comprised of vibrating feed dish 21, horizontal conveying passage 22 and blanking channel 23, vibrating feed dish 21 is arranged on intermediate plate 12 and main fixed block 13 relative sides, the discharging opening of vibrating feed dish 21 is connected with blanking channel 23 upper ends by horizontal conveying passage 22, blanking channel 23 is located in the vertical channel of main fixed block 13, and blanking channel 23 lower ends are concordant with woollen machining position 14 tops.Woolen cloth at random enters horizontal conveying passage 22 by vibrating feed dish 21, is delivered to woollen machining position 14 by blanking channel 23 at last.

As shown in Figure 3: position, top, described bottom mechanism 3 mainly is comprised of plunger 31 and buffer spring 32, plunger 31 is located in the vertical channel of main fixed block 13, its upper end is concordant with woollen machining position 14, and described vertical channel lower end closed arranges buffer spring 32 between plunger 31 and the main fixed block 13.Because blanking channel 23 interior accumulations is woollen more, can realize processing the elasticity location of woollen vertical direction by top, bottom position mechanism 3.

As shown in Figure 2: punching chamfers mechanism 4 mainly is comprised of active drift 41, drift guide pad 42, adjustment bolt 43, propulsion cylinder 44 and back-moving spring, drift guide pad 42 is fixedly installed on the frame 1, offer the through hole that aligns with the horizontal channel I on the drift guide pad 42, described active drift 41 1 ends pass through hole, its other end is arranged with adjusts bolt 43, propulsion cylinder 44 is arranged on adjusts bolt 43 1 sides, promote to adjust bolt 43 and move horizontally, be provided with back-moving spring between described adjustment bolt 43 and the drift guide pad 42.When woolen cloth is carried out punching press, only need start propulsion cylinder 44 drive active drifts 41 and carry out punching press to woollen direction, punching press is complete, because back-moving spring, initiatively drift 41 returns to initial position.By adjusting the distance between bolt 43 and the drift guide pad 42, can control the initiatively degree of depth of drift 41 punching presses.

As shown in Figure 4: initiatively drift 41 is the step drift, comprises two sections cylinders that diameter is different, and wherein the chamfering inclined-plane is arranged on the larger drift cylinder of diameter, and wherein diameter is slightly less than the internal diameter of materials in the tube 7 than the diameter of segment.

As shown in Figure 8: when initiatively drift 41 carries out punching press, diameter inserts the inner chamber of materials in the tube 7 than the segment drift, can prevent that like this materials in the tube 7 from deformation occuring in punching course, and when entering woollen machining position 14 if any the defective woolen cloth that is out of shape, initiatively drift 41 diameters can't insert the inner chamber of materials in the tube 7 than the segment drift, and can in time choose defective woolen cloth this moment by reporting to the police.

As shown in Figure 2: shedding mechanism 5 is mainly by discharge plate 51, discharge ram 52, caging bolt 53, progressive cylinder 54 and back-moving spring form, described intermediate plate 12 offers the through hole corresponding with the horizontal channel I, an end face of discharge ram 52 is provided with the chamfering inclined-plane, and discharge ram 52 is provided with chamfering inclined-plane one end and is located in the through hole of intermediate plate 12, its other end passes discharge plate 51 and is connected with progressive cylinder 54, caging bolt 53 is set on the discharge ram 52 between intermediate plate 12 and the discharge plate 51, and is provided with back-moving spring between caging bolt 53 and the intermediate plate 12.During original state, caging bolt 53 is close to discharge plate 51 and is arranged, when this moment, initiatively 41 pairs of woolen cloths of drift carried out punching press, discharge ram 52 can not be subjected to displacement, could realize simultaneously chamfer machining of double end, when needing discharging, start progressive cylinder 54 discharge ram 52 is moved horizontally, with the finished woollen woollen machining position 14 of releasing.

As shown in Figure 3: described clamp mechanism 6 is mainly by pushing block 61, clamp push rod 62, step slide block 63 and clamping cylinder 64 form, clamping push rod 62 1 ends is the intrados that cooperatively interacts with woollen external diameter, its other end is provided with spherical stopper 621, step slide block 63 one sides have two different grooves of the depth, two grooves are by the slope transition, described pushing block 61 is arranged on the below of main fixed block 13, pushing block 61 connects clamping cylinder 64 by floating junction 65, two step slide blocks 63 are symmetricly set on pushing block 61 two ends, and step slide block 63 groove surfaces arrange towards the horizontal channel of main fixed block 13 II, two clamp the II both sides, horizontal channel that push rod 62 is located in respectively main fixed block 13, and cambered surface one end that clamps push rod 62 arranges towards woollen machining position 14, its spherical stopper 621 1 ends are against in the groove of step slide block 63, and are provided with back-moving spring between spherical stopper 621 and the main fixed block 13.As shown in Figure 5: clamping push rod 62 1 ends is the intrados that cooperatively interacts with woollen external diameter, and its other end is provided with spherical stopper 621.

[0030]When woolen cloth enters woollen machining position 14, start clamping cylinder 64, promote to move on the pushing block 61, thereby step slide block 63 moves up, the spherical stopper 621 that is against darker groove moves in the more shallow groove by the slope, the horizontal level that clamp push rod 62 this moment just changes, and two clamp simultaneously inwardly extruding of push rod 62, realized the effect that woolen cloth is clamped.

As shown in Figure 6: after materials in the tube 7 clamping and positioning, move thereby start propulsion cylinder 44 promotion adjustment bolts 43 drive active drifts 41, under the effect of active drift 41 and discharge ram 52, finish the chamfering at two sides processing of materials in the tube 7.

As shown in Figure 7: after materials in the tube 7 chamfer machining were complete, initiatively drift 41 started progressive cylinder 54 this moment owing to the effect of back-moving spring returns to initial position, promotes discharge ram 52 and pushes ahead, and materials in the tube 7 are released woollen machining position 14.

The workflow of double end automatic chamfering equipment of the present utility model is: the woolen cloth that vibrating feeding mechanism 2 will need to process is transported to woollen machining position 14 by the conveying passage, by clamp mechanism 6 with woollen clamping and positioning, then finish chamfering at two sides to woolen cloth by punching chamfers mechanism 4 and shedding mechanism 5, the woolen cloth that will be processed by shedding mechanism 5 is at last released woollen machining position 14.Double end automatic chamfering equipment 1 of the present utility model, realized materials in the tube from material loading, clamp location, bilateral simultaneously chamfering and discharging operation Full-automatic mechanized chamfer machining, greatly improved production efficiency, reduced workman's labour intensity, saved cost of labor.2, realize the bilateral while chamfer machining of materials in the tube, can not cause materials in the tube deformation in the process, the rate of obviously reducing the number of rejects and seconds saves production cost, and improves Business Economic Benefit; 3, underproof woolen cloth can be identified, and with defective woollen rejecting, yield rate can be obviously improved.

Claims (7)

1. double end automatic chamfering equipment is characterized in that: described double end automatic chamfering equipment mainly is comprised of frame (1), vibrating feeding mechanism (2), top, a bottom position mechanism (3), punching chamfers mechanism (4), shedding mechanism (5) and clamp mechanism (6); Frame (1) mainly is made of base plate (11), intermediate plate (12) and main fixed block (13), intermediate plate (12) is vertically set on the base plate (11), main fixed block (13) is arranged on the sidewall of intermediate plate (12) one sides, described main fixed block (13) offers horizontal channel I, horizontal channel II and vertical channel, and three the mutual square crossing of passage consists of woollen machining position (14) at infall; Wherein, the blanking channel of vibrating feeding mechanism (2) and bottom top position mechanism (3) are arranged on the two ends of main fixed block (13) vertical channel, punching chamfers mechanism (4) and shedding mechanism (5) are separately positioned on the two ends of main fixed block (13) horizontal channel I, and two clamping elements of clamp mechanism (6) are arranged on the two ends of main fixed block (13) horizontal channel II.

2. a kind of double end automatic chamfering equipment as claimed in claim 1, it is characterized in that: described vibrating feeding mechanism (2) is mainly by vibrating feed dish (21), horizontal conveying passage (22) and blanking channel (23) form, vibrating feed dish (21) is arranged on the upper side relative with main fixed block (13) of intermediate plate (12), the discharging opening of vibrating feed dish (21) is connected with blanking channel (23) upper end by horizontal conveying passage (22), blanking channel (23) is located in the vertical channel of main fixed block (13), and blanking channel (23) lower end is concordant with woollen machining position (14) top.

3. a kind of double end automatic chamfering equipment as claimed in claim 1, it is characterized in that: described bottom top position mechanism (3) mainly is comprised of plunger (31) and buffer spring (32), plunger (31) is located in the vertical channel of main fixed block (13), its upper end is concordant with woollen machining position (14), described vertical channel lower end closed arranges buffer spring (32) between plunger (31) and the main fixed block (13).

4. a kind of double end automatic chamfering equipment as claimed in claim 1, it is characterized in that: described punching chamfers mechanism (4) is mainly by active drift (41), drift guide pad (42), adjust bolt (43), propulsion cylinder (44) and back-moving spring form, drift guide pad (42) is fixedly installed on the frame (1), the drift guide pad offers the through hole that aligns with the horizontal channel I on (42), described active drift (41) one ends pass through hole, its other end is arranged with adjusts bolt (43), propulsion cylinder (44) is arranged on adjusts bolt (43) one sides, is provided with back-moving spring between described adjustment bolt (43) and the drift guide pad (42).

5. a kind of double end automatic chamfering equipment as claimed in claim 1, it is characterized in that: described shedding mechanism (5) is mainly by discharge plate (51), discharge ram (52), caging bolt (53), progressive cylinder (54) and back-moving spring form, described intermediate plate (12) offers the through hole corresponding with the horizontal channel I, an end face of discharge ram (52) is provided with the chamfering inclined-plane, and the end that discharge ram (52) is provided with the chamfering inclined-plane is located in the through hole of intermediate plate (12), its other end passes discharge plate (51) and is connected with progressive cylinder (54), caging bolt (53) is set on the discharge ram (52) between intermediate plate (12) and the discharge plate (51), and is provided with back-moving spring between caging bolt (53) and the intermediate plate (12).

6. a kind of double end automatic chamfering equipment as claimed in claim 1, it is characterized in that: described clamp mechanism (6) is mainly by pushing block (61), clamp push rod (62), step slide block (63) and clamping cylinder (64) form, clamping push rod (62) one ends is the intrados that cooperatively interacts with woollen external diameter, its other end is provided with spherical stopper (621), step slide block (63) one side has two different grooves of the depth, two grooves are by the slope transition, described pushing block (61) is arranged on the below of main fixed block (13), pushing block (61) connects clamping cylinder (64) by floating junction (65), two step slide blocks (63) are symmetricly set on pushing block (61) two ends, and step slide block (63) groove surface arranges towards the horizontal channel of main fixed block (13) II, two clamp the II both sides, horizontal channel that push rod (62) is located in respectively main fixed block (13), and cambered surface one end that clamps push rod (62) arranges towards woollen machining position (14), its spherical stopper (621) one ends are against in the groove of step slide block (63), and are provided with back-moving spring between spherical stopper (621) and the main fixed block (13).

7. a kind of double end automatic chamfering equipment as claimed in claim 1, it is characterized in that: described active drift (41) is the step drift, comprises two sections cylinders that diameter is different, and wherein the chamfering inclined-plane is arranged on the larger drift cylinder of diameter.

Images