CN210969460U - Carrier for fetching and placing neodymium iron boron wire cutting disc - Google Patents

Abstract

The utility model discloses a carrier for neodymium iron boron wire-electrode cutting dish is got and is put, it includes the fortune frame (2) with wire-electrode cutting dish (1) cooperation, fortune frame (2) includes support body (2.1), two yoke arms (2.2), yoke arm (2.2) tip is equipped with tray (2.3), be equipped with in tray (2.3) and hold in the palm groove (2.4), the bottom surface of holding in the palm groove (2.4) offsets with the bottom surface of wire-electrode cutting dish (1), the side of holding in the palm groove (2.4) offsets with the lateral wall of wire-electrode cutting dish (1), be equipped with between yoke arm (2.2) and support body (2.1) and be used for adjusting yoke arm (2.2) load the angle adjusting part (3) of the angle of crossing of wire-electrode cutting dish (1), angle adjusting part (3) includes adjusting bracket (3.1), adjusting bolt (3.2), adjusting part (3.1) is fixed on support body (2.1), yoke arm (2.2) stretches into adjusting bracket (3.1) and adjusting bracket's lateral wall is articulated, the bottom of the adjusting frame (3.1) is provided with an adjusting bolt hole. The utility model provides a can neodymium iron boron wire-electrode cutting dish get put, get stable, the laborsaving carrier of getting is used for neodymium iron boron wire-electrode cutting dish to get to put by accurate.

Description

Carrier for fetching and placing neodymium iron boron wire cutting disc

Technical Field

The utility model relates to a neodymium iron boron magnetism body technical field, concretely relates to a carrier that is used for neodymium iron boron wire-electrode cutting dish to get to put.

Background

The multi-thread cutting is a process of neodymium iron boron magnetic sheet product processing, for the convenience of the processing of neodymium iron boron square piece material, common processing mode is on using glue to bond the wire cut dish with the square product, then move into the wire cut dish and carry out the wire-electrode cutting with the wire-electrode cutting machine again, neodymium iron boron square weight is great, it is more difficult in with artifical transport and putting into the wire cut machine, and place the precision and hardly hold, and the fork arm of current fork truck also hardly realizes the accuracy of cutting dish and gets and put.

Disclosure of Invention

The utility model discloses the technical problem that will solve is: the carrier for picking and placing the neodymium iron boron wire cutting disc is stable in picking and placing and labor-saving in operation.

The utility model provides a technical scheme that above-mentioned problem adopted does: a carrier that is used for neodymium iron boron wire-electrode cutting dish to get to put which characterized in that: it includes and carries the frame with wire-electrode cutting dish complex, it includes support body, two yoke, the yoke tip is equipped with the tray, be equipped with in the tray and hold in the palm the groove, the bottom surface that holds in the palm the groove offsets with the bottom surface of wire-electrode cutting dish, the side that holds in the palm the groove offsets with the lateral wall of wire-electrode cutting dish, be equipped with the angle adjusting part who is used for adjusting the fork arm to load the angle of fork income of wire-electrode cutting dish between yoke and the support body support, angle adjusting part includes alignment jig, adjusting bolt, the alignment jig is fixed on the support body, the yoke stretches into in the alignment jig and articulated with the lateral wall of alignment jig, the bottom of alignment jig is equipped with adjusting screw hole, adjusting bolt threaded connection is downthehole and offsets with the bottom surface of yoke at adjusting screw.

Preferably, the frame body is arranged on a fork frame of the forklift, and a transverse adjusting mechanism for adjusting the horizontal position of the frame body is arranged between the fork frame and the frame body.

Preferably, the transverse adjusting mechanism comprises a transverse frame, a limiting sleeve, a hand-operated wheel, a main rotating shaft, a main gear, a pinion, a lead screw and a nut, the cross frame is transversely fixed on the fork frame, the frame body extends towards the cross frame and is provided with a hanging plate, the lower end surface of the hanging plate is matched with the upper end surface of the cross frame so that the frame body is erected on the cross frame, the limiting sleeve is fixed on one side of the transverse frame, the main rotating shaft is rotatably arranged in the limiting sleeve, the hand wheel is arranged at one end of the main rotating shaft, the main gear is arranged at the other end of the main rotating shaft, the screw nut is fixed on the frame body, the screw rod is in running fit with the screw nut, the pinion is arranged at one end of the screw rod and is meshed with the main gear, the axis collineation of lead screw, pinion and with the setting direction unanimity of crossbearer, the axis collineation of spacing sleeve pipe, hand wheel, main rotation axis, master gear and with the setting direction of crossbearer perpendicular.

Preferably, be equipped with first leading truck, first leading wheel between the up end on the bottom surface of link plate and the crossbearer, first leading truck sets up the up end at the crossbearer, be equipped with the first guide way unanimous with the crossbearer that sets up the direction in the first leading truck, first leading wheel sets up in the bottom surface of link plate and realizes the direction with two lateral walls cooperations of first guide way.

Preferably, the transverse adjusting mechanism further comprises a secondary beam, the secondary beam is fixed on the fork frame and located below the cross frame, a baffle extends towards the secondary beam at the lower end of the frame body, a second guide wheel is arranged on the top surface of the baffle, a second guide frame is arranged on the lower end surface of the secondary beam, a second guide groove consistent with the arrangement direction of the secondary beam is formed in the second guide frame, and the second guide wheel is arranged in the second guide groove in a rolling mode and matched with two side walls of the second guide groove to achieve guiding.

Preferably, the frame body is further provided with a third guide wheel, and the third guide wheel is arranged on the top surface of the auxiliary beam in a rolling mode.

Compared with the prior art, the utility model has the advantages of: the support body can set up on fork truck's crotch, realize the transport and the placing of the wire-electrode cutting dish on support body and the support body through fork truck, time saving and labor saving, the support groove of two tray is lifted with the cooperation of wire-electrode cutting dish, it is stable to lift, and remove the cutting position in the wire-electrode cutting machine with the wire-electrode cutting dish at fork truck, can be through the adjustment of adjusting bolt with the regulation of the angle of fork arm's fork income, realize the slope with the wire-electrode cutting dish accurate positioning to the cutting position place after leveling again, the artificial accurate process of placing to the cutting position of simulation, and can adjust the transverse position of wire-electrode cutting dish through horizontal regulation structure, further the wire-electrode cutting dish is placed to the accuracy.

Drawings

Fig. 1 is the structural schematic diagram of the carrying frame of the present invention.

Fig. 2 is a schematic side view of the overall structure of the present invention.

Fig. 3 is a schematic view of the overall structure of the present invention.

Shown in the figure: 1. a wire cutting disc; 2. carrying frames; 2.1, a frame body; 2.2, a fork arm; 2.3, a support block; 2.4, a bracket; 2.5, hanging the board; 3. an angle adjustment assembly; 3.1, adjusting frames; 3.2, adjusting the bolt; 4. a forklift; 4.1, fork; 5. a lateral adjustment mechanism; 5.1, a transverse frame; 5.2, limiting a sleeve; 5.3, a hand-operated wheel; 5.4, a main rotating shaft; 5.5, a main gear; 5.6, pinion; 5.7, a lead screw; 5.8, a screw nut; 5.9, a first guide frame; 5.10, a first guide wheel; 5.11, secondary beam; 5.12, a baffle plate; 5.13, a second guide wheel; 5.14, a second guide frame; 5.15 and a third guide wheel.

Detailed Description

Embodiments of the present invention are further described below with reference to the accompanying drawings.

As shown in FIGS. 1-3,

the utility model provides a carrier that is used for neodymium iron boron wire-electrode cutting dish to put, it includes with wire-electrode cutting dish 1 complex fortune carrier 2, fortune carrier 2 includes support body 2.1, two yoke 2.2, yoke 2.2 tip is equipped with tray 2.3, be equipped with in the tray 2.3 and hold in the palm groove 2.4, the bottom surface that holds in the palm groove 2.4 offsets with the bottom surface of wire-electrode cutting dish 1, the side that holds in the palm groove 2.4 offsets with the lateral wall of wire-electrode cutting dish 1, be equipped with between yoke 2.2 and the support body 2.1 support and be used for adjusting yoke 2.2 to load the angle adjusting part 3 of the angle of fork income angle of wire-electrode cutting dish 1, angle adjusting part 3 includes adjusting bracket 3.1, adjusting bolt 3.2, adjusting bolt 3.1 is fixed on support body 2.1, yoke 2.2 stretches into adjusting bracket 3.1 and is articulated with the lateral wall of adjusting bracket 3.1, adjusting bolt 3.1's bottom is equipped with the adjusting bolt hole, adjusting bolt 3.2 threaded connection just offsets with the bottom surface of yoke 2.2.

Because the one end of yoke 2.2 is articulated with alignment jig 3.1, and the bottom of alignment jig 3.1 offsets through adjusting bolt 3.2 and the bottom of yoke 2.2, so can adjust the angle of lifting up of yoke 2.2 through adjusting bolt 3.2 at the downthehole degree of screwing of adjusting bolt 3.1's adjusting screw, thereby guarantee that tray 2.3 can produce a cooperation angle that can adjust with the cutting position when placing or taking out wire-electrode cutting dish 1, improve when wire-electrode cutting dish 1 is placed and place the accuracy, provide the angle of fork when taking out wire-electrode cutting dish 1.

Wherein, the support body 2.1 is arranged on a fork frame 4.1 of the forklift 4, and a transverse adjusting mechanism 5 for adjusting the horizontal position of the support body 3.1 and the support body 2.1 is arranged between the fork frame 4.1 and the support body 2.1.

Wherein, the transverse adjusting mechanism 5 comprises a transverse frame 5.1, a limit sleeve 5.2, a hand wheel 5.3, a main rotating shaft 5.4, a master gear 5.5, a pinion 5.6, a lead screw 5.7 and a nut 5.8, the transverse frame 5.1 is transversely fixed on a fork frame 4.1, a frame body 2.1 extends towards the transverse frame 5.1 and is provided with a hanging plate 2.5, the lower end surface of the hanging plate 2.5 is matched with the upper end surface of the transverse frame 5.1 to ensure that the frame body 2.1 is erected on the transverse frame 5.1, the limit sleeve 5.2 is fixed on one side of the transverse frame 5.1, the main rotating shaft 5.4 is rotatably arranged in the limit sleeve 5.2, the hand wheel 5.3 is arranged at one end of the main rotating shaft 5.4, the master gear 5.5 is arranged at the other end of the main rotating shaft 5.4, the nut 5.8 is fixed on the frame body 2.1, the lead screw 5.7 is rotatably matched with the nut 5.8, the pinion 5.6 is arranged at one end of the lead screw 5.7 and is meshed with the master gear 5.5.7, the lead screw 5.5.5, the hand wheel and the auxiliary gear 5., The axes of the main rotating shaft 5.4 and the main gear 5.5 are collinear and are vertical to the arrangement direction of the cross frame 5.1.

The main gear 5.5 is driven to rotate by the hand wheel 5.3, the auxiliary gear 5.6 is driven by the main gear 5.5, and the lead screw 5.7 is matched with the screw nut 5.8, so that the frame body 2.1 can move transversely relative to the fork frame 4.1, the position on the fork arm 2.2 can be transversely adjusted, the transverse adjustment is provided when the wire cutting disc 1 is arranged in a cutting position, and the position of the bracket 2.4 of the supporting block 2.3 can be adjusted when the wire cutting disc 1 is taken out from the cutting position, so that the bracket 2.4 is correspondingly matched with the wire cutting disc 1.

Wherein, be equipped with first leading truck 5.9, first leading wheel 5.10 between the bottom surface of link plate 2.5 and the up end on crossbearer 5.1, first leading truck 5.9 sets up the up end at crossbearer 5.1, is equipped with the first guide way unanimous with crossbearer 5.1's the direction that sets up in first leading truck 5.9, and first leading wheel 5.10 sets up in the bottom surface of link plate 2.5 and realizes leading with two lateral wall cooperations of first guide way.

The first guide wheel 5.10 moves in the first guide groove, and the first guide wheel 5.10 is arranged at the upper end of the cross frame 5.1 and is matched with the transverse adjusting mechanism 5 arranged at the lower end of the cross frame 5.1, so that the frame body 2.1 stably moves transversely on the cross frame 5.1.

The transverse adjusting mechanism 5 further comprises an auxiliary beam 5.11, the auxiliary beam 5.11 is fixed on the fork frame 4.1 and located below the cross frame 5.1, the lower end of the frame body 2.1 extends towards the auxiliary beam 5.11 to form a baffle 5.12, a second guide wheel 5.13 is arranged on the top surface of the baffle 5.12, a second guide frame 5.14 is arranged on the lower end face of the auxiliary beam 5.11, a second guide groove consistent with the arrangement direction of the auxiliary beam 5.11 is formed in the second guide frame 5.14, and the second guide wheel 5.13 is arranged in the second guide groove in a rolling mode and is matched with two side walls of the second guide groove to achieve guiding.

Wherein, still be equipped with third leading wheel 5.15 on the support body 2.1, third leading wheel 5.15 rolls and sets up in the top surface department of auxiliary girder 5.11.

The auxiliary beam 5.11 and the cross frame 5.1 are matched to jointly support the frame body 2.1, and through the matching of the second guide wheels 5.13 and the second guide grooves and the matching of the third guide wheels 5.15 and the auxiliary beam 5.11, the horizontal direction is transversely guided in a movable mode in the transverse adjusting mechanism 5.

The foregoing is illustrative of the preferred embodiments of the present invention only, and is not to be construed as limiting the claims. The present invention is not limited to the above embodiments, and the specific structure thereof is allowed to be changed. All changes which come within the scope of the independent claims of the invention are to be embraced within their scope.

Claims (6)

1. A carrier that is used for neodymium iron boron wire-electrode cutting dish to get to put which characterized in that: the wire cutting disc conveying device comprises a conveying frame (2) matched with a wire cutting disc (1), wherein the conveying frame (2) comprises a frame body (2.1) and two fork arms (2.2), supporting blocks (2.3) are arranged at the end parts of the fork arms (2.2), supporting grooves (2.4) are arranged in the supporting blocks (2.3), the bottom surfaces of the supporting grooves (2.4) are abutted to the bottom surface of the wire cutting disc (1), the side surfaces of the supporting grooves (2.4) are abutted to the side walls of the wire cutting disc (1), an angle adjusting assembly (3) used for adjusting the angle of the fork arms (2.2) for loading the wire cutting disc (1) is arranged between the fork arms (2.2) and a frame body (2.1), the angle adjusting assembly (3) comprises an adjusting frame (3.1) and an adjusting bolt (3.2), the adjusting frame (3.1) is fixed on the frame body (2.1), the fork arms (2.2) extend into the adjusting frame (3.1) and are hinged to the side walls of the adjusting frame (3.1) and the adjusting frame (3.1) is hinged to the adjusting frame (3.1), the adjusting bolt (3.2) is in threaded connection with the adjusting bolt hole and is abutted against the bottom surface of the fork arm (2.2).

2. A carrier for neodymium iron boron wire cutting disc pick-and-place according to claim 1, characterized in that: the support body (2.1) is arranged on a fork frame (4.1) of the forklift (4), and a transverse adjusting mechanism (5) used for adjusting the horizontal position of the support body (2.1) is arranged between the fork frame (4.1) and the support body (2.1).

3. A carrier for neodymium iron boron wire cutting disc pick-and-place according to claim 2, characterized in that: the transverse adjusting mechanism (5) comprises a transverse frame (5.1), a limiting sleeve (5.2), a hand wheel (5.3), a main rotating shaft (5.4), a main gear (5.5), an auxiliary gear (5.6), a lead screw (5.7) and a nut (5.8), wherein the transverse frame (5.1) is transversely fixed on a fork frame (4.1), the frame body (2.1) is provided with a hanging plate (2.5) towards the transverse frame (5.1) in an extending way, the lower end face of the hanging plate (2.5) is matched with the upper end face of the transverse frame (5.1) to enable the frame body (2.1) to be erected on the transverse frame (5.1), the limiting sleeve (5.2) is fixed on one side of the transverse frame (5.1), the main rotating shaft (5.4) is rotatably arranged in the limiting sleeve (5.2), the hand wheel (5.3) is arranged at one end of the main rotating shaft (5.4), the other end of the main rotating shaft (5.4) is fixed on the nut (5.8), and the lead screw (5.8) is rotatably matched with the nut (5.1), pinion (5.6) set up in the one end of lead screw (5.7) and mesh with master gear (5.5), the axis collineation of lead screw (5.7), screw (5.8), pinion (5.6) and unanimous with the direction that sets up of crossbearer (5.1), the axis collineation of spacing sleeve (5.2), hand wheel (5.3), main rotation axis (5.4), master gear (5.5) and perpendicular with the direction that sets up of crossbearer (5.1).

4. A carrier for neodymium iron boron wire cutting disc pick-and-place according to claim 3, characterized in that: be equipped with first leading truck (5.9), first leading wheel (5.10) between the bottom surface of link plate (2.5) and the up end on crossbearer (5.1), first leading truck (5.9) set up the up end at crossbearer (5.1), be equipped with in first leading truck (5.9) and set up the first guide way that the direction is unanimous with crossbearer (5.1), first leading wheel (5.10) set up in the bottom surface of link plate (2.5) and realize the direction with two lateral wall cooperations of first guide way.

5. A carrier for neodymium iron boron wire cutting disc pick-and-place according to claim 3, characterized in that: the transverse adjusting mechanism (5) further comprises an auxiliary beam (5.11), the auxiliary beam (5.11) is fixed on the fork frame (4.1) and located below the cross frame (5.1), the lower end of the frame body (2.1) extends towards the auxiliary beam (5.11) to form a baffle (5.12), the top surface of the baffle (5.12) is provided with a second guide wheel (5.13), the lower end face of the auxiliary beam (5.11) is provided with a second guide frame (5.14), the second guide frame (5.14) is provided with a second guide groove consistent with the arrangement direction of the auxiliary beam (5.11), and the second guide wheel (5.13) is arranged in the second guide groove in a rolling mode and is matched with two side walls of the second guide groove to achieve guiding.

6. A carrier for neodymium iron boron wire cutting disc picking and placing according to claim 5, characterized in that: the frame body (2.1) is further provided with a third guide wheel (5.15), and the third guide wheel (5.15) is arranged on the top surface of the auxiliary beam (5.11) in a rolling mode.

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