CN205363409U - Magnetic drill auxiliary device that drills - Google Patents

Abstract

The utility model provides a magnetic drill auxiliary device that drills, includes support (1), first slide rail (2) and second slide rail (18), permanent magnet (14), a balance cylinder (9) and the 2nd balance cylinder (20) be connected with support (1), respectively with slide linkage's first slider (3) and second slider (19), with crossbeam (12) that first slider (3) and second slider (19) are connected, with crossbeam (12) sliding connection's slide (17), can dismantle the connection is in magnetic drill (10) on slide (17), with first push rod (4) that first slider (3) and a balance cylinder (9) are connected, with second push rod (21) that second slider (19) and the 2nd balance cylinder (20) are connected, a locking mechanism (5) and the 2nd locking mechanism (8), the 3rd locking mechanism (23) and fourth locking mechanism (13), the 5th locking mechanism (6), the 6th locking mechanism (22), the 7th locking mechanism (11).

Description

Magnetic drill drilling aid

Technical field

This utility model relates to Machining Technology field, the auxiliary device used when especially relating to the boring of a kind of magnetic drill.

Background technology

Large-sized structural parts it is frequently necessary to when assembling join brill group hole, and boring is a kind of important production process in mechanical assembly process, in existing drilling equipment, electric hand drill and magnetic drill are used widely, electric hand drill precision is low, and bore diameter is little, it is impossible to meet the technological requirement of large-sized structural parts assembling.Magnetic drill is the mobile rig of a kind of function admirable, and because base has one piece of strong magnets, during bore operation, utilizing powerful magnet for adsorption is on steel workpiece, operates Portable power saving, and efficiency is high, can clamp the drill bit of diameter phi 10-φ more than 38.Though magnetic drill can meet technological requirement, but separate unit weight is relatively big, wastes time and energy during workman's hand-held, and production efficiency is low, and there is unsafe factor.

CN204565206U discloses and a kind of profiled inner wall carries out the auxiliary device that magnetic force is boring, this auxiliary device includes base plate, arc and multiple support parts, support parts and include the first support member, second support member, 3rd support member and the 4th support member, base plate two ends are vertically and fixedly provided with two first support members symmetrically, the middle part of base plate is vertically and fixedly provided with the second support member, this second support member butts up against on the 3rd support member, the bending place of arc is provided with screw, 3rd support member passes the through hole in the middle part of arc and is exposed to outside arc, arc is provided with to the lateral symmetry of through hole two screw holes, two adjustable supporting screws it are provided with in screw hole；Being vertically and fixedly provided with the 4th support member in the bottom of base plate, the 4th support member and the second support member, the 3rd support member are on same straight line.The auxiliary device of this invention is applicable to the machining of irregular inwall, it is possible to prevent from damaging, injuring by a crashing object personnel and inwall, improves quality and efficiency.

But still Problems existing in following production process cannot be solved: because of magnetic drill heavier-weight, processing each hole and be required for adopting driving to play magnetic drill to hole, proof time is long, takies driving for a long time, and in the process of hole, labor intensity is bigger.Working (machining) efficiency is relatively low, therefore in the urgent need to making novel machining tool, improves work efficiency.

Utility model content

In order to overcome the defect of prior art, this utility model solves the technical problem that and is in that: provide one location rapidly, labor intensity can be greatly lowered, improve the magnetic drill drilling aid of drilling efficiency.

In order to solve above-mentioned technical problem, this utility model provides magnetic drill drilling aid, and this auxiliary device includes bearing；It is connected with the symmetrical both sides of described bearing, and the first slide rail being parallel to each other and the second slide rail；The permanent magnet being connected with described bearing；The first slide block being slidably connected with described first slide rail；The second slide block being slidably connected with described second slide rail；The crossbeam that two ends are connected with described first slide block and the second slide block respectively；At least one the 3rd slide rail being connected on described crossbeam；The slide plate being slidably connected with described 3rd slide rail；It is detachably connected on the magnetic drill on described slide plate；It is connected to the first compensating cylinder on described bearing and the second compensating cylinder；The first push rod being connected with described first slide block and the first compensating cylinder；The second push rod being connected with described second slide block and the second compensating cylinder；It is connected with the both ends of described first push rod respectively, for the first lockable mechanism being connected with the first slide block and the second lockable mechanism；It is connected with the both ends of described second push rod respectively, for the 3rd lockable mechanism being connected with the second slide block and the 4th lockable mechanism；It is connected with described first slide block, for the position of the first slide block being carried out the 5th lockable mechanism of locking；It is connected with described second slide block, for the position of the second slide block being carried out the 6th lockable mechanism of locking；It is connected with described slide plate, for the position of described magnetic drill being carried out the 7th lockable mechanism of locking.

As further improvement opportunity scheme, the magnetic drill drilling aid that this utility model provides, also have and be connected on the first compensating cylinder for described first push rod being carried out the 8th lockable mechanism of locking；It is connected on the second compensating cylinder for described second push rod being carried out the 9th lockable mechanism of locking.

As further improvement opportunity scheme, the magnetic drill drilling aid that this utility model provides, described first lockable mechanism, the second lockable mechanism, the 3rd lockable mechanism, the 4th lockable mechanism, the 5th lockable mechanism, the 6th lockable mechanism, the 7th lockable mechanism, the 8th lockable mechanism or the 9th lockable mechanism are the clamping screw being connected to handle, and each clamping screw is threadeded with respective connection member.

As further improvement opportunity scheme, the magnetic drill drilling aid that this utility model provides, the gravity being subject to when described first compensating cylinder is for providing and being loaded with magnetic drill with the first push rod reaches the mechanism of balance；The gravity being subject to when described second compensating cylinder is for providing and being loaded with magnetic drill with the second push rod reaches the mechanism of balance.

As further improvement opportunity scheme, the magnetic drill drilling aid that this utility model provides, described first compensating cylinder and the second compensating cylinder are balance cylinder or balancing cylinder.

As further improvement opportunity scheme, the magnetic drill drilling aid that this utility model provides, described first compensating cylinder and the second compensating cylinder all include U-tube；The piston rod being slidably connected with described U-tube side inside pipe wall；Be filled in described U-tube, and with the first liquid of described plunger rod contacts；It is slidably connected with described U-tube inwall, and the shading ring that one of them end face contacts with described first liquid；Be filled in described U-tube, and with another end contact of described shading ring, relying on gravity is the second liquid that described piston rod provides thrust, and the proportion of described second liquid is more than the proportion of described first liquid.

As further improvement opportunity scheme, the magnetic drill drilling aid that this utility model provides, described first liquid is hydraulic oil；Described second liquid is mercury metal.

When not conflicting, aforementioned improved scheme can be implemented alone or in combination.

The technical scheme that this utility model provides, because being provided with two compensating cylinders, in vertical direction, the gravity that the support force that compensating cylinder provides and magnetic drill and travel mechanism thereof are subject to reaches balance, makes magnetic drill be prone to slide up and down along the first slide rail and the second slide rail direction；Magnetic drill is slidably connected by slide plate and crossbeam, makes magnetic drill can easily be accommodated in the horizontal direction, thus when processing group hole, it is not necessary to take driving for a long time, only need to use driving when installation and removal；During boring, location is flexibly, convenient, the time is short.

Accompanying drawing explanation

Accompanying drawing is used for providing being further appreciated by of the present utility model, constitutes the part of the application, but is not intended that improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the main TV structure schematic diagram of embodiment magnetic drill drilling aid；

Fig. 2 is the left view structural representation of Fig. 1；

Fig. 3 is that the A-A of Fig. 1 is to structural representation；

Fig. 4 is the perspective view of embodiment magnetic drill drilling aid；

Fig. 5 is the balance cylinder structure schematic diagram of embodiment magnetic drill drilling aid.

Detailed description of the invention

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described in further detail.

nullMagnetic drill drilling aid as shown in Figures 1 to 4，This auxiliary device includes bearing 1，It is connected with the symmetrical both sides of bearing 1、And the first slide rail 2 and the second slide rail 18 being parallel to each other，The permanent magnet 14 being connected with bearing 1，The first slide block 3 being slidably connected with the first slide rail 2，The second slide block 19 being slidably connected with the second slide rail 18，The crossbeam 12 that two ends are connected with the first slide block 3 and the second slide block 19 respectively，At least one the 3rd slide rail 15 being connected on crossbeam 12，The slide plate 17 being slidably connected with the 3rd slide rail 15，It is detachably connected on the magnetic drill 10 on slide plate 17，It is connected to the first compensating cylinder 9 and the second compensating cylinder 20 on bearing 1，The first push rod 4 being connected with the first slide block 3 and the first compensating cylinder 9，The second push rod 21 being connected with the second slide block 19 and the second compensating cylinder 20，It is connected with the both ends of the first push rod 4 respectively，For the first lockable mechanism 5 and the second lockable mechanism 8 being connected with the first slide block 3，It is connected with the both ends of the second push rod 21 respectively，For the 3rd lockable mechanism 23 and the 4th lockable mechanism 13 being connected with the second slide block 19，It is connected with the first slide block 3，For the position of the first slide block 3 being carried out the 5th lockable mechanism 6 of locking，It is connected with the second slide block 19，For the position of the second slide block 19 being carried out the 6th lockable mechanism 22 of locking，It is connected with slide plate 17，For the position of magnetic drill 10 being carried out the 7th lockable mechanism 11 of locking，It is connected on the first compensating cylinder 9 for described first push rod 4 being carried out the 8th lockable mechanism 7 of locking，It is connected on the second compensating cylinder 20 for the second push rod 21 being carried out the 9th lockable mechanism 16 of locking.

In the present embodiment, first lockable mechanism the 5, second lockable mechanism the 8, the 3rd lockable mechanism the 23, the 4th lockable mechanism the 13, the 5th lockable mechanism the 6, the 6th lockable mechanism the 22, the 7th lockable mechanism the 11, the 8th lockable mechanism 7 and the 9th lockable mechanism 16 are the clamping screw being connected to handle, and each clamping screw is threadeded with respective connection member.

The gravity that in the present embodiment, the first compensating cylinder 9 is subject to when being loaded with magnetic drill 10 for offer and the first push rod 4 reaches the balancing cylinder of balance；The gravity being subject to when second compensating cylinder 20 is for providing and being loaded with magnetic drill 10 with the second push rod 21 reaches the balancing cylinder of balance.As shown in Figure 5, first compensating cylinder 9 is identical with the structure of the second compensating cylinder 20, all include the U-tube 901 being connected on the bearing 1 of magnetic drill drilling aid, the piston rod 902 being slidably connected with U-tube 901 side inside pipe wall, it is filled in U-tube 901, and the hydraulic oil 903 contacted with piston rod 902, it is slidably connected with U-tube 901 inwall, and the shading ring 905 that one of them end face contacts with hydraulic oil 903, it is filled in U-tube 901, and with another end contact of shading ring 905, rely on gravity to provide the mercury metal 904 of thrust for piston rod 902.The piston rod 902 of the first balancing cylinder 9 is parallel with the first slide rail 2, and the piston rod of the second balancing cylinder 20 is parallel with the second slide rail 18, so makes the first balancing cylinder 9 and the piston rod of the second balancing cylinder 20 and the drill bit of described magnetic drill 10 be mutually perpendicular to.

First slide rail 2 and the second slide rail 18 are connected on a surface of bearing 1, and permanent magnet 14 is connected to the first slide rail 2 and the second slide rail 18 is connected on the anti-surface on surface with bearing 1.

Operation principle: when bearing 1 stands arrangement, first slide block the 3, second slide block 19, crossbeam 12, slide plate 17, magnetic drill the 10, first push rod the 4, second push rod 21 etc. produce a downward gravity, first compensating cylinder 9 and the second compensating cylinder 20 provide support force upwards, in vertical direction, the gravity that the support force that first compensating cylinder 9 and the second compensating cylinder 20 provide and magnetic drill 10 and travel mechanism thereof are subject to reaches balance, makes magnetic drill 10 be prone to slide up and down along the first slide rail 2 and the second slide rail 18 direction in vertical direction；Magnetic drill 10 is slidably connected by slide plate 17 and crossbeam 12, makes magnetic drill 10 can easily be accommodated in the horizontal direction.

The permanent magnet 14 being connected with bearing 1, when contacting with steel hole to be drilled, can be attached together with steel hole to be drilled, for hold-down support 1；Magnetic drill 10 can be fixed on slide plate 17 by its Magnet, thus when processing group hole, it is not necessary to take driving for a long time, only need to use driving when installation and removal.

nullWhen magnetic drill 10 need to move up and down or when upper-lower position is fixing，By unscrewing the 5th lockable mechanism 6、6th lockable mechanism 22、After 8th lockable mechanism 7 and the 9th lockable mechanism 16，First slide block 3、Second slide block 19 and crossbeam 12 in connection、First push rod 4 and the second push rod 21 can in the first slide rail 2 and the second slide rail 18 axially lower slider，The gravity that the upwards support force provided because of the first compensating cylinder 9 and the second compensating cylinder 20 and magnetic drill 10 and travel mechanism thereof are subject to reaches balance，Can be flexible in vertical ground direction、Move magnetic drill 10 easily，By the 5th lockable mechanism 6、6th lockable mechanism 22、After 8th lockable mechanism 7 and the locking of the 9th lockable mechanism 16，First slide block 3、Second slide block 19、First push rod 4、The position of the second push rod 21 and crossbeam 12 is fixed；Unscrew the 7th lockable mechanism 11, slide plate 17 can slide along crossbeam 12, can move magnetic drill 10 in the horizontal direction flexibly, and after being locked by seven lockable mechanisms 11, magnetic drill 10 position in the horizontal direction is fixed.Boring location is flexibly, convenient, the time is short.

First lockable mechanism the 5, second lockable mechanism the 8, the 3rd lockable mechanism the 23, the 4th lockable mechanism 13 is for the connection with first slide block the 3, second slide block 19, when the first lockable mechanism 5 is connected with the first slide block 3, when 3rd lockable mechanism 23 is connected with two slide blocks 19, the convenient hole boring top；It is connected with the first slide block 3 when switching to the second lockable mechanism 8, when the 4th lockable mechanism 13 is connected with the second slide block 19, the convenient hole boring bottom.

Complete boring procedure, is fixed on processed product including by drilling aid, the first half group hole of processing processed product, and magnetic drill 10 and drilling aid are unloaded inferior process by the group hole, lower half of processing processed product.

Bearing 1 is sling, is adsorbed on processed product by permanent magnet 14；After first lockable mechanism the 5, the 3rd lockable mechanism the 23, the 5th lockable mechanism 6 and the 6th lockable mechanism 22 being unscrewed, promote the mobile top to the first push rod 4 and the second push rod 21 of crossbeam 12, then by the first lockable mechanism the 5, the 3rd lockable mechanism 23 locking；After first push rod 4 and the second push rod 21 are moved to the top of bearing 1, by the 8th lockable mechanism 7 and the 9th lockable mechanism 16 locking；Magnetic drill 10 is hung on bearing, is adsorbed on slide plate 17 by the permanent magnet of magnetic drill 10.

Processing first half group hole: for position hole to be drilled, before each hole drilling, after 8th lockable mechanism the 7, the 9th lockable mechanism the 16, the 5th lockable mechanism 6 and the 6th lockable mechanism 22 are loosened, the drill bit position in the vertical direction regulating magnetic drill 10 aligns with position hole to be drilled, then by the 8th lockable mechanism the 7, the 9th lockable mechanism the 16, the 5th lockable mechanism 6 and the 6th lockable mechanism 22 locking；After being loosened by 7th lockable mechanism 11, move in the horizontal direction magnetic drill 10, make the drill bit position in the horizontal direction of magnetic drill 10 and position hole to be drilled align；Then by the 7th lockable mechanism 11 locking.Hole.Repeat the location work of magnetic drill 10, until the first half hole all machines.

Processing group hole, lower half: after the 8th lockable mechanism 7 and the 9th lockable mechanism 16 being loosened, push down on crossbeam 12, moves to bottom by the first push rod 4 and the second push rod 21；After first lockable mechanism the 5, the 3rd lockable mechanism the 23, the 5th lockable mechanism 6 and the 6th lockable mechanism 22 are unscrewed, crossbeam 12 is moved to the bottom of the first push rod 4 and the second push rod 21, by the second lockable mechanism the 8, the 4th lockable mechanism 13 locking, crossbeam 12 is made to be fixed on the bottom of the first push rod 4 and the second push rod 21.Then the location work of magnetic drill 10 is repeated, until hole, the latter half all machines.

After machining, magnetic drill 10 and bearing 1 are hung down successively.

Obviously, this utility model is not limited to above preferred implementation, also in the spirit that this utility model claim and description limit, can carry out conversion and the improvement of various ways, can solve same technical problem, and obtain intended technique effect, therefore not repeat.Those of ordinary skill in the art can from this utility model disclosure directly or all schemes associated, as long as within the spirit that claim limits, falling within protection domain of the present utility model.

Claims (7)

1. a magnetic drill drilling aid, it is characterised in that this auxiliary device includes bearing (1)；It is connected with the symmetrical both sides of described bearing (1), and the first slide rail (2) being parallel to each other and the second slide rail (18)；The permanent magnet (14) being connected with described bearing (1)；The first slide block (3) being slidably connected with described first slide rail (2)；The second slide block (19) being slidably connected with described second slide rail (18)；The crossbeam (12) that two ends are connected with described first slide block (3) and the second slide block (19) respectively；At least one the 3rd slide rail (15) being connected on described crossbeam (12)；The slide plate (17) being slidably connected with described 3rd slide rail (15)；It is detachably connected on the magnetic drill (10) on described slide plate (17)；It is connected to the first compensating cylinder (9) on described bearing (1) and the second compensating cylinder (20)；The first push rod (4) being connected with described first slide block (3) and the first compensating cylinder (9)；The second push rod (21) being connected with described second slide block (19) and the second compensating cylinder (20)；It is connected with the both ends of described first push rod (4) respectively, for the first lockable mechanism (5) being connected with the first slide block (3) and the second lockable mechanism (8)；It is connected with the both ends of described second push rod (21) respectively, for the 3rd lockable mechanism (23) being connected with the second slide block (19) and the 4th lockable mechanism (13)；It is connected with described first slide block (3), for the position of the first slide block (3) being carried out the 5th lockable mechanism (6) of locking；It is connected with described second slide block (19), for the position of the second slide block (19) being carried out the 6th lockable mechanism (22) of locking；It is connected with described slide plate (17), for the position of described magnetic drill (10) being carried out the 7th lockable mechanism (11) of locking.

2. magnetic drill drilling aid according to claim 1, it is characterised in that also have and be connected to upper the 8th lockable mechanism (7) for described first push rod (4) being carried out locking of the first compensating cylinder (9)；It is connected to upper the 9th lockable mechanism (16) for described second push rod (21) being carried out locking of the second compensating cylinder (20).

3. magnetic drill drilling aid according to claim 2, it is characterized in that, described first lockable mechanism (5), the second lockable mechanism (8), the 3rd lockable mechanism (23), the 4th lockable mechanism (13), the 5th lockable mechanism (6), the 6th lockable mechanism (22), the 7th lockable mechanism (11), the 8th lockable mechanism (7) or the 9th lockable mechanism (16) are the clamping screw being connected to handle, and each clamping screw is threadeded with respective connection member.

4. magnetic drill drilling aid according to claim 1, it is characterised in that the gravity being subject to when described first compensating cylinder (9) is for providing and being loaded with magnetic drill (10) with the first push rod (4) reaches the mechanism of balance；The gravity being subject to when described second compensating cylinder (20) is for providing and being loaded with magnetic drill (10) with the second push rod (21) reaches the mechanism of balance.

5. the magnetic drill drilling aid according to claim 1 or 4, it is characterised in that described first compensating cylinder (9) and the second compensating cylinder (20) are balance cylinder or balancing cylinder.

6. the magnetic drill drilling aid according to claim 1 or 4, it is characterised in that described first compensating cylinder (9) and the second compensating cylinder (20) all include U-tube (901)；The piston rod (902) being slidably connected with described U-tube (901) side inside pipe wall；It is filled in described U-tube (901), and the first liquid (903) contacted with described piston rod (902)；It is slidably connected with described U-tube (901) inwall, and the shading ring (905) that one of them end face contacts with described first liquid (903)；It is filled in described U-tube (901), and with another end contact of described shading ring (905), relying on gravity is the second liquid (904) that described piston rod (902) provides thrust, and the proportion of described second liquid (904) is more than the proportion of described first liquid (903).

7. magnetic drill drilling aid according to claim 6, it is characterised in that described first liquid (903) is hydraulic oil；Described second liquid (904) is mercury metal.