CN204747593U - Location structure in two sidetracking holes - Google Patents

Abstract

The utility model provides a location structure in two sidetracking holes, mainly by a frame, a radical location unit, the relative constitution of an axial adjustment unit and feeding unit institute, can always accomplish the feeding by this, the location, drilling processing, blanking and transport and all utilize the mechanical automation to accomplish, moreover the material piece can make the center processing position of work piece biax end all drop on the standard shaft point by two sidetracking spot facing works, reducible prior art is straight central error to the produced biax of drilling processing end always, add accurate processing of industry person and output, sign an undertaking and construct convenience and the practicality of using.

Description

The location structure of bilateral boring

Technical field

The utility model is the location structure about the boring of a kind of bilateral, especially a kind of reduce prior art always the straight innovation structure producing the errors of centration of twin shaft end to Drilling operation institute design.

Background technology

No matter in assembling or processing, boring is one of means conventional in industrial process, after the ring perimeter surface of prior art bore mode locate mode for multi-claw type clamping position materials and parts, then again by a Zuan Weizuo center pierce produce institute for process hole, but when boring tail and getting out from this materials and parts end, the drill center at its materials and parts two ends end to end can produce a little trueness error, and then the easily precision that coordinates of the follow-up discharging assembling of impact and spare part and quality person.

Therefore for the problem points existing for above-mentioned prior art structure, how to develop a kind of innovation structure having more desirable practicality, consumer is used eagerly to look forward in fact, also for relevant dealer must make great efforts target and the direction of researching and developing breakthrough; In view of this, utility model people this in manufacturing development and design experiences that to be engaged in Related product for many years, for above-mentioned target, in detail after design and scrupulous assessment, obtain the utility model of a true tool practicality eventually.

Utility model content

That is, main purpose of the present utility model is at the location structure providing a kind of bilateral to hole; Its for solve problem points, tail is bored when this materials and parts end gets out for prior art, the drill center at its materials and parts two ends end to end can produce a little trueness error, and then easily the precision that coordinates of the follow-up discharging assembling of impact and spare part and quality problems point are improved breakthrough;

And the technical characterstic that it is dealt with problems, main by comprising a support, this precalculated position, support top is provided with a working space, this working space one side is provided with a controlling base, groove before this controlling base one end is provided with one, and the another side of this working space is provided with two epipleurals, between this two epipleural, be provided with a feed well; One radial location unit, be located at this support this working space precalculated position relatively, this radial location unit includes one first clamping block and one second clamping block, this the first clamping block is formed with the first clamping end and the one second clamping end of symmetrical depression end face form relatively mutually between this second clamping block, make between this first clamping end and this second clamping end and be formed with a clamping space, this the first clamping block is located at the front groove of this controlling base, and this second clamping block is located at this precalculated position, feed well bottom side; One axial adjustment unit, include the poke rod that is hubbed at this controlling base, this poke rod end is installed with an axle hinged arm, and this poke rod head end is provided with a struck side, the epipleural precalculated position of this support is installed with an alignment sensor, this struck side of this poke rod under not operating state to being positioned at this alignment sensor; One feed unit, includes a skewed charging slideway, this feed well making this charging slideway one end install being positioned this support to should working space position, this charging slideway be to arranging at least one road gate in working space position; Two driller motors, be located at this support both sides, setting tool one is drilled with end respectively, and this axle head position being drilled with end is respectively towards this working space.

The location structure of above-mentioned bilateral boring, wherein, conduit is provided with bottom this working space of this support, this lower conduit is that inclined ramp form extends the external world, the lower conduit phase of order is defined as a port of export in position to external world, this support relatively this port of export is provided with a discharging slideway further, and separately this lower conduit upper end is provided with the bedplate of a scalable keying.

The location structure of above-mentioned bilateral boring, wherein, bedplate one end of scalable keying described in this is provided with a start connecting piece, this start connecting piece activity bit is located at precalculated position in this support, this start connecting piece end also connects and establishes one to make follower link, this support rear end face is also provided with a base plate gate actuator, and this stretches in this base plate gate actuator as follower link.

The location structure of above-mentioned bilateral boring, wherein, this the first clamping block of this radial location unit assembles a guide screw part in contrast to the inner guide screw of another end of this first clamping end, this the first clamping block relatively this guide screw part one end is provided with a nut, and this guide screw part another end this controlling base group that stretches through out is provided with an adjustment rotating disk; This second clamping block another is provided with a clamping operating bar in contrast to the another end of this second clamping end, and this support rear end face precalculated position is also provided with a clamping actuator, and this clamping operating bar stretches in this clamping actuator action.

The location structure of above-mentioned bilateral boring, wherein, this adjustment rotating disk is provided with an adjusting seat in this controlling base one end relatively, and this adjusting seat upper end is provided with an adjustment travel schedule, in order to provide user its adjustment stroke visual.

The location structure of above-mentioned bilateral boring, wherein, this poke rod this axle hinged arm corresponding of axial adjustment unit is provided with a pivot group end, this axle hinged arm another end stretch be incorporated into an axle trunnion mount one end a shaft-pivot hole in, this axle trunnion mount another end drives by an adjustment motor base again.

The location structure of above-mentioned bilateral boring, wherein, this epipleural top of this support is provided with a upper base plate and an oblique side plate in this charging ways-end position relatively, wherein location, this upper base plate top is provided with one first gate actuator, this the first gate actuator end is flexible is provided with one first expansion link, this the first expansion link end is provided with one first gate, and this first gate just coordinates and is placed in this charging slideway; This location, oblique side plate top another is provided with one second gate actuator, and this second gate actuator end is flexible is provided with one second expansion link, and this second expansion link end is provided with one second gate, and this second gate also just coordinates and is placed in this charging slideway.

The location structure of above-mentioned bilateral boring, wherein, the inline drive of the type of drive of this radial location unit, this axial adjustment unit, this feed unit or oil pressure electronic or pneumatic by computer settings.

Innovate unique design by this, the utility model is formed relatively by a radial location unit, axial adjustment unit and a feed unit, always can complete charging, location, Drilling operation, blanking by this and transport all utilizes mechanical automation to complete, moreover materials and parts can make the center Working position of workpiece twin shaft end all drop on standard axle point by bilateral Drilling operation, can reduce prior art always straight to Drilling operation produce the errors of centration of twin shaft end, increase dealer process accurately and export, the convenience that lamps structure uses and practicality.

Accompanying drawing explanation

Fig. 1 is the stereoscopic figure of the location structure of the utility model bilateral boring.

Fig. 2 is the sectional view of the location structure of the utility model bilateral boring.

Fig. 3 is that the location structure materials and parts of the utility model bilateral boring put using state stereogram.

Fig. 4 is the action schematic diagram one of the location structure of the utility model bilateral boring.

Fig. 5 is the action schematic diagram two of the location structure of the utility model bilateral boring.

Fig. 6 is the action schematic diagram three of the location structure of the utility model bilateral boring.

Fig. 7 is the action schematic diagram four of the location structure of the utility model bilateral boring.

Fig. 8 is the action schematic diagram five of the location structure of the utility model bilateral boring.

Fig. 9 is the action schematic diagram six of the location structure of the utility model bilateral boring.

Figure 10 is the action schematic diagram seven of the location structure of the utility model bilateral boring.

Wherein, Reference numeral

10 support 11 ports of export

Groove before 12 times conduits 13

14 epipleural 15 feed wells

16 upper base plates 17 are side plate tiltedly

18 controlling base 19 discharging slideways

20 radial location unit 21 adjust rotating disk

22 adjusting seat 23 guide screw parts

24 nut 25 first clamping blocks

26 first clamping end 27 clamping actuators

28 clamping operating bar 29 second clamping blocks

The axial adjustment unit of 291 second clamping end 30

31 adjustment motor base 32 axle trunnion mounts

33 shaft-pivot hole 34 axle hinged arms

35 poke rod 36 pivot group ends

37 struck side 38 alignment sensors

211 adjustment travel schedule 40 second gate actuators

41 second expansion link 42 second gates

50 first gate actuator 51 first expansion links

52 first gate 60 feed unit

61 charging slideway 70 base plate gate actuators

71 make follower link 72 start connecting piece

73 bedplate 80 driller motors

81 are drilled with end 82 processes drilling tool

A materials and parts A1 bore portion

S clamping space S 1 working space

Detailed description of the invention

Refer to shown in 1st ~ 10 figure, the preferred embodiment of location structure of the utility model bilateral boring, only these embodiments are only for explanation, and patent application is not subject to the restriction of this structure, and it comprises:

One support (10), this support (10) precalculated position, top is provided with a working space (S1), this working space (S1) one side is provided with a controlling base (18), groove (13) before this controlling base (18) one end is provided with one, and the another side of this working space (S1) is provided with two epipleurals (14), between this two epipleural, be provided with a feed well (15); Wherein this working space (S1) bottom of this support (10) is provided with conduit (12), this lower conduit (12) extends the external world in inclined ramp form, lower conduit (12) phase of order is defined as a port of export (11) in position to external world, this support (10) relatively this port of export (11) is provided with a discharging slideway (19) further, and separately this lower conduit (12) upper end is provided with the bedplate (73) of a scalable keying; Wherein bedplate (73) one end of scalable keying described in this is provided with a start connecting piece (72), this start connecting piece (72) activity bit is located at this support (10) interior precalculated position, this start connecting piece (72) end also connects and establishes one to make follower link (71), this support (10) rear end face is also provided with a base plate gate actuator (70), and this is made follower link (71) and stretches in this base plate gate actuator (70);

One radial location unit (20), be located at this support (10) this working space (S1) precalculated position relatively, this radial location unit (20) includes one first clamping block (25) and one second clamping block (29), this the first clamping block (25) is formed with the first clamping end (26) and the one second clamping end (291) of symmetrical depression end face form relatively mutually between this second clamping block (29), make between this first clamping end (26) and this second clamping end (291) and be formed with a clamping space (S), this the first clamping block (25) is located at the front groove (13) of this controlling base (18), this the second clamping block (29) is located at this aforementioned this feed well (15) precalculated position, bottom side, wherein this first clamping block (25) of this radial location unit (20) assembles a guide screw part (23) in contrast to the inner guide screw of another end of this first clamping end (26), this the first clamping block (25) relatively this guide screw part (23) one end is provided with a nut (24), and this guide screw part (23) another end stretches through out, this controlling base (18) group is provided with an adjustment rotating disk (21), this the second clamping block (29) another is provided with a clamping operating bar (28) in contrast to the another end of this second clamping end (291), this support (10) rear end face precalculated position is also provided with a clamping actuator (27), and this clamping operating bar (28) stretches in this clamping actuator (27) action, wherein this adjustment rotating disk (21) is provided with an adjusting seat (22) in this controlling base (18) one end relatively, this adjusting seat (22) upper end is provided with an adjustment travel schedule (211), in order to provide user its adjustment stroke visual,

One axial adjustment unit (30), include the poke rod (35) that is hubbed at aforementioned controlling base (18), this poke rod (35) end is installed with an axle hinged arm (34), and this poke rod (35) head end is provided with a struck side (37), epipleural (14) precalculated position of this support (10) is installed with an alignment sensor (38), this struck side (37) of this poke rod (35) under the not operating state of normality to being positioned at this alignment sensor (38); Wherein this poke rod (35) of axial adjustment unit (30) this axle hinged arm (34) corresponding is provided with a pivot group end (36), this axle hinged arm (34) another end is flexible to be incorporated in a shaft-pivot hole (33) of axle trunnion mount (32) one end, and this axle trunnion mount (32) another end drives by adjustment motor base (31) again;

One feed unit (60), include a skewed charging slideway (61), this feed well (15) making this charging slideway (61) one end install being positioned this support (10) to should working space (S1) position, this charging slideway (61) be to arranging at least one road gate in working space (S1) position, wherein at least one road gate described in this is provided with a upper base plate (16) and an oblique side plate (17) by this epipleural (14) top this charging slideway (61) terminal position relative of this support (10), wherein location, this upper base plate (16) top is provided with one first gate actuator (50), this the first gate actuator (50) end is flexible is provided with one first expansion link (51), this the first expansion link (51) end is provided with one first gate (52), this first gate (52) just cooperation is placed in this charging slideway (61), location, this oblique side plate (17) top another is provided with one second gate actuator (40), this the second gate actuator (40) end is flexible is provided with one second expansion link (41), this the second expansion link (41) end is provided with one second gate (42), and also proper cooperation is placed in this charging slideway (61) to this second gate (42),

Two driller motors (80), be located at this support (10) both sides, setting tool one is drilled with end (81) respectively, this axle head position being drilled with end (81) is respectively towards this working space (S1), this is drilled with end (81) can process drilling tool (82) for plant one, wherein the type of drive of this aforesaid radial location unit (20), this axial adjustment unit (30), this feed unit (60) and this two driller motor (80) by computer settings inline drive person that is electronic or pneumatic or oil pressure.

Refer to shown in Fig. 4, when user uses the utility model, the materials and parts (A) of multiple cylindrical conformation need be placed in this charging slideway (61), respectively these materials and parts (A) by this first gate (52) and this second gate (42) control and stepping pan feeding enters in this working space (S1);

Refer to shown in the 5th figure, when materials and parts (A) enter this working space (S1), user needs the stroke first adjusting this first clamping block (25) by adjustment rotating disk (21), the outside dimension setting of these materials and parts of described stroke (A), set, drive this clamping actuator (27) with this second clamping block (29) of start relatively these materials and parts (A) do clamping action, complete according to this radial location setting;

Refer to shown in Fig. 6 ~ 7, when these materials and parts (A) complete radial location clamping setting, then need to carry out next step and axially adjust setting, now this struck side (37) swing down of this poke rod (35) is to one end of these materials and parts (A), this axle hinged arm (34) of this poke rod (35) inside contracts to make this struck side (37) stir these materials and parts (A) one end towards shaft-pivot hole (33) simultaneously, completes axially adjustment displacement setting according to this;

Refer to shown in Fig. 8 ~ 9, after these materials and parts (A) complete axially adjustment displacement setting, this struck side (37) swing immediately of this poke rod (35) is positioned this alignment sensor (38) position relatively, make computer receive order and namely carry out lower one bilateral motor bore operation, and make these materials and parts (A) be drilled with out a bore portion (A1);

Refer to shown in Figure 10, when holing complete, this the first clamping block (25) and this second clamping block (29) then respectively move in the opposite direction, this bedplate (73) is placed in make these materials and parts (A) get loose, and this bedplate (73) also inside contracts cut out, and to enter this support (10) inner, and make these materials and parts (A) from this lower conduit (12) blanking to this discharging slideway (19), complete above-mentioned automation bilateral Drilling operation operator according to this.

By this, the utility model is formed relatively by a radial location unit, axial adjustment unit and a feed unit, always can complete charging, location, Drilling operation, blanking by this and transport all utilizes mechanical automation to complete, moreover materials and parts can make the center Working position of workpiece twin shaft end all drop on standard axle point by bilateral Drilling operation, can reduce prior art always straight to Drilling operation produce the errors of centration of twin shaft end, increase dealer process accurately and export, the convenience that lamps structure uses and practicality person.

Conclude above-mentioned explanation, by the design of the utility model said structure, effectively can overcome the disappearance that prior art faces, there is above-mentioned numerous advantage and practical value further, therefore the utility model is that the splendid novel practical of an intention is novel, and in identical technical field, have no identical or approximate product utility model or open use, therefore the utility model has met new patent about " novelty " and the important document of " progressive ", is file an application in accordance with the law.

Although technology contents of the present utility model discloses as above with preferred embodiment; so itself and be not used to limit the utility model; anyly be familiar with those skilled in the technology concerned; do a little change and retouching not departing from spirit institute of the present utility model, but these change accordingly and retouch the protection domain that all should belong to the claim appended by the utility model.

Claims (8)

1. a location structure for bilateral boring, is characterized in that, comprising:

One support, this precalculated position, support top is provided with a working space, and this working space one side is provided with a controlling base, groove before this controlling base one end is provided with, and the another side of this working space is provided with two epipleurals, is provided with a feed well between this two epipleural;

One radial location unit, be located at this support this working space precalculated position relatively, this radial location unit includes one first clamping block and one second clamping block, this the first clamping block is formed with the first clamping end and the one second clamping end of symmetrical depression end face form relatively mutually between this second clamping block, make between this first clamping end and this second clamping end and be formed with a clamping space, this the first clamping block is located at the front groove of this controlling base, and this second clamping block is located at this precalculated position, feed well bottom side;

One axial adjustment unit, include the poke rod that is hubbed at this controlling base, this poke rod end is installed with an axle hinged arm, and this poke rod head end is provided with a struck side, the epipleural precalculated position of this support is installed with an alignment sensor, this struck side of this poke rod under not operating state to being positioned at this alignment sensor;

One feed unit, includes a skewed charging slideway, this feed well making this charging slideway one end install being positioned this support to should working space position, this charging slideway be to arranging at least one road gate in working space position;

Two driller motors, be located at this support both sides, setting tool one is drilled with end respectively, and this axle head position being drilled with end is respectively towards this working space.

2. the location structure of bilateral boring as claimed in claim 1, it is characterized in that, conduit is provided with bottom this working space of this support, this lower conduit is that inclined ramp form extends the external world, the lower conduit phase of order is defined as a port of export in position to external world, this support relatively this port of export is provided with a discharging slideway further, and separately this lower conduit upper end is provided with the bedplate of a scalable keying.

3. the location structure of bilateral boring as claimed in claim 2, it is characterized in that, bedplate one end of scalable keying described in this is provided with a start connecting piece, this start connecting piece activity bit is located at precalculated position in this support, this start connecting piece end also connects and establishes one to make follower link, this support rear end face is also provided with a base plate gate actuator, and this stretches in this base plate gate actuator as follower link.

4. the location structure of bilateral boring as claimed in claim 1, it is characterized in that, this the first clamping block of this radial location unit assembles a guide screw part in contrast to the inner guide screw of another end of this first clamping end, this the first clamping block relatively this guide screw part one end is provided with a nut, and this guide screw part another end this controlling base group that stretches through out is provided with an adjustment rotating disk; This second clamping block another is provided with a clamping operating bar in contrast to the another end of this second clamping end, and this support rear end face precalculated position is also provided with a clamping actuator, and this clamping operating bar stretches in this clamping actuator action.

5. the location structure of bilateral boring as claimed in claim 4, it is characterized in that, this adjustment rotating disk is provided with an adjusting seat in this controlling base one end relatively, and this adjusting seat upper end is provided with an adjustment travel schedule, in order to provide user its adjustment stroke visual.

6. the location structure of bilateral boring as claimed in claim 1, it is characterized in that, this poke rod this axle hinged arm corresponding of axial adjustment unit is provided with a pivot group end, this axle hinged arm another end stretch be incorporated into an axle trunnion mount one end a shaft-pivot hole in, again this axle trunnion mount another end by one adjustment motor base drive.

7. the location structure of bilateral boring as claimed in claim 1, it is characterized in that, this epipleural top of this support is provided with a upper base plate and an oblique side plate in this charging ways-end position relatively, wherein location, this upper base plate top is provided with one first gate actuator, this the first gate actuator end is flexible is provided with one first expansion link, this the first expansion link end is provided with one first gate, and this first gate just coordinates and is placed in this charging slideway; This location, oblique side plate top another is provided with one second gate actuator, and this second gate actuator end is flexible is provided with one second expansion link, and this second expansion link end is provided with one second gate, and this second gate also just coordinates and is placed in this charging slideway.

8. the location structure of bilateral boring as claimed in claim 1, is characterized in that, the inline drive of the type of drive of this radial location unit, this axial adjustment unit, this feed unit or oil pressure electronic or pneumatic by computer settings.