CN209206922U - Chamfering drilling all-in-one machine - Google Patents
Chamfering drilling all-in-one machine Download PDFInfo
- Publication number
- CN209206922U CN209206922U CN201920001328.3U CN201920001328U CN209206922U CN 209206922 U CN209206922 U CN 209206922U CN 201920001328 U CN201920001328 U CN 201920001328U CN 209206922 U CN209206922 U CN 209206922U
- Authority
- CN
- China
- Prior art keywords
- bracket
- chamfer machining
- housed
- motor
- guide rail
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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Abstract
The utility model belongs to machining equipment technical field, and in particular to a kind of pair of auto parts carry out the automatic equipment of chamfer machining and drilling processing;The specific technical proposal is: chamfering drilling all-in-one machine, including rack, main platform and power control cabinet are fixed in rack, the first workbench and the second workbench are fixed on main platform, main support is fixed on main platform, first side stand and the second side stand, chamfer machining equipment is respectively and fixedly provided on first side stand and the second side stand, in X to motor, under the drive of Y-direction motor and Z-direction motor, drilling bracket can be in X-direction, it is subjected to displacement in Y-direction and Z-direction, there are two drill bits for dress on drilling bracket, drill bit punches auto parts, drilling processing and chamfer machining are integrated by the utility model, the operating process of each mechanism is automation control, clamped one time can be completed, processing efficiency greatly improves, cost is greatly lowered.
Description
Technical field
The utility model belongs to machining equipment technical field, and in particular to one kind carries out chamfering for auto parts and adds
The fully-automatic equipment of work and drilling processing.
Background technique
In metal production industry, many products will carry out chamfer machining, currently process the hole of some auto parts and fall
Angle is realized by artificial, and manually part is fixed on drilling machine, is first passed through drilling machine and is processed three holes, is then put into part taking-up
Milling machine mills chamfering, and whole process is very slow, forms the bottleneck of batch production.
Utility model content
To solve technical problem of the existing technology, the utility model provides a kind of for auto parts processing chamfering
And the all-in-one machine of drilling, the labor intensity of worker is alleviated, processing efficiency is improved, is suitable for mass production.
To achieve the above object, the technology employed by the present utility model is chamfering drilling all-in-one machine, including rack,
It is fixed with main platform and power control cabinet in rack, drilling and chamfer machining equipment are disposed on main platform, power control cabinet provides automation
Control.
The first workbench and the second workbench are fixed on main platform, a workbench is used for loading and unloading, another
A workbench is for processing.
Main support is fixed on main platform, the side of main support is vertically and fixedly provided with the first side stand, the other side of main support
It is vertically and fixedly provided with the second side stand, main support, the first side stand and the second side stand are bolted, convenient for disassembly and assembly.
First chamfer machining chassis is housed on the first side stand, is disposed with the first chamfer machining on the first chamfer machining chassis
Guide rail is equipped with the first chamfer machining bracket on the first chamfer machining guide rail, adds on the first chamfer machining bracket equipped with the first chamfering
Work main shaft, the first chamfer machining main shaft is arranged towards the first workbench, is added on the first chamfer machining bracket equipped with the first chamfering
The output shaft of work lifting motor, the first chamfer machining lifting motor is connect with the first screw rod, is equipped on the first chamfer machining bracket
First wire nut, first wire nut are threaded on the first screw rod.Under the drive of the first chamfer machining lifting motor, the first screw rod
Rotation, first wire nut convert the rotary motion of the first screw rod to the linear motion of the first chamfer machining bracket, and then drive the
One chamfer machining main shaft is moved back and forth along the first chamfer machining guide rail, realizes the lifting of the first chamfer machining main shaft.
Second chamfer machining chassis is housed on the second side stand, is disposed with the second chamfer machining on the second chamfer machining chassis
Guide rail is equipped with the second chamfer machining bracket on the second chamfer machining guide rail, adds on the second chamfer machining bracket equipped with the second chamfering
Work main shaft, the second chamfer machining main shaft is arranged towards the second workbench, is added on the second chamfer machining bracket equipped with the second chamfering
The output shaft of work lifting motor, the second chamfer machining lifting motor is connect with the second screw rod, is equipped on the second chamfer machining bracket
Second screw, the second screw are threaded on the second screw rod.Under the drive of the second chamfer machining lifting motor, the second screw rod
Rotation, the second screw convert the rotary motion of the second screw rod to the linear motion of the second chamfer machining bracket, and then drive the
Two chamfering machining spindles are moved back and forth along the second chamfer machining guide rail, realize the lifting of the second chamfer machining main shaft.
It is arranged horizontally to bracket, X direction guiding rail and X to bracket on main support equipped with X direction guiding rail and X, is filled on X direction guiding rail
There is X to motor, X is connected to the output shaft and X of motor to screw rod, and X is equipped with X on bracket to screw, and X is threaded in screw
X is on screw rod, and under drive of the X to motor, X is rotated to screw rod, and rotary motion of the X to screw by X to screw rod is converted into straight line
Movement, X follow X to do linear reciprocating motion in the X direction to screw to bracket.
X is vertically and fixedly provided with Y-direction bracket on bracket, and Y-direction bracket follows X to do linear reciprocating motion in the X direction to bracket,
Y-direction guide rail is housed on Y-direction bracket, Y-direction motor is fixed on Y-direction bracket, the output shaft of Y-direction motor passes through the linear mould group peace of Y-direction
In Y-direction guide rail.It is rotated in Y-direction motor, the linear mould group of Y-direction motor driven Y-direction does linear reciprocating motion in Y-direction guide rail.
Wherein, the linear mould group of Y-direction is linear guide rail type structure.
Z-direction bracket is further fixed in the linear mould group of Y-direction, it is reciprocal straight that Z-direction bracket follows the linear mould group of Y-direction to do in the Y direction
Line moves, and Z-direction guide rail is housed on Z-direction bracket, and Z-direction motor is fixed on Z-direction bracket, and the output shaft of Z-direction motor is linear by Z-direction
Mould group is mounted in Z-direction guide rail, and Z-direction motor rotation, the linear mould group of Z-direction motor driven Z-direction does reciprocating linear fortune in Z-direction guide rail
It is dynamic, and then the linear mould group of Z-direction is driven to do linear reciprocating motion in z-direction.
Wherein, the linear mould group of Z-direction is linear guide rail type structure.
The linear mould group of Z-direction is connect with drilling bracket, X to motor, Y-direction motor and Z-direction motor drive under, drilling bracket
It realizes the position adjustment in X-direction, Y-direction and Z-direction, facilitates the position adjustment of drilling bracket in three-dimensional space.Drilling
There are two master control electro spindles, master control electro spindle to be driven by servo motor for dress on bracket, and the bottom of master control electro spindle is fixed with brill
Head, drill bit can punch auto parts, and the shifting process of drill bit uses automation control, and registration, work efficiency is high,
The high yield rate of part, rejection rate substantially reduce.
Wherein, preferably, the first workbench and the second workbench are placed in the face side of main platform, power control cabinet is set
In the back side of main platform, the reasonable distribution of installation space on all-in-one machine is realized.
The side of rack is equipped with the first tank bracket, and the other side of rack is equipped with the second tank bracket, light weight, stable structure.
It there also is provided the first accomodation case below rack, the first accomodation case is placed in the first tank bracket, the bottom of the first accomodation case
Portion's arrangement is respectively arranged with universal wheel there are four leading truck on each leading truck, the first accomodation case is removable.
It there also is provided the second accomodation case below rack, the second accomodation case is placed in the second tank bracket, the bottom of the second accomodation case
Portion's arrangement is respectively arranged with universal wheel there are four leading truck on each leading truck, the second accomodation case is removable.
The utility model compared with prior art, specifically has the beneficial effect that: the utility model is by drilling processing and falls
Angle processing is integrated, and the operating process of each mechanism is automation control, and clamped one time can be completed, and processing efficiency is substantially
It improves, cost is greatly lowered.
Detailed description of the invention
Fig. 1 is the perspective view of the utility model.
Fig. 2 is the positive structure schematic of the utility model.
Fig. 3 is the sectional view in Fig. 2 at A-A.
Fig. 4 is the sectional view in Fig. 2 at B-B.
Fig. 5 is the overlooking structure diagram of the utility model.
Fig. 6 is the partial enlarged view in Fig. 1 at C.
In figure, 1 is rack, and 10 be main support, and 11 be the first tank bracket, and 12 be the second tank bracket, and 13 be the first accomodation case, and 14 are
Leading truck, 15 be universal wheel, and 16 be the second accomodation case, and 2 be main platform, and 21 be the first workbench, and 22 be the second workbench,
23 be the first side stand, and 24 be the second side stand, and 3 be power control cabinet, and 41 be the first chamfer machining chassis, and 42 be the first chamfer machining
Guide rail, 43 be the first chamfer machining bracket, and 44 be the first chamfer machining main shaft, and 45 be the first chamfer machining lifting motor, and 46 are
First screw rod, 51 be the second chamfer machining chassis, and 52 be the second chamfer machining guide rail, and 53 be the second chamfer machining bracket, and 54 are
Second chamfer machining main shaft, 55 be the second chamfer machining lifting motor, and 56 be the second screw rod, and 61 be X direction guiding rail, and 62 be X to branch
Frame, 63 be X to motor, and 64 be X to screw rod, and 71 be Y-direction guide rail, and 72 be Y-direction bracket, and 73 be Y-direction motor, and 74 be the linear mould of Y-direction
Group, 81 be Z-direction bracket, and 82 be Z-direction guide rail, and 83 be Z-direction motor, and 84 be the linear mould group of Z-direction, and 91 be drilling bracket, and 92 be master control
Electro spindle, 93 be drill bit.
Specific embodiment
In order to which technical problem to be solved in the utility model, technical solution and beneficial effect is more clearly understood, with
Lower combination accompanying drawings and embodiments, the present invention will be further described in detail.It should be appreciated that specific reality described herein
It applies example to be only used to explain the utility model, is not used to limit the utility model.
As shown in figures 1 to 6, chamfering drilling all-in-one machine, including rack 1 are fixed with main platform 2 and power control cabinet 3 in rack 1, main
Drilling and chamfer machining equipment are disposed on platform 2, power control cabinet 3 provides automation control.
The first workbench 21 and the second workbench 22 are fixed on main platform 2, a workbench is used for loading and unloading,
Another workbench is for processing.
Main support 10 is fixed on main platform 2, the side of main support 10 is vertically and fixedly provided with the first side stand 23, main support 10
The other side be vertically and fixedly provided with the second side stand 24, main support 10, the first side stand 23 and the second side stand 24 pass through bolt
It is fixed, it is convenient for disassembly and assembly.
First chamfer machining chassis 41 is housed on first side stand 23, first is disposed on the first chamfer machining chassis 41 and falls
Angle processes guide rail 42, and the first chamfer machining bracket 43 is housed on first chamfer machining guide rail 42, on the first chamfer machining bracket 43
Equipped with the first chamfer machining main shaft 44, the first chamfer machining main shaft 44 is arranged towards the first workbench 21, the first chamfer machining
First chamfer machining lifting motor 45, the output shaft of the first chamfer machining lifting motor 45 and the first screw rod 46 are housed on bracket 43
It connects, first wire nut is housed on the first chamfer machining bracket 43, first wire nut is threaded on the first screw rod 46.It is fallen first
Angle processes under the drive of lifting motor 45, and the first screw rod 46 rotation, first wire nut converts the rotary motion of the first screw rod 46 to
The linear motion of first chamfer machining bracket 43, and then drive the first chamfer machining main shaft 44 along the first chamfer machining guide rail 42
It moves back and forth, realizes the lifting of the first chamfer machining main shaft 44.
Second chamfer machining chassis 51 is housed on second side stand 24, second is disposed on the second chamfer machining chassis 51 and falls
Angle processes guide rail 52, and the second chamfer machining bracket 53 is housed on second chamfer machining guide rail 52, on the second chamfer machining bracket 53
Equipped with the second chamfer machining main shaft 54, the second chamfer machining main shaft 54 is arranged towards the second workbench 22, the second chamfer machining
Second chamfer machining lifting motor 55, the output shaft of the second chamfer machining lifting motor 55 and the second screw rod 56 are housed on bracket 53
It connects, the second screw is housed on the second chamfer machining bracket 53, the second screw is threaded on the second screw rod 56.It is fallen second
Angle processes under the drive of lifting motor 55, and the second screw rod 56 rotation, the second screw converts the rotary motion of the second screw rod 56 to
The linear motion of second chamfer machining bracket 53, and then drive the second chamfer machining main shaft 54 along the second chamfer machining guide rail 52
It moves back and forth, realizes the lifting of the second chamfer machining main shaft 54.
It is arranged horizontally to bracket 62, X direction guiding rail 61 and X to bracket 62 on main support 10 equipped with X direction guiding rail 61 and X, X
Equipped with X to motor 63 on direction guiding rail 61, X is connected to the output shaft and X of motor 63 to screw rod 64, and X is equipped with X on bracket 62 to silk
Mother, X are threaded in X on screw rod 64 to screw, and in X under the drive of motor 63, X is rotated to screw rod 64, and X is to screw by X
It is converted into linear motion to the rotary motion of screw rod 64, X follows X to do linear reciprocating motion in the X direction to screw to bracket 62.
X is vertically and fixedly provided with Y-direction bracket 72 on bracket 62, and Y-direction bracket 72 follows X to do in the X direction back and forth to bracket 62
It moves along a straight line, Y-direction guide rail 71 is housed on Y-direction bracket 72, Y-direction motor 73, the output shaft of Y-direction motor 73 are housed on Y-direction bracket 72
It is mounted in Y-direction guide rail 71 by the linear mould group 74 of Y-direction.It is rotated in Y-direction motor 73, Y-direction motor 73 drives the linear mould group 74 of Y-direction
Linear reciprocating motion is done in Y-direction guide rail 71.
Z-direction bracket 81 is further fixed in the linear mould group 74 of Y-direction, Z-direction bracket 81 follows the linear mould group 74 of Y-direction in the Y direction
Linear reciprocating motion is done, Z-direction guide rail 82 is housed on Z-direction bracket 81, Z-direction motor 83 is housed on Z-direction bracket 81, Z-direction motor 83
Output shaft is mounted in Z-direction guide rail 82 by the linear mould group 84 of Z-direction, and Z-direction motor 83 rotates, and Z-direction motor 83 drives the linear mould of Z-direction
Group 84 does linear reciprocating motion in Z-direction guide rail 82, and then the linear mould group 84 of Z-direction is driven to do linear reciprocating motion in z-direction.
The linear mould group 84 of Z-direction is connect with drilling bracket 91, in drive of the X to motor 63, Y-direction motor 73 and Z-direction motor 83
Under, drilling bracket 91 realizes the position adjustment in X-direction, Y-direction and Z-direction, facilitates drilling bracket 91 in three-dimensional space
Position adjustment.There are two master control electro spindles 92, master control electro spindle 92 to be driven by servo motor for dress on drilling bracket 91, master control
The bottom of electro spindle 92 is fixed with drill bit 93, and drill bit 93 can punch auto parts, and the shifting process of drill bit 93 uses certainly
Dynamicization control, registration, work efficiency is high, and the high yield rate of part, rejection rate substantially reduces.
Wherein, preferably, the first workbench 21 and the second workbench 22 are placed in the face side of main platform 2, electricity
Control cabinet 3 is placed in the back side of main platform 2, realizes the reasonable distribution of installation space on all-in-one machine.
It is arranged with automatic clamping machine tool hand on first workbench 21 and the second workbench 22, facilitates auto parts
Clamping.
The side of rack 1 is equipped with the first tank bracket 11, and the other side of rack 1 is equipped with the second tank bracket 12, light weight, and structure is steady
It is fixed.
The lower section of rack 1 there also is provided the first accomodation case 13, and the first accomodation case 13 is placed in the first tank bracket 11, and first accommodates
The bottom arrangement of cabinet 13 is respectively arranged with universal wheel 15 there are four leading truck 14 on each leading truck 14, the first accomodation case 13 is removable.
The lower section of rack 1 there also is provided the second accomodation case 16, and the second accomodation case 16 is placed in the second tank bracket 12, and second accommodates
The bottom arrangement of cabinet 16 is respectively arranged with universal wheel 15 there are four leading truck 14 on each leading truck 14, the second accomodation case 16 is removable.
Drilling processing and chamfer machining are integrated by the utility model, and two drill bits 93 drill to auto parts, chamfering
Machining spindle carries out chamfer machining to auto parts, and the operating process of each mechanism is automation control, clamped one time
It completes, processing efficiency greatly improves, and cost is greatly lowered.
The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this
Made any modifications, equivalent replacements, and improvements etc., should all wrap in the utility model model within the spirit and principle of utility model
In enclosing.
Claims (4)
1. chamfering drilling all-in-one machine, which is characterized in that including rack (1), be fixed with main platform (2) and electricity on the rack (1)
It controls cabinet (3);
The first workbench (21) and the second workbench (22) are fixed on the main platform (2);
It being fixed with main support (10) on the main platform (2), the side of main support (10) is vertically and fixedly provided with the first side stand (23),
The other side of main support (10) is vertically and fixedly provided with the second side stand (24);
First chamfer machining chassis (41), cloth on the first chamfer machining chassis (41) are housed on first side stand (23)
It is equipped with the first chamfer machining guide rail (42), the first chamfer machining bracket (43) is housed on the first chamfer machining guide rail (42),
First chamfer machining main shaft (44) is housed, the first chamfer machining main shaft (44) is towards the on the first chamfer machining bracket (43)
One workbench (21) is arranged, the first chamfer machining lifting motor (45) is housed on the first chamfer machining bracket (43), the
The output shaft of one chamfer machining lifting motor (45) is connect with the first screw rod (46), equipped with the on the first chamfer machining bracket (43)
One screw, first wire nut are threaded on the first screw rod (46);
Second chamfer machining chassis (51), cloth on the second chamfer machining chassis (51) are housed on second side stand (24)
It is equipped with the second chamfer machining guide rail (52), the second chamfer machining bracket (53) is housed on the second chamfer machining guide rail (52),
Second chamfer machining main shaft (54) is housed, the second chamfer machining main shaft (54) is towards the on the second chamfer machining bracket (53)
Two workbenches (22) are arranged, the second chamfer machining lifting motor (55) is housed on the second chamfer machining bracket (53), the
The output shaft of two chamfer machining lifting motors (55) is connect with the second screw rod (56), equipped with the on the second chamfer machining bracket (53)
Two screws, the second screw are threaded on the second screw rod (56);
Equipped with X direction guiding rail (61) and X to bracket (62) on the main support (10), X is housed to motor on the X direction guiding rail (61)
(63), X is connected to the output shaft and X of motor (63) to screw rod (64), the X on bracket (62) equipped with X to screw, X is to silk
Box thread is connected to X on screw rod;
The X is vertically and fixedly provided with Y-direction bracket (72) on bracket (62), and Y-direction guide rail (71) are housed on the Y-direction bracket (72),
Y-direction motor (73) are housed on the Y-direction bracket (72), the output shaft of the Y-direction motor (73) passes through linear mould group (74) peace of Y-direction
In Y-direction guide rail (71);
It is further fixed on Z-direction bracket (81) on the linear mould group (74) of Y-direction, Z-direction guide rail is housed on the Z-direction bracket (81)
(82), Z-direction motor (83) are housed on the Z-direction bracket (81), the output shaft of the Z-direction motor (83) passes through the linear mould group of Z-direction
(84) it is mounted in Z-direction guide rail (82);
The linear mould group (84) of Z-direction connect with drilling bracket (91), and there are two master control electricity masters for dress on the drilling bracket (91)
The bottom of axis (92), the master control electro spindle (92) is fixed with drill bit (93).
2. chamfering drilling all-in-one machine according to claim 1, which is characterized in that first workbench (21) and second
Workbench (22) is placed in the face side of main platform (2), and the power control cabinet (3) is placed in the back side of main platform (2).
3. chamfering drilling all-in-one machine according to claim 2, which is characterized in that the side of the rack (1) is equipped with first
The other side of tank bracket (11), rack (1) is equipped with the second tank bracket (12).
4. chamfering drilling all-in-one machine according to claim 3, which is characterized in that further include being placed in the first tank bracket (11)
First accomodation case (13), there are four the bottom arrangements of first accomodation case (13) leading truck (14), on each leading truck (14)
It is respectively arranged with universal wheel (15);It further include the second accomodation case (16) being placed in the second tank bracket (12), second accomodation case (16)
Bottom arrangement there are four leading truck (14), be respectively arranged with universal wheel (15) on each leading truck (14).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920001328.3U CN209206922U (en) | 2019-01-02 | 2019-01-02 | Chamfering drilling all-in-one machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920001328.3U CN209206922U (en) | 2019-01-02 | 2019-01-02 | Chamfering drilling all-in-one machine |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209206922U true CN209206922U (en) | 2019-08-06 |
Family
ID=67466873
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201920001328.3U Expired - Fee Related CN209206922U (en) | 2019-01-02 | 2019-01-02 | Chamfering drilling all-in-one machine |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209206922U (en) |
-
2019
- 2019-01-02 CN CN201920001328.3U patent/CN209206922U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190806 Termination date: 20220102 |