CN208825751U - A kind of facing attachment of automatic charging - Google Patents
A kind of facing attachment of automatic charging Download PDFInfo
- Publication number
- CN208825751U CN208825751U CN201821310000.1U CN201821310000U CN208825751U CN 208825751 U CN208825751 U CN 208825751U CN 201821310000 U CN201821310000 U CN 201821310000U CN 208825751 U CN208825751 U CN 208825751U
- Authority
- CN
- China
- Prior art keywords
- rack
- driving
- gear
- motor
- chamfer angle
- 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.)
- Active
Links
Abstract
The utility model discloses a kind of facing attachments of automatic charging, including rack, loading assemblies are installed in rack, the middle part of rack is equipped with clamp assemblies by way of being slidably connected, loading assemblies are matched with clamp assemblies, the two sides of rack are symmetrically installed with two groups of chamfer angle components by way of being slidably connected, driving assembly is installed below rack, driving assembly is connected with the chamfer angle component of two sides respectively, the utility model can carry out chamfering to the both ends of steel pipe simultaneously by the setting of two chamfer angle components, improve operating efficiency, the setting of loading assemblies realizes automatic charging, reduce labor intensity, improve production efficiency, the setting of driving assembly ensure that the synchronism of two sides chamfer angle component movement, the chamfer angle component of two sides is set to process same size to the steel pipe at both ends, it ensure that the machining accuracy of workpiece.
Description
Technical field
The utility model belongs to auto parts and components technical field of processing equipment, and in particular to a kind of chamfering dress of automatic charging
It sets.
Background technique
Oil pipe is the common accessory on all types of automobiles, and blank, chamfering, molding etc. are the master operations of oil pipe processing.It is existing
Some chamfering process usually first process one end, then turn around to reprocess the other end manually, large labor intensity, production efficiency compared with
It is low;Manual feeding quality stability is poor, influences the precision of chamfering.
Summary of the invention
According to the above-mentioned deficiencies of the prior art, technical problem to be solved in the utility model is to propose a kind of automatic charging
Facing attachment.
In order to solve the above-mentioned technical problem, the technical solution adopted in the utility model are as follows:
A kind of facing attachment of automatic charging, including rack are equipped with loading assemblies in rack, pass through cunning in the middle part of rack
The mode of dynamic connection is equipped with clamp assemblies, and loading assemblies are matched with clamp assemblies, and the two sides of rack are by being slidably connected
Mode is symmetrically installed with two groups of chamfer angle components, is equipped with driving assembly below rack, the driving assembly chamfering with two sides respectively
Component is connected.
Loading assemblies include elevating hopper, and the side of elevating hopper is equipped with conveying assembly, the angled setting of conveying assembly, conveying group
The low side of part is equipped with No.1 delivery wheel, and No.1 delivery wheel is located in elevating hopper, and one end of No.1 delivery wheel is equipped with conveyance gear, and one
The lower section of number delivery wheel is equipped with feeder motor, and the output end of feeder motor is equipped with partial gear, partial gear and conveying
Gear matches, and the high-end of conveying assembly is equipped with No. two delivery wheels and No. three delivery wheels, and No. two delivery wheels are in No. three delivery wheels
Horizontal arrangement, No.1 delivery wheel, No. two delivery wheels and No. three delivery wheels are laid with around the outer surface equipped with conveyer belt, conveyer belt
Several partitions, partition are arranged along the width direction of conveyer belt, and clamp assemblies are located at the high-end side of conveying assembly, and with conveying
Component matches.
Clamp assemblies include grain-clamping table, and grain-clamping table is mounted on the middle part of the upper surface of rack, and grain-clamping table is open topped
Cavity body structure, grain-clamping table are equipped with support plate by hinged mode close to the side of loading assemblies, and grain-clamping table is far from feeding group
The side of part is equipped with connecting plate, and connecting plate is equipped with discharge port, and support plate is extended outside discharge port far from one end of loading assemblies,
The bottom of grain-clamping table is equipped with linear motor by way of being slidably connected, and linear motor is slided back towards the direction of loading assemblies
Dynamic, the top of linear motor is equipped with interlocking bar by hinged mode, and the one end of interlocking bar far from linear motor passes through hinged
Mode be mounted on the lower surface of support plate, have clamping electric cylinders on the top of support plate, clamp the movable ends of electric cylinders towards support
Plate setting, and clamping plate is installed.
Chamfer angle component includes mounting box, and mounting box is mounted on the rack by way of being slidably connected, and is passed through in mounting box
The mode of bearing connection is equipped with transmission shaft, and one end of transmission shaft extends outside mounting box and is equipped with rose reamer, and transmission shaft is remote
Side from rose reamer is equipped with driving wheel, and the top of mounting box is equipped with chamfering motor, and the output end of chamfering motor extends to
In mounting box, and driving wheel is installed, driving wheel and driving wheel are sequentially connected by belt.
Driving assembly includes driving box, and driving box is mounted on the lower section of rack, and driving motor is equipped in driving box, driving
The output end of motor is equipped with driving gear, is also equipped with upper rack and lower rack gear in driving box by way of being slidably connected,
Upper rack and the lower mutual mirror settings of rack gear are meshed in the two sides up and down of driving gear, and with driving gear, upper rack with
Lower rack gear is connected with the chamfer angle component of two sides respectively.
The utility model beneficial effect is:
The utility model can carry out chamfering to the both ends of steel pipe simultaneously by the setting of two chamfer angle components, improve work
The setting of industry efficiency, loading assemblies realizes automatic charging, reduces labor intensity, improves production efficiency, driving assembly
The synchronism that ensure that the movement of two sides chamfer angle component is set, the chamfer angle component of two sides is made to process same ruler to the steel pipe at both ends
It is very little, it ensure that the machining accuracy of workpiece.
Detailed description of the invention
Content expressed by this specification attached drawing and the label in figure are briefly described below:
Fig. 1 is the structural schematic diagram of the facing attachment of the automatic charging of specific embodiment of the present utility model;
Fig. 2 is the structural schematic diagram of the loading assemblies of specific embodiment of the present utility model;
Fig. 3 is the partial enlarged view in Fig. 2 of specific embodiment of the present utility model at A;
Fig. 4 is the structural schematic diagram of the clamp assemblies of specific embodiment of the present utility model;
Fig. 5 is the structural schematic diagram of the connecting plate of specific embodiment of the present utility model;
Fig. 6 is the structural schematic diagram of the chamfer angle component of specific embodiment of the present utility model;
Fig. 7 is the structural schematic diagram of the driving assembly of specific embodiment of the present utility model.
Specific embodiment
Below by the description to embodiment, the shape of for example related each component of specific embodiment of the present utility model
Shape, construction, the mutual alignment between each section and connection relationship, the effect of each section and working principle, manufacturing process and operation
Application method etc., is described in further detail, to help inventive concept of the those skilled in the art to the utility model, technology
Scheme has more complete, accurate and deep understanding.
A kind of facing attachment of automatic charging, including rack 1, loading assemblies 2 are equipped in rack 1, and the middle part of rack 1 is logical
It crosses the mode being slidably connected and clamp assemblies 3 is installed, loading assemblies 2 are matched with clamp assemblies 3, and the two sides of rack 1 pass through cunning
The mode of dynamic connection is symmetrically installed with two groups of chamfer angle components 4, and the lower section of rack 1 is equipped with driving assembly 5, and driving assembly 5 is distinguished
It is connected with the chamfer angle component 4 of two sides.Wherein, operator is by the steel pipe for needing chamfering by expecting clamping on loading assemblies 2
On component 3, driving assembly 5 drives the chamfer angle component 4 of two sides close to steel pipe simultaneously, carries out chamfering to the both ends of steel pipe respectively,
The utility model can carry out chamfering to the both ends of steel pipe simultaneously by the setting of two chamfer angle components 4, improve operating efficiency,
The setting of loading assemblies realizes automatic charging, reduces labor intensity, improves production efficiency.
Loading assemblies 2 include elevating hopper 21, and the side of elevating hopper 21 is equipped with conveying assembly, the angled setting of conveying assembly,
The low side of conveying assembly is equipped with No.1 delivery wheel 22, and No.1 delivery wheel 22 is located in elevating hopper 21, one end of No.1 delivery wheel 22
Equipped with conveyance gear 23, the lower section of No.1 delivery wheel 22 is equipped with feeder motor 24, and the output end of feeder motor 24 is equipped with endless
All gear 25, partial gear 25 are matched with conveyance gear 23, and the high-end of conveying assembly is equipped with No. two delivery wheels 26 and No. three
Delivery wheel 27, No. two delivery wheels 26 and No. three delivery wheels 27 are in horizontal arrangement, 22, No. two delivery wheels 26 of No.1 delivery wheel and No. three
Delivery wheel 27 is laid with several partitions 29 around the outer surface equipped with conveyer belt 28, conveyer belt 28, and partition 29 is along conveyer belt 28
Width direction setting, clamp assemblies 3 are located at the high-end side of conveying assembly, and match with conveying assembly.Wherein, employee will
Steel pipe is put into elevating hopper 21, and feeder motor 24 works, and feeder motor 24 drives partial gear 25 to rotate, partial gear 25
23 intermittent rotary of conveyance gear is driven by engaging with conveyance gear 23, conveyance gear 23 drives No.1 delivery wheel 22 to rotate, into
And 28 intermittent movement of driving conveying belt, steel pipe are arranged in the space that partition 29 is separated into, and under the drive of conveyer belt 28 to
Upper conveying, rushing when No. two delivery wheels 26 can slow down steel pipe market to clamp assemblies 3 in horizontal arrangement with No. three delivery wheels 27
Power is hit, the intermittent movement of conveyer belt 28 can be realized the lasting feed of loading assemblies, steady production rhythm.
Clamp assemblies 3 include grain-clamping table 31, and grain-clamping table 31 is mounted on the middle part of the upper surface of rack 1, and grain-clamping table 31 is upper
The cavity body structure of portion's opening, grain-clamping table 31 are equipped with support plate 32 by hinged mode close to the side of loading assemblies 2, clamping
Platform 31 is equipped with connecting plate 33 far from the side of loading assemblies 2, and connecting plate 33 is equipped with discharge port 34, and support plate 32 is far from feeding group
One end of part 2 is extended outside discharge port 34, and the bottom of grain-clamping table 31 is equipped with linear motor 35 by way of being slidably connected, directly
The direction of line motor 35 towards loading assemblies 2 slidably reciprocates, and the top of linear motor 35 is equipped with linkage by hinged mode
Bar 36, the one end of interlocking bar 36 far from linear motor 35 are mounted on the lower surface of support plate 32, support plate by hinged mode
Have on 32 top and clamp electric cylinders 37, the movable end for clamping electric cylinders 37 is arranged towards support plate 32, and is equipped with clamping plate 38.Its
In, support plate 32 has certain tilt angle, and linear motor 35 is mobile far from loading assemblies 2, and linear motor 35 drives linkage
Bar 36 is mobile, and interlocking bar 36 drives support plate 32 to rotate counterclockwise, and the upper end of discharge port 34, steel are arrived in the upper surface of support plate 32
Pipe is delivered in support plate 32 through conveyer belt 28, and is moved to the side of connecting plate 33 under gravity, clamps electric cylinders 37
Work clamps electric cylinders 37 and clamping plate 38 is driven to be clamped steel pipe, and after the completion of chamfering operation, linear motor 35 is reversely moved
Dynamic, linear motor 35 drives support plate 32 to rotate clockwise by interlocking bar 36, and steel pipe is discharged by discharge port 34.
Chamfer angle component 4 includes mounting box 41, and mounting box 41 is mounted in rack 1 by way of being slidably connected, mounting box
Transmission shaft 42 is installed in such a way that bearing connects, one end of transmission shaft 42 is extended outside mounting box 41 and is equipped with down in 41
Angle knife 43, transmission shaft 42 are equipped with driving wheel 44 far from the side of rose reamer 43, and the top of mounting box 41 is equipped with chamfering motor
45, the output end of chamfering motor 45 extends in mounting box 41, and is equipped with driving wheel 46, and driving wheel 46 passes through with driving wheel 44
Belt 47 is sequentially connected.Wherein, mounting box 41 is L-type structure, and transmission shaft 42 is mounted on the lower section of mounting box 41, this setting reduces
Occupied area of the equipment in length direction, convenient for putting for equipment, when work, chamfering motor 45 works, chamfering motor 45 band
Dynamic driving wheel 46 rotates, and driving wheel 46 drives driving wheel 44 to rotate by belt 47, and driving wheel 44 drives transmission shaft 42 to rotate, and passes
Rose reamer 43 on moving axis 42 carries out chamfering operation to steel pipe, and symmetrically arranged chamfer angle component 4 reduces manufacturing procedure, improves
The processing efficiency of workpiece.
Driving assembly 5 includes driving box 51, and driving box 51 is mounted on the lower section of rack 1, driving is equipped in driving box 51
Motor 52, the output end of driving motor 52 are equipped with driving gear 53, are also installed by way of being slidably connected in driving box 51
Have a upper rack 54 and lower rack gear 55, upper rack 54 and the mutual mirror settings of lower rack gear 55 in the two sides up and down of driving gear 53, and
It is meshed with driving gear 53, upper rack 54 is connected with the chamfer angle component 4 of two sides respectively with lower rack gear 55.Wherein, it drives
Gear 53 is mounted on the middle position of rack 1, and driving motor 52 works, and driving motor 52 drives driving gear 53 to rotate, driving
Gear 53 drives upper rack 54 to move backward simultaneously with lower rack gear 55 by engaging with upper rack 54 with lower rack gear 55, upper rack 54
Close steel pipe synchronous with the lower rack gear 55 drive chamfer angle component 4 of two sides is synchronized far from steel pipe movement, this setting ensure that two sides
The synchronism that chamfer angle component 4 acts makes the chamfer angle component 4 of two sides process same size to the steel pipe at both ends, ensure that workpiece
Machining accuracy.
Working principle is:
Steel pipe is put into elevating hopper 21 by employee, and feeder motor 24 works, and feeder motor 24 drives 25 turns of partial gear
Dynamic, partial gear 25 drives 23 intermittent rotary of conveyance gear by engaging with conveyance gear 23, and conveyance gear 23 drives No.1
Delivery wheel 22 rotates, and then 28 intermittent movement of driving conveying belt, steel pipe are arranged in the space that partition 29 is separated into, and are being conveyed
With being delivered up under 28 drive;
Linear motor 35 is mobile far from loading assemblies 2, and linear motor 35 drives interlocking bar 36 mobile, and interlocking bar 36 drives branch
Fagging 32 rotates counterclockwise, and the upper end of discharge port 34 is arrived in the upper surface of support plate 32, and steel pipe is delivered to support through conveyer belt 28
On plate 32, and it is moved to the side of connecting plate 33 under gravity, clamps electric cylinders 37 and work, clamps electric cylinders 37 and drive clamping
Plate 38 is clamped steel pipe;
Driving motor 52 work, driving motor 52 drive driving gear 53 rotate, driving gear 53 by with upper rack 54
It is engaged with lower rack gear 55 and upper rack 54 is driven to move backward simultaneously with lower rack gear 55, upper rack 54 and lower rack gear 55 drive two sides
Chamfer angle component 4 is synchronized close to steel pipe;
Chamfering motor 45 works, and chamfering motor 45 drives driving wheel 46 to rotate, and driving wheel 46 drives transmission by belt 47
44 rotation of wheel, driving wheel 44 drive transmission shaft 42 to rotate, and the rose reamer 43 on transmission shaft 42 carries out chamfering operation to steel pipe;When
After the completion of the operation of angle, linear motor 35 is moved backward, and linear motor 35 drives support plate 32 to rotate clockwise by interlocking bar 36,
Steel pipe is discharged by discharge port 34;The utility model can simultaneously fall the both ends of steel pipe by the setting of two chamfer angle components
Angle improves operating efficiency, and the setting of loading assemblies realizes automatic charging, reduces labor intensity, improves production efficiency,
The setting of driving assembly ensure that the synchronism of two sides chamfer angle component movement, process the chamfer angle component of two sides to the steel pipe at both ends
Same size ensure that the machining accuracy of workpiece.
The utility model is exemplarily described above, it is clear that the utility model implements not by aforesaid way
Limitation, as long as not using the method concept of the utility model and the improvement of various unsubstantialities that technical solution carries out, or not
It is improved that the conception and technical scheme of the utility model are directly applied into other occasions, in the protection model of the utility model
Within enclosing.The protection scope of the utility model should be determined by the scope of protection defined in the claims.
Claims (5)
1. a kind of facing attachment of automatic charging, it is characterised in that: including rack, loading assemblies, machine are equipped in the rack
The middle part of frame is equipped with clamp assemblies by way of being slidably connected, and loading assemblies are matched with clamp assemblies, the two sides of rack
It is symmetrically installed with two groups of chamfer angle components by way of being slidably connected, driving assembly, driving assembly point are installed below rack
It is not connected with the chamfer angle component of two sides.
2. the facing attachment of automatic charging according to claim 1, it is characterised in that: the loading assemblies include feeding
Bucket, the side of elevating hopper are equipped with conveying assembly, and the low side of the angled setting of conveying assembly, conveying assembly is equipped with No.1 delivery wheel,
No.1 delivery wheel is located in elevating hopper, and one end of No.1 delivery wheel is equipped with conveyance gear, and the lower section of No.1 delivery wheel is equipped with conveying
Motor, the output end of feeder motor are equipped with partial gear, and partial gear is matched with conveyance gear, the height of conveying assembly
End is equipped with No. two delivery wheels and No. three delivery wheels, and No. two delivery wheels and No. three delivery wheels are in horizontal arrangement, No.1 delivery wheel, No. two
Delivery wheel and No. three delivery wheels are laid with several partitions around the outer surface equipped with conveyer belt, conveyer belt, and partition is along conveyer belt
Width direction setting, clamp assemblies are located at the high-end side of conveying assembly, and match with conveying assembly.
3. the facing attachment of automatic charging according to claim 1, it is characterised in that: the clamp assemblies include clamping
Platform, grain-clamping table are mounted on the middle part of the upper surface of rack, and grain-clamping table is the cavity body structure of open topped, and grain-clamping table is close to feeding group
The side of part is equipped with support plate by hinged mode, and grain-clamping table is equipped with connecting plate, connecting plate far from the side of loading assemblies
It is equipped with discharge port, support plate is extended outside discharge port far from one end of loading assemblies, and the bottom of grain-clamping table is by being slidably connected
Mode linear motor is installed, linear motor slides back towards the direction of loading assemblies, and the top of linear motor passes through hinge
The mode connect is equipped with interlocking bar, and the one end of interlocking bar far from linear motor is mounted on the following table of support plate by hinged mode
There are clamping electric cylinders in face on the top of support plate, and the movable end for clamping electric cylinders is arranged towards support plate, and is equipped with clamping plate.
4. the facing attachment of automatic charging according to claim 1, it is characterised in that: the chamfer angle component includes installation
Box, mounting box are mounted on the rack by way of being slidably connected, and are equipped with transmission in such a way that bearing connects in mounting box
Axis, one end of transmission shaft extend outside mounting box and are equipped with rose reamer, and transmission shaft is equipped with transmission far from the side of rose reamer
Wheel, the top of mounting box are equipped with chamfering motor, and the output end of chamfering motor extends in mounting box, and is equipped with driving wheel,
Driving wheel and driving wheel are sequentially connected by belt.
5. the facing attachment of automatic charging according to claim 1, it is characterised in that: the driving component includes driving
Case, driving box are mounted on the lower section of rack, and driving motor is equipped in driving box, and the output end of driving motor is equipped with sliding tooth
It takes turns, upper rack and lower rack gear is also installed by way of being slidably connected in driving box, upper rack is set with the lower mutual mirror image of rack gear
It sets in the two sides up and down of driving gear, and is meshed with driving gear, upper rack and lower rack gear the chamfering group with two sides respectively
Part is connected.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821310000.1U CN208825751U (en) | 2018-08-11 | 2018-08-11 | A kind of facing attachment of automatic charging |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821310000.1U CN208825751U (en) | 2018-08-11 | 2018-08-11 | A kind of facing attachment of automatic charging |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208825751U true CN208825751U (en) | 2019-05-07 |
Family
ID=66309261
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821310000.1U Active CN208825751U (en) | 2018-08-11 | 2018-08-11 | A kind of facing attachment of automatic charging |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN208825751U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112775750A (en) * | 2021-01-28 | 2021-05-11 | 南通洪源地质工程材料有限公司 | Semi-automatic seamless steel pipe chamfering machine |
CN113001238A (en) * | 2021-03-03 | 2021-06-22 | 王科往 | Automatic change material feeding unit before numerical control |
-
2018
- 2018-08-11 CN CN201821310000.1U patent/CN208825751U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112775750A (en) * | 2021-01-28 | 2021-05-11 | 南通洪源地质工程材料有限公司 | Semi-automatic seamless steel pipe chamfering machine |
CN113001238A (en) * | 2021-03-03 | 2021-06-22 | 王科往 | Automatic change material feeding unit before numerical control |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN208825751U (en) | A kind of facing attachment of automatic charging | |
CN104690756B (en) | Full automatic solar battery component chipping edger | |
CN110076386B (en) | Automatic cutting and chamfering integrated machine for inhaul cable sleeve | |
CN213102999U (en) | Multi-head glue pouring automatic production line for air filter | |
CN206825841U (en) | A kind of internal tooth housing Gate of Plastics automatic cut-off device | |
CN111318426A (en) | Automatic glue spraying line | |
CN108817553A (en) | A kind of facing attachment of automatic blanking | |
CN211136237U (en) | Automatic processing equipment for door and window materials | |
CN208825740U (en) | A kind of facing attachment of automatic blanking | |
CN108705153A (en) | A kind of facing attachment of automatic charging | |
CN210997301U (en) | Automatic welding jig of rotary cultivator main shaft | |
CN106514463B (en) | One kind producing linear type from moving-coil side pipeline system for tableware | |
CN211917106U (en) | Plate cutting system | |
CN210010678U (en) | Automatic production system for injection molding machine base | |
CN209452868U (en) | A kind of dedicated Double-blade milling machine of inverted pickup formula | |
CN109834772B (en) | Numerical control sawing and milling machine | |
CN210877576U (en) | Double-spindle double-row-cutter numerical control lathe with inclined lathe body | |
CN103381498B (en) | A kind of numerical-control full-automatic retainer window milling machine | |
CN207359270U (en) | The self-feeding of numerical control double-end cog machine, feeding clip mechanism | |
CN202804903U (en) | Automatic feeding device for grinding machine | |
CN111390226A (en) | Intelligent machine manufacturing workstation | |
CN214135268U (en) | Robot polishing system | |
CN219945408U (en) | Automatic unloader of five machining centers | |
CN217253164U (en) | Intelligent part cutting device for equipment machining | |
CN219541824U (en) | Novel L-shaped edge planer |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |