CN207968237U - A kind of double-station motor stator part forming unit - Google Patents
A kind of double-station motor stator part forming unit Download PDFInfo
- Publication number
- CN207968237U CN207968237U CN201820383088.3U CN201820383088U CN207968237U CN 207968237 U CN207968237 U CN 207968237U CN 201820383088 U CN201820383088 U CN 201820383088U CN 207968237 U CN207968237 U CN 207968237U
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- Prior art keywords
- block
- shaping mechanism
- air cylinder
- fixed plate
- side guide
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Abstract
The utility model discloses a kind of double-station motor stator part forming units, include the press mechanism and shaping mechanism of operating platform and setting on the operational platform, the press mechanism includes lower air cylinder, the first fixed plate, lower platen and lower lock block, supporting rod;The shaping mechanism includes guiding mechanism, lateral pressing structure of shoe, and the guiding mechanism includes the two left side guide blocks being used in combination in left and right and right side guide block;The lateral pressing structure of shoe includes third horizontal air cylinder, the levelling block of setting on the operational platform;The shaping mechanism is two, respectively left side shaping mechanism and right side shaping mechanism, and the two is symmetrical arranged, and a lower lock block being used in combination with left side shaping mechanism and right side shaping mechanism is respectively set at left and right sides of the lower platen lower end.The side wall of component to be processed is processed into arcwall face using said mechanism, efficient, effect is good.
Description
Technical field
The utility model is related to motor component processing technique fields, add more particularly to a kind of double-station motor stator component
Tooling is set.
Background technology
Silicon steel sheet is a kind of carbon containing extremely low silicon-iron soft magnetic alloy, and general silicon content is 0.5~4.5%, and silicon, which is added, to be carried
The resistivity and maximum permeability of high ferro reduce coercivity, core loss (iron loss) and magnetic aging, resistivity and maximum point magnetic
Conductance is higher, commonly used to make the iron core of transformer, motor, motor.
It is illustrated in figure 6 the silicon steel sheet workpiece applied on motor stator, the process equipment of the component is non-standard equipment, enterprise
Industry designs the process equipment of research and development component to meet process requirements.
Utility model content
To meet the process requirements of enterprise, this application provides a kind of double-station motor stator part forming units.
To realize that the purpose of this utility model, the utility model provide a kind of double-station motor stator component processing dress
It sets, includes the press mechanism and shaping mechanism of operating platform and setting on the operational platform, the press mechanism includes pushing
Cylinder, the first fixed plate, lower platen and lower lock block, supporting rod, first fixed plate are connected to operation by supporting rod and put down
On platform, lower air cylinder is provided in first fixed plate, the piston rod of the lower air cylinder is after first fixed plate
It is connect with lower platen, the lower platen lower end is provided with the lower lock block being used in combination with shaping mechanism, the lower air cylinder band
The lower lock block is moved to rise or fall;The shaping mechanism includes guiding mechanism, lateral pressing structure of shoe, and the guiding mechanism includes left and right
Two left side guide blocks being used in combination and right side guide block, feed well is formed between the left side guide block and right side guide block, to be added
Ministry of worker's part enters from feed well, and the left side guide block and right side guide block include the corresponding feed zone in position, extruded segment and go out
Expect section, the opposite flank of the feed zone of the left side guide block and right side guide block is to face directly, the extruded segment of the left rail and
The side of discharging section is concave cambered surface, and the extruded segment of the right rail is notch, and discharging section is convexity arc surface, lateral pressing structure of shoe
It is arranged in indentation, there;The lateral pressing structure of shoe includes third horizontal air cylinder, the levelling block of setting on the operational platform, the third
The piston rod of horizontal air cylinder is connect with levelling block, and the levelling block is driven to move left and right, the width of the levelling block
With the equivalent width of notch, and the front end face of the levelling block be convexity arc surface, convexity arc surface and concave cambered surface match
It uses;The shaping mechanism is two, respectively left side shaping mechanism and right side shaping mechanism, and the two is symmetrical arranged, described
A lower lock block being used in combination with left side shaping mechanism and right side shaping mechanism is respectively set at left and right sides of lower platen lower end.
Compared with prior art, the beneficial effects of the utility model are, when use, two station working hours work, and
In this case synchronous working using same press mechanism, coordinates two shaping mechanisms, improves processing efficiency, reduce cost.It will
Multiple components to be processed as shown in Figure 5 successively and drain into the feed zone of the feed well that left side guide block and right side guide block are formed
It is interior, component to be processed is moved to extruded segment, under the madial wall for driving the lower lock block to treat processing component by lower air cylinder
The bottom face edge of pressure, lower lock block has shoulder structure, drives the levelling block by extruded segment by third horizontal air cylinder
Component to be processed squeezes, and is used in combination, will be waited for by the convexity arc surface of the front side of levelling block and the concave cambered surface of left guide block
The two side walls of processing component are processed into arcwall face, and after completion of processing, third horizontal air cylinder drives the levelling block to reset, under
Air cylinder drives the pushing block reset, then, the component of extruded segment is moved to discharging section, the shape of discharging section adds with described
The shape of the complete component of work matches, and contributes to the movement of component and the sizing of component.The to be processed of feed zone will be currently located in
Component is moved to extruded segment and is squeezed, such as above-mentioned cycle, and charging squeezes, discharging, and efficient, effect is good.
Description of the drawings
Fig. 1 show first schematic diagram of structure of the utility model;
Fig. 2 show the left side guide block of the utility model and the first schematic diagram of structure of right side guide block;
Fig. 3 show the left side guide block of the utility model and the second schematic diagram of structure of right side guide block;
Fig. 4 show second schematic diagram of structure of the utility model;
Fig. 5 show the structural schematic diagram of the workpiece to be added of the utility model;
Fig. 6 show the structural schematic diagram of the processing back part of the utility model;
In figure, 1- lower air cylinders, 2- guide rails, 3- lower platens, 4- upper rails, the first fixed plates of 5-, the upper movable blocks of 6-, 7-
One horizontal air cylinder, 8- link blocks, the second fixed plates of 9-, 10- lower guideways, the sides 11- fixed block, the second horizontal air cylinders of 12-, under 13-
Movable block, the second link blocks of 14-, 15- third fixed plates, 16- third horizontal air cylinders, 17- the linear guides, 18- levelling blocks,
Guide block on the right side of 19-, 20- components to be processed, the left sides 21- guide block, 22- lower lock blocks, 23- operating platforms, 24- longitudinal cylinders, 211-
Discharging section, 212- extruded segments, 213- feed zones, 25- stir column.
Specific implementation mode
The utility model is described in further detail below in conjunction with the drawings and specific embodiments.It should be appreciated that this place
The specific embodiment of description is only used to explain the utility model, is not used to limit the utility model.
It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase
Mutually combination.
It should be noted that term used herein above is merely to describe specific implementation mode, and be not intended to restricted root
According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singulative
Be also intended to include plural form, additionally, it should be understood that, when in the present specification using belong to "comprising" and/or " packet
Include " when, indicate existing characteristics, step, operation, component or module, component and/or combination thereof.
It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase
Mutually combination.
Embodiment 1
As shown in figs 1 to 6, present embodiments provide a kind of motor stator part forming unit, including operating platform and
Press mechanism and shaping mechanism on the operational platform is set, and the press mechanism includes lower air cylinder, the first fixed plate, pushes
Plate and lower lock block, supporting rod, first fixed plate are connected by supporting rod on the operational platform, in first fixed plate
It is provided with lower air cylinder, the piston rod of the lower air cylinder is connect after first fixed plate with lower platen, the pushing
Plate lower end is provided with the lower lock block being used in combination with shaping mechanism, the lower air cylinder drive the lower lock block rise or under
Drop;The shaping mechanism includes guiding mechanism, lateral pressing structure of shoe, and the guiding mechanism includes two left sides being used in combination in left and right
Guide block and right side guide block form feed well between the left side guide block and right side guide block, component to be processed enters from feed well, institute
It includes the corresponding feed zone in position, extruded segment and discharging section, the left side guide block and the right side to state left side guide block and right side guide block
The opposite flank of the feed zone of side guide block is to face directly, and the extruded segment of the left rail and the side of discharging section are concave arc
The extruded segment in face, the right rail is notch, and discharging section is convexity arc surface, and lateral pressing structure of shoe is arranged in indentation, there;The side pressure
Mechanism includes third horizontal air cylinder, the levelling block of setting on the operational platform, the piston rod and water of the third horizontal air cylinder
Concora crush block connects, and the levelling block is driven to move left and right, the width of the levelling block and the equivalent width of notch, and institute
The front end face for stating levelling block is convexity arc surface, and convexity arc surface and concave cambered surface are used in combination.
Wherein, the lower platen upper surface is connected with longitudinally disposed guide rail, the guide rail pass through the first fixed plate and with
First fixed plate is slidably connected.
Wherein, the linear guide is provided on the operating platform, the piston rod of the third horizontal air cylinder is across described straight
It line guide rail and is slidably connected with the linear guide.
Operation principle:When use, by multiple components to be processed as shown in Figure 5 successively and drain into left side guide block and
In the feed zone for the feed well that right side guide block is formed, component to be processed is moved to extruded segment, driven by lower air cylinder described in
The madial wall that lower lock block treats processing component pushes, and the bottom face edge of lower lock block has shoulder structure, passes through third horizontal gas
Cylinder drives the levelling block to squeeze the component to be processed of extruded segment, is led by the convexity arc surface and a left side of the front side of levelling block
The concave cambered surface of block is used in combination, and the two side walls of component to be processed are processed into arcwall face, and after completion of processing, third is horizontal
Cylinder drives the levelling block to reset, and lower air cylinder drives the pushing block reset to be then moved to the component of extruded segment
Discharging section, the shape of discharging section and the shape of the component processed match, and contribute to the movement of component and determining for component
Type.The component to be processed for being currently located in feed zone is moved to extruded segment to squeeze, such as above-mentioned cycle, feeds, squeezes, goes out
Material, efficient, effect is good.
Embodiment 2
As shown in figs 1 to 6, it on the basis of embodiment 1, in order to further increase production efficiency, present embodiments provides
A kind of double-station motor stator part forming unit, two stations can work at the same time.
Specifically, the shaping mechanism is two, respectively left side shaping mechanism and right side shaping mechanism, the two structure phase
Together, and the two is symmetrical arranged, and one is respectively set at left and right sides of the lower platen lower end and is molded with left side shaping mechanism and right side
The lower lock block that mechanism is used in combination.
The course of work:When use, two station working hour work, and work asynchronously, in this case, utilize same pushing
Mechanism coordinates two shaping mechanisms, improves processing efficiency, reduces cost.
Embodiment 3
As shown in figs 1 to 6, on the basis of embodiment 1 or embodiment 2, in order to further increase equipment automatization journey
Degree improves production efficiency, present embodiments provides a kind of motor stator part forming unit of material advancing mechanism.
The material advancing mechanism includes two, is used in combination respectively with left side organisation of working and right side organisation of working,
It include upper rail, upper rail movable block, first level cylinder and link block, the second fixed plate, side fixed block, lower guideway,
Lower movable block, longitudinal cylinder, the second link block, third fixed plate, stirs column at the second horizontal air cylinder, the upper rail upper end with
First fixed plate connects, and upper movable block is used in combination with upper rail, and the upper movable block lower end is connected with the link block, institute
It states first level cylinder to be connected on supporting rod, piston rod is connect with link block, and drives the upper movable block in upper rail
On move horizontally, the link block lower end is connect with the second fixed plate, and second fixed plate lower end is provided with lower guideway, described
Lower guideway is used in combination with lower movable block, and the lower movable block lower end is connected with longitudinal cylinder, the second fixed plate outside
It is connected with side fixed block, the side fixed block is connected with the second horizontal air cylinder, the piston rod of second horizontal air cylinder and longitudinal direction
Cylinder connects, and second horizontal air cylinder drives the lower movable block to be moved horizontally on lower guideway, the work of the longitudinal cylinder
Stopper rod lower end is connected with the second link block, and second link block lower end is connect with third fixed plate, under the third fixed plate
End is connected with the spaced poke rod of a row, and the longitudinal cylinder drives the poke rod to rise or fall.
In addition, upper rail is bolted with the first fixed plate,
In addition, upper rail lower part is stuck in the sliding groove of movable block, the two is slidably connected, correspondingly, lower guideway lower part
It is stuck in the sliding groove of the lower movable block, the two is slidably connected.
In addition, the connection of component and component is using connection type well known to bolt, welding or clamping etc. in the application.
The course of work:Component to be processed as shown in Figure 5 is put into the feed well that left side guide block and right side guide block are formed
It in feed zone, drives the poke rod to be moved forward and backward by first level cylinder, and be moved to component locations to be processed, utilizes the
Two horizontal air cylinders drive the poke rod to move left and right, and are moved to above component to be processed, and described dial is driven using longitudinal cylinder
Lever pushes, and component to be processed is pushed down, and passes through first level cylinder and drives poke rod movement so that component to be processed from
Feed zone is moved to extruded segment, then, arrives discharging section, and then, poke rod resets, and the lower lock block pair is driven by lower air cylinder
The madial wall of component to be processed pushes, and the madial wall upper end for being treated processing component with guide block upper surface using lower lock block is squeezed
Pressure drives the levelling block to squeeze the component to be processed of extruded segment, before levelling block by third horizontal air cylinder
The concave cambered surface of the convexity arc surface of side and left guide block is used in combination, and the two side walls of component to be processed are processed into arcwall face,
After completion of processing, third horizontal air cylinder drives the levelling block to reset, and lower air cylinder drives the pushing block reset, at this point,
Second horizontal air cylinder drives the poke rod to be moved to above the component of extruded segment, and longitudinal cylinder drives the poke rod to push will
The component and also unprocessed component processed is pushed down, and then, the component for driving extruded segment is moved by first level cylinder
It is moved to discharging section, the shape of discharging section and the shape of the component processed match, and contribute to the movement of component, drive
The component to be processed of feed zone is moved to extruded segment and is squeezed, such as above-mentioned cycle, carries out feeding, extruding, discharging, efficiency automatically
Height, effect are good.
The above is only the preferred embodiment of the utility model, it is noted that for the general of the art
For logical technical staff, without departing from the principle of this utility model, several improvements and modifications can also be made, these change
The scope of protection of the utility model is also should be regarded as into retouching.
Claims (3)
1. a kind of double-station motor stator part forming unit, which is characterized in that flat in operation including operating platform and setting
Press mechanism on platform and shaping mechanism, the press mechanism include lower air cylinder, the first fixed plate, lower platen and pushing
Block, supporting rod, first fixed plate are connected on the operational platform by supporting rod, and pushing is provided in first fixed plate
The piston rod of cylinder, the lower air cylinder is connect after first fixed plate with lower platen, the lower platen lower end setting
There are the lower lock block being used in combination with shaping mechanism, the lower air cylinder that the lower lock block is driven to rise or fall;The molding
Mechanism includes guiding mechanism, lateral pressing structure of shoe, and the guiding mechanism includes the two left side guide blocks being used in combination in left and right and right side
Guide block forms feed well between the left side guide block and right side guide block, component to be processed enters from feed well, the left side guide block
Include the corresponding feed zone in position, extruded segment and discharging section with right side guide block, the left side guide block and right side guide block into
Expect that the opposite flank of section is to face directly, the extruded segment of the left rail and the side of discharging section are concave cambered surface, the right side
The extruded segment of side rails is notch, and discharging section is convexity arc surface, and lateral pressing structure of shoe is arranged in indentation, there;The lateral pressing structure of shoe includes setting
Third horizontal air cylinder, levelling block on the operational platform is set, the piston rod of the third horizontal air cylinder is connect with levelling block,
And the levelling block is driven to move left and right, the width of the levelling block and the equivalent width of notch, and the levelling block
Front end face be convexity arc surface, convexity arc surface and concave cambered surface are used in combination;The shaping mechanism is two, respectively left
Side shaping mechanism and right side shaping mechanism, and the two is symmetrical arranged, be respectively set at left and right sides of the lower platen lower end one with
The lower lock block that left side shaping mechanism and right side shaping mechanism are used in combination.
2. double-station motor stator part forming unit according to claim 1, which is characterized in that the lower platen upper end
Face is connected with longitudinally disposed guide rail, and the guide rail passes through the first fixed plate and is slidably connected with first fixed plate.
3. double-station motor stator part forming unit according to claim 1, which is characterized in that on the operating platform
It is provided with the linear guide, the piston rod of the third horizontal air cylinder, which passes through the linear guide and slided with the linear guide, to be connected
It connects.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820383088.3U CN207968237U (en) | 2018-03-20 | 2018-03-20 | A kind of double-station motor stator part forming unit |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820383088.3U CN207968237U (en) | 2018-03-20 | 2018-03-20 | A kind of double-station motor stator part forming unit |
Publications (1)
Publication Number | Publication Date |
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CN207968237U true CN207968237U (en) | 2018-10-12 |
Family
ID=63725550
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201820383088.3U Expired - Fee Related CN207968237U (en) | 2018-03-20 | 2018-03-20 | A kind of double-station motor stator part forming unit |
Country Status (1)
Country | Link |
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CN (1) | CN207968237U (en) |
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2018
- 2018-03-20 CN CN201820383088.3U patent/CN207968237U/en not_active Expired - Fee Related
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Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20181012 |
|
CF01 | Termination of patent right due to non-payment of annual fee |