CN109998207A - Solid takes the adjustable coat-sleeve model of plate - Google Patents
Solid takes the adjustable coat-sleeve model of plate Download PDFInfo
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- CN109998207A CN109998207A CN201910292345.1A CN201910292345A CN109998207A CN 109998207 A CN109998207 A CN 109998207A CN 201910292345 A CN201910292345 A CN 201910292345A CN 109998207 A CN109998207 A CN 109998207A
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- sleeve
- module
- mountain
- sleeve body
- motor
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- A—HUMAN NECESSITIES
- A41—WEARING APPAREL
- A41H—APPLIANCES OR METHODS FOR MAKING CLOTHES, e.g. FOR DRESS-MAKING OR FOR TAILORING, NOT OTHERWISE PROVIDED FOR
- A41H43/00—Other methods, machines or appliances
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- Textile Engineering (AREA)
- Toys (AREA)
- Moulds For Moulding Plastics Or The Like (AREA)
Abstract
A kind of solid takes the adjustable coat-sleeve model of plate, belongs to coat-sleeve modelling technique field.Including a sleeve body lower die mechanism;Mold mechanism with one sleeve, mold mechanism is connect in the position for the top for corresponding to the sleeve lower die mechanism with body lower die mechanism of tucking inside the sleeve with the sleeve;One sleeve mountain lower die mechanism, sleeve mountain lower die mechanism mold mechanism with corresponding to the position of the top of mold mechanism with the sleeve and sleeve connect;One sleeve mountain upper die mechanism, the sleeve mountain upper die mechanism are connect in the position for the top for corresponding to the sleeve mountain lower die mechanism with sleeve mountain lower die mechanism;One sheath, which is nested with the mold mechanism with sleeve mountain upper die mechanism, sleeve mountain lower die mechanism, sleeve and tucks inside the sleeve outside body lower die mechanism, and the top of the sheath is provided with an electric controller for being furnished with display screen.Specification, accurate positioning and the self-assembling formation sleeve mountain contracting seam amount of accurate adjustment sleeve, meet and take plate requirement to zoarium sleeve;Simplify operation, raising takes plate efficiency;Guarantee takes plate precision.
Description
Technical field
The invention belongs to coat-sleeve modelling technique fields, and in particular to a kind of solid takes the adjustable coat-sleeve model of plate, is used for clothes
The quick stereo of coat-sleeve takes plate.
Background technique
As is known in the industry, coat-sleeve is the indispensable important component of apparel construction, and basic styling cyclotomy sleeve connects
Sleeve and raglan sleeve three classes.Circle sleeve is the stereo sleeve type that sleeve chevron shape is in arc-shaped;Even sleeve sleeve body is connected as a body with clothing body
Plane sleeve type;Raglan sleeve is half stereo sleeve type being connected on the basis of circle sleeve with shoulder partitioning portion.And then as is known in the industry, clothing
An important factor for sleeve is both the complex component and reflection apparel quality superiority and inferiority of clothes.In clothes and manufacture field, the making sheet of coat-sleeve
Technical difficulty is relatively large.
The technical information that plate is taken about coat-sleeve can be seen in disclosed Chinese patent literature, as CN202786769U recommends
There is shirt sleeve Long shaper.A kind of typical " gang form for cutting sizes sleeve " provided such as CN2346229Y,
Although the patent has the effect that the sleeve that can determine different sizes and style, cut out efficiency raising, rejection rate is low and makes
It makes at low cost.But since the template that the patent provides tends to planar structure, thus it is not only troublesome in poeration, and technical difficulty is big, and
And plate efficiency is taken to be not enough to reach the expection of industry, especially because the precision of version type is difficult to or even is unable to control, thus to sleeve
Quality can generate certain influence.In view of this, it is necessary to explored with improve, technical solution described below be
It is generated under this background.
Summary of the invention
Task of the invention lies in provide one kind facilitate accurate molding sleeve type, sleeve point and self-assembling formation sleeve in accurate positioning
The contracting seam amount on mountain and be satisfied taking plate requirement, being conducive to significantly simplify operation and be improved and take plate efficiency, have for fit sleeve
It is able to ensure that the solid of template precision takes the adjustable coat-sleeve model of plate convenient for embodying good automation effect.
The task of the present invention is in this way to complete, and a kind of solid takes plate adjustable coat-sleeve model, including a sleeve body lower die machine
Structure;Mold mechanism with one sleeve, mold mechanism is in position and the sleeve body lower die for corresponding to the top of the sleeve lower die mechanism with the sleeve
Mechanism connection;One sleeve mountain lower die mechanism, the sleeve mountain lower die mechanism correspond to the sleeve with mold mechanism top position with
Mold mechanism connects with sleeve;One sleeve mountain upper die mechanism, the sleeve mountain upper die mechanism is in the top for corresponding to the sleeve mountain lower die mechanism
Position with sleeve mountain lower die mechanism connect;One sheath, the sheath are nested in sleeve mountain upper die mechanism, sleeve mountain lower die mechanism, sleeve
With it mold mechanism and sleeve body lower die mechanism outside, and the top of the sheath be provided with one be furnished with display screen electric controller.
In a specific embodiment of the invention, the sleeve body lower die mechanism includes sleeve body lower-left module, sleeve body
Bottom right module, sleeve body lower-left module motor, sleeve body bottom right module motor, sleeve body lower module folding motor, sleeve body lower module displacement
The shape of module upper and lower displacement sensor with sensor and sleeve, the left and right lower module of body of tucking inside the sleeve is mutually the same, and body of tucking inside the sleeve is left and right
The surface of the opposite side of lower module is respectively plane, is offered at least in the side of sleeve body lower-left module towards sleeve body bottom right module
A pair of sleeve body lower-left module guide rod hole, and be also provided with one in sleeve body lower-left module and passed through from the upper end of foresleeve body lower-left module
The sleeve body lower-left module wire guide for passing to lower end towards the side of sleeve body lower-left module and is corresponding in sleeve body bottom right module
The position of sleeve body lower-left module guide rod hole is fixed at least a pair of of sleeve body bottom right module guide rod, this to sleeve body bottom right module guide rod with
Sleeve body lower-left module guide rod hole is slidably matched, and is also provided with one from the upper end for body bottom right module of tucking inside the sleeve in sleeve body bottom right module
It penetrates through to the sleeve body bottom right module wire guide of lower end, the top of sleeve body lower-left module, the sleeve is arranged in sleeve body lower-left module motor
The sleeve body lower-left module motor shaft of body lower-left module motor is threadedly coupled for screw shaft and with mold mechanism with the sleeve, body of tucking inside the sleeve
The top of sleeve body bottom right module is arranged in bottom right module motor, and the sleeve body bottom right module motor shaft of the sleeve body bottom right module motor is
It screw shaft and is equally threadedly coupled with mold mechanism with the sleeve, sleeve body lower module folding motor setting is in sleeve body bottom right module
Towards the middle part of the short transverse of the side of sleeve body lower-left module, the sleeve body lower module which opens and closes motor opens and closes electricity
Arbor is screw shaft and is threadedly coupled with the sleeve body lower-left module threaded hole being provided in sleeve body lower-left module, body lower module of tucking inside the sleeve
Sleeve body lower-left module is arranged in towards the side of sleeve body bottom right module or setting in sleeve body bottom right module direction in displacement sensor
The side for body lower-left module of tucking inside the sleeve, the top of sleeve body lower-left module is arranged in module upper and lower displacement sensor with sleeve or setting exists
The top for body bottom right module of tucking inside the sleeve;The left and right lower module motor of the sleeve body, sleeve body lower module folding motor, sleeve body lower module position
Module upper and lower displacement sensor is connect with the electric controller electrical control with displacement sensor and sleeve;With the sleeve
Mold mechanism is in position and the sleeve body lower-left mould for corresponding to the top of the sleeve body lower-left module and rear sleeve body bottom right module
Block motor shaft and sleeve body bottom right module motor axis connection, and when sleeve with mold mechanism towards away from sleeve body lower-left module and
When the direction of sleeve body bottom right module shifts up, the sleeve mountain lower die mechanism and sleeve mountain upper die mechanism are also accordingly shifted up,
The sheath longitudinal elongation, and the direction of mold mechanism towards sleeve body lower-left module and body bottom right module of tucking inside the sleeve is downward with sleeve
When displacement, mountain lower die mechanism of tucking inside the sleeve and sleeve mountain upper die mechanism are also accordingly to bottom offset, sheath longitudinal contraction and when the sleeve body
Left and right lower module is denounceed each other when opening, sheath horizontal expansion, and when the left and right lower module of body of tucking inside the sleeve closes up in opposite directions, sheath is laterally received
Contracting.
In another specific embodiment of the invention, mold mechanism includes sleeve body upper left module, sleeve with the sleeve
Body upper right module, sleeve body upper left module motor, sleeve body upper right module motor, module folding motor with sleeve, module position with sleeve
The shape of module upper and lower displacement sensor with displacement sensor and sleeve, the left and right upper module of body of tucking inside the sleeve is mutually the same and body of tucking inside the sleeve is left and right
The surface of the opposite side of upper module is respectively plane, is offered at least in the side of sleeve body upper left module towards sleeve body upper right module
A pair of sleeve body upper left module guide rod hole, and be also provided with one in sleeve body upper left module and penetrated through from the upper end of sleeve body upper left module
To the sleeve body upper left module wire guide of lower end, sleeve body upper left module bottom and corresponding to sleeve body lower-left module it is electric
The position of arbor offers a sleeve body upper left module bottom screw hole being threadedly coupled with sleeve body lower-left module motor shaft, in sleeve body
Upper right module towards sleeve body upper left module side and be fixed at least in the position for corresponding to sleeve body upper left module guide rod hole
A pair of sleeve body upper right module guide rod, this is slidably matched to sleeve body upper right module guide rod and a pair of sleeve body upper left module guide rod hole, and
And it is also provided with one in sleeve body upper right module and penetrates through from the upper end of sleeve body upper right module to the sleeve body upper right module conducting wire of lower end
Hole, sleeve body upper right module bottom and correspond to it is described sleeve body bottom right module motor shaft position offering one with sleeve body
The sleeve body upper right module bottom screw hole that bottom right module motor shaft is threadedly coupled, the setting of sleeve body upper left module motor is in sleeve body upper left
The top of module, the sleeve body upper left module motor shaft of the sleeve body upper left module motor be screw shaft and with sleeve mountain lower die machine
Structure is threadedly coupled, and the top of sleeve body upper right module, the sleeve body of the sleeve body upper right module motor is arranged in sleeve body upper right module motor
Upper right module motor shaft is screw shaft and is equally threadedly coupled with sleeve mountain lower die mechanism that module folding motor is set with sleeve
Set the module folding motor with the middle part of the short transverse of the side of sleeve body upper right module direction sleeve body upper left module, the sleeve
With sleeve module folding motor shaft be screw shaft and be provided with sleeve body upper left module on sleeve body upper left module threaded hole spiral shell
Line connects, and module displacement sensor is arranged in sleeve body upper left module and exists towards the side of sleeve body upper right module or setting with sleeve
Body upper right module of tucking inside the sleeve is towards the side of sleeve body upper left module, and the setting of module upper and lower displacement sensor is in sleeve body upper left module with sleeve
Top or be arranged in sleeve body upper right module top;Module folding electricity with the left and right upper module motor of the sleeve body, sleeve
Module upper and lower displacement sensor and the electric controller electrical control connect with module displacement sensor and sleeve with machine, sleeve
It connects;The sleeve mountain lower die mechanism is in position and the institute for corresponding to the top of the sleeve body upper left module and body upper right module of tucking inside the sleeve
Sleeve body upper left module motor shaft and sleeve body upper right module motor axis connection are stated, and when sleeve mountain lower die mechanism is towards away from sleeve body
When the direction of upper left module and body upper right module of tucking inside the sleeve shifts up, sleeve mountain upper die mechanism is also accordingly shifted up, described
Sheath longitudinal elongation, and when sleeve mountain lower die mechanism is towards the direction of sleeve body upper left module and body upper right module of tucking inside the sleeve to bottom offset
When, sleeve mountain upper die mechanism is also accordingly to bottom offset, sheath longitudinal contraction and when the left and right upper module of body of tucking inside the sleeve denounces open each other, shield
Horizontal expansion is covered, and when the left and right upper module of body of tucking inside the sleeve closes up in opposite directions, sheath cross-direction shrinkage.
In another specific embodiment of the invention, the sleeve mountain lower die mechanism includes sleeve mountain lower-left module, sleeve
Mountain bottom right module, sleeve mountain lower-left module motor, sleeve mountain bottom right module motor, sleeve mountain lower module folding motor, sleeve mountain lower module position
Displacement sensor and sleeve mountain upper module upper and lower displacement sensor, the shape for the left and right lower module in mountain of tucking inside the sleeve is mutually the same and mountain of tucking inside the sleeve is left and right
The surface of the opposite side of lower module is respectively plane, offers a sleeve in the side of sleeve mountain lower-left module towards sleeve mountain bottom right module
Mountain lower-left module guide rod hole, and be also provided with one in sleeve mountain lower-left module and penetrate through from the upper end of sleeve mountain lower-left module to lower end
Sleeve mountain lower-left module wire guide, sleeve mountain lower-left module bottom and corresponding to the sleeve body upper left module motor shaft
Position offers the sleeve mountain lower-left module motor shaft mate with threaded holes being threadedly engaged with sleeve body upper left module motor shaft, right on sleeve mountain
Lower module towards sleeve mountain lower-left module side and correspond to sleeve mountain lower-left module guide rod hole position be fixed with a sleeve mountain
Bottom right module guide rod, the sleeve mountain bottom right module guide rod are slidably matched with sleeve mountain lower-left module guide rod hole, and in sleeve mountain bottom right mould
It is also provided with one on block to penetrate through from the upper end of sleeve mountain bottom right module to the sleeve mountain bottom right module wire guide of lower end, in sleeve mountain bottom right mould
The bottom of block and correspond to it is described sleeve body upper right module motor shaft position offer with sleeve body upper right module motor shaft spiral shell
The upper of sleeve mountain lower-left module is arranged in the sleeve mountain bottom right module motor shaft mate with threaded holes of line cooperation, sleeve mountain lower-left module motor
Portion, the sleeve mountain lower-left module motor shaft of the sleeve mountain lower-left module motor are screw shaft and connect with sleeve mountain upper die mechanism screw thread
It connects, the top of sleeve mountain bottom right module, the sleeve mountain bottom right module of the sleeve mountain bottom right module motor is arranged in sleeve mountain bottom right module motor
Motor shaft is screw shaft and is equally threadedly coupled with sleeve mountain upper die mechanism that sleeve mountain lower module folding motor setting is on sleeve mountain
The middle part of the short transverse of the side of bottom right module direction sleeve mountain lower-left module, the sleeve mountain bottom right module open and close under the sleeve mountain of motor
Module folding motor shaft is threadedly coupled for screw shaft and with the sleeve mountain lower-left module threaded hole being provided in sleeve mountain lower-left module,
It is right on sleeve mountain towards the side of sleeve mountain bottom right module or setting that sleeve mountain lower-left module is arranged in sleeve mountain lower module displacement sensor
The top of sleeve mountain lower-left module is arranged in towards the side of sleeve mountain lower-left module, sleeve mountain upper module upper and lower displacement sensor in lower module
Or the top of sleeve mountain bottom right module is set;The left and right lower module motor in the sleeve mountain, sleeve mountain lower module folding motor, sleeve
Mountain lower module displacement sensor and sleeve mountain upper module upper and lower displacement sensor are connect with the electric controller electrical control;Institute
The sleeve mountain upper die mechanism stated is in the position for corresponding to the top of the sleeve mountain lower-left module and mountain bottom right module of tucking inside the sleeve and the sleeve
Mountain lower-left module motor shaft and sleeve mountain bottom right module motor axis connection, and when sleeve mountain upper die mechanism is towards away from sleeve mountain lower-left
The direction of module and mountain bottom right module of tucking inside the sleeve is when shifting up, the sheath longitudinal elongation, and when sleeve mountain upper die mechanism towards
When the direction of mountain lower-left module of tucking inside the sleeve and mountain bottom right module of tucking inside the sleeve is to bottom offset, the sheath longitudinal contraction and when sleeve mountain is left and right
Lower module is denounceed each other when opening, sheath horizontal expansion, and when the left and right lower module in mountain of tucking inside the sleeve closes up in opposite directions, sheath cross-direction shrinkage.
In another specific embodiment of the invention, the sleeve mountain upper die mechanism includes sleeve mountain upper left module, sleeve
Mountain upper right module and sleeve mountain upper module open and close motor, the left and right upper module in mountain of tucking inside the sleeve shape is mutually the same and the left and right upper mold in mountain of tucking inside the sleeve
The surface of the opposite side of block is respectively configured to plane, offers a sleeve in the side of sleeve mountain upper left module towards sleeve mountain upper right module
Mountain upper left module guide rod hole, sleeve mountain upper left module bottom and correspond to it is described sleeve mountain lower-left module motor shaft position
The sleeve mountain upper left module motor shaft mate with threaded holes being threadedly engaged with sleeve mountain lower-left module motor shaft is offered, in sleeve mountain upper right mould
Block towards sleeve mountain upper left module side and correspond to sleeve mountain upper left module guide rod hole position be fixed with a sleeve mountain upper right
Module guide rod, the sleeve mountain upper right module guide rod are slidably matched with sleeve mountain upper left module guide rod hole, in the bottom of sleeve mountain upper right module
And it is offered in the position for corresponding to the sleeve mountain bottom right module motor shaft and is threadedly engaged sleeve with sleeve mountain bottom right module motor shaft
Mountain upper right module motor shaft mate with threaded holes, when the sleeve mountain, left and right upper module is denounceed each other when opening, the sheath horizontal expansion,
And when the left and right upper module in mountain of tucking inside the sleeve closes up in opposite directions, sheath cross-direction shrinkage, sleeve mountain upper module folding motor setting is in sleeve mountain upper right mould
The middle part of the short transverse of the side of block direction sleeve mountain upper left module, the sleeve mountain upper module open and close the sleeve mountain upper module folding of motor
Motor shaft is screw shaft and is threadedly coupled with the sleeve mountain upper left module threaded hole being provided in sleeve mountain upper left module, mountain upper mold of tucking inside the sleeve
Block folding motor is connect with the electric controller electrical control.
It is formed with a sleeve running-on in the bottom of the sheath there are one in specific embodiment of the invention,
A cinch cord is equipped on the sleeve running-on, the sheath is made of elastic material;The elastic material is silicon rubber.
In a still more specific embodiment of the invention, the left and right lower module motor of the sleeve body and after tuck inside the sleeve body
It is the motor with positive and negative rotating function that lower module, which opens and closes motor,.
In an of the invention and then specific embodiment, the left and right upper module motor of the sleeve body and after tuck inside the sleeve body
It is the motor with positive and negative rotating function that upper module, which opens and closes motor,.
The left and right lower module motor in sleeve mountain and foresleeve in yet a further embodiment of the present invention
It is the motor with positive and negative rotating function that mountain lower module, which opens and closes motor,.
Of the invention again and then in a specific embodiment, the sleeve mountain upper module folding motor is with positive and negative
The motor of rotating function.
Technical solution provided by the invention have the technical effect that due to use sleeve with, lower die mechanism, sleeve mountain on,
Lower die mechanism and sheath, thus help accurately to adjust specification, accurate positioning and the self-assembling formation sleeve mountain contracting seam of sleeve
Amount meets and takes plate requirement to zoarium sleeve;Due to mold mechanism, sleeve body lower die mechanism, sleeve mountain upper die mechanism and sleeve mountain with sleeve
Lower die mechanism respectively can be opened and closed independently, and since mold mechanism, sleeve mountain lower die mechanism and sleeve mountain upper die mechanism with sleeve can be each
From lifting, thus be conducive to significantly simplify operation and be improved and take plate efficiency;Due to sleeve, the folding of lower die mechanism, tucking inside the sleeve
The liter of the lifting of mold mechanism, the lifting for mountain lower die mechanism of tucking inside the sleeve and mountain upper die mechanism of tucking inside the sleeve with the folding of the upper and lower mold mechanism in mountain, sleeve
Drop can be automatically performed, thus can be embodied good automation effect and be ensured and take plate precision.
Detailed description of the invention
Fig. 1 is the embodiment of the present invention structure chart.
Specific embodiment
In order to which technical spirit and beneficial effect of the invention is more clearly understood, applicant is below with embodiment
Mode elaborate, but be not limitation to the present invention program, any structure according to the present invention to the description of embodiment
Think made only formal but not substantive equivalent transformation and is regarded as technical solution of the present invention scope.
All concepts for being related to upper and lower directionality or directionality are all with position locating for Fig. 1 in the following description
On the basis of setting state, the concept of forward and backward directionality be by the location of Fig. 1 it is left and right on the basis of, thus cannot be by it
It is interpreted as being particularly limited to technical solution provided by the invention.Such as under realistic application conditions, the knot for body lower die mechanism 1 of tucking inside the sleeve
The sleeve body lower-left module 11 and sleeve body bottom right module 12 of structure system are essentially foresleeve body lower module and rear sleeve body lower module;
Sleeve body lower-left module motor 13 and sleeve body bottom right module motor 14 are essentially under foresleeve body lower module motor and rear sleeve body
Module motor.Before the sleeve body upper left module 21 of the structural system of mold mechanism 2 and sleeve body upper right module 22 are essentially with sleeve
Module with module and rear sleeve with sleeve;Before sleeve body upper left module motor 23 and sleeve body upper right module motor 24 are essentially
Module motor with module motor and rear sleeve with sleeve.Due to sleeve mountain lower die mechanism 3 and the structural body for mountain upper die mechanism 4 of tucking inside the sleeve
It is same example, thus repeats no more.
Referring to Figure 1, a sleeve body lower die mechanism 1 is shown;Mold mechanism 2 with one sleeve, mold mechanism 2 is in correspondence with the sleeve
It is connected in the position of the top of aforementioned sleeve lower die mechanism 1 and the sleeve lifting of body lower die mechanism 1;One sleeve mountain lower die mechanism 3, under the sleeve mountain
The lifting of mold mechanism 2 with corresponding to the position of the top of mold mechanism 2 with aforementioned sleeve and sleeve of mold mechanism 3 connects;On one sleeve mountain
Mold mechanism 4, the sleeve mountain upper die mechanism 4 is in 3 liters of mountain lower die mechanism of position and sleeve for corresponding to the top of aforementioned sleeve mountain lower die mechanism 3
Drop connection;One sheath 5, the sheath 5 be nested with (" being wrapped in " can also be claimed) aforementioned sleeve mountain upper die mechanism 4, sleeve mountain lower die mechanism 3,
With sleeve outside mold mechanism 2 and sleeve body lower die mechanism 1, and it is electrical equipped with display screen 511 that the top of the sheath 5 is provided with one
Controller 51.
As a preferred option, can also aforementioned sheath 5 top and around aforementioned display screen 511 surrounding position
It sets and fixes four compress items 512, in particular, four compress items 512 are located at the edge for being distributed in the upper front face of sheath 5
Position is reached unanimity with the shape of the camber line of the edge in the upper front face of sheath 5.
As shown in the above description: with sleeve, lower die mechanism 2,1, sleeve mountain lower die mechanism 3 and sleeve mountain upper die mechanism 4 this four
A module is located in sheath 5.
Continue to see Fig. 1, sleeve body lower die mechanism 1 above-mentioned includes sleeve body lower-left module 11, sleeve body bottom right module 12, a sleeve body left side
Lower module motor 13, sleeve body bottom right module motor 14, sleeve body lower module folding motor 15, sleeve 16 and of body lower module displacement sensor
Under the shape of module upper and lower displacement sensor 17 with sleeve, the left and right lower module 11,12 of body of tucking inside the sleeve is mutually the same, and body of tucking inside the sleeve is left and right
The surface of the opposite side of module 11,12 is respectively plane, is opened in the side of sleeve body lower-left module 11 towards sleeve body bottom right module 12
One is also provided with from a foresleeve body left side equipped at least a pair of of sleeve body lower-left module guide rod hole 111, and in sleeve body lower-left module 11
The upper end of lower module 11 is penetrated through to the sleeve body lower-left module wire guide 112 of lower end, sleeve body bottom right module 12 towards sleeve body lower-left
The side of module 11 and at least a pair of of sleeve body bottom right module is fixed in the position for corresponding to sleeve body lower-left module guide rod hole 111
Guide rod 121, this is slidably matched to sleeve body bottom right module guide rod 121 and sleeve body lower-left module guide rod hole 111, and in sleeve body bottom right
One is also provided in module 12 to penetrate through from the upper end of sleeve body bottom right module 12 to the sleeve body bottom right module wire guide 122 of lower end, sleeve
The top of sleeve body lower-left module 11, the sleeve body lower-left module of the sleeve body lower-left module motor 13 is arranged in body lower-left module motor 13
Motor shaft 131 is screw shaft and is threadedly coupled with mold mechanism 2 with aforementioned sleeve that the setting of sleeve body bottom right module motor 14 is in sleeve body
The top of bottom right module 12, the sleeve body bottom right module motor shaft 141 of the sleeve body bottom right module motor 14 are screw shaft and same
Be threadedly coupled with mold mechanism 2 with aforementioned sleeve, sleeve body lower module folding motor 15 setting sleeve body bottom right module 12 towards sleeve body
The middle part of the short transverse of the side of lower-left module 11, the sleeve body lower module which opens and closes motor 15 open and close motor shaft
151 are threadedly coupled for screw shaft and with the sleeve body lower-left module threaded hole 113 being provided in sleeve body lower-left module 11, tuck inside the sleeve under body
It is right in sleeve body towards the side of sleeve body bottom right module 12 or setting that sleeve body lower-left module 11 is arranged in module displacement sensor 16
Lower module 12 is towards the side of sleeve body lower-left module 11, and the setting of module upper and lower displacement sensor 17 is in sleeve body lower-left module with sleeve
11 top, but also can be set at the top of sleeve body bottom right module 12.
The left and right lower module motor of sleeve body above-mentioned 13,14, sleeve body lower module folding motor 15, sleeve body lower module displacement pass
Module upper and lower displacement sensor 17 is connect with aforementioned 51 electrical control of electric controller with sensor 16 and sleeve;Sleeve body above-mentioned
Upper die mechanism 2 is in the position for corresponding to the top of aforementioned sleeve body lower-left module 11 and rear sleeve body bottom right module 12 and aforementioned sleeve body
Lower-left module motor shaft 131 and sleeve body bottom right module motor shaft 141 connect, and when sleeve with mold mechanism 2 towards away from sleeve
When the direction of body lower-left module 11 and body bottom right module 12 of tucking inside the sleeve shifts up, aforementioned sleeve mountain lower die mechanism 3 and sleeve mountain upper mold
Mechanism 4 also accordingly shifts up, 5 longitudinal elongation of sheath above-mentioned, and when sleeve with mold mechanism 2 towards sleeve body lower-left module 11 with
And the direction of sleeve body bottom right module 12 to bottom offset when, mountain lower die mechanism 3 of tucking inside the sleeve and sleeve mountain upper die mechanism 4 are also accordingly to bottom
It moves, 5 longitudinal contraction of sheath and when the left and right lower module 11,12 of aforementioned sleeve body denounce open each other, 5 horizontal expansion of sheath, and ought tuck inside the sleeve
When the left and right lower module 11,12 of body closes up in opposite directions, 5 cross-direction shrinkage of sheath.
The shape of aforementioned sleeve body lower-left module 11 and body bottom right module 12 of tucking inside the sleeve is matched with shape shown in FIG. 1,
I.e. cross-sectional shape reduces gradually from up to down in D font and size.
As a preferred option, in the side of lower part (i.e. lower end) the direction sleeve body bottom right module 12 of sleeve body lower-left module 11
Composition has a sleeve body lower-left block supports pipe mating cavity 114.Same reason, in the lower part (i.e. lower end) of sleeve body bottom right module 12
Constituting towards the side of sleeve body lower-left module 11 has a sleeve body bottom right block supports pipe mating cavity (not shown), and the sleeve body is right
Lower module support tube mating cavity is corresponding with sleeve body lower-left block supports pipe mating cavity 114 above-mentioned.One is also shown in Fig. 1
Support tube 6, the upper end of the support tube 6 probe into sleeve body lower-left block supports pipe mating cavity 114 above-mentioned and sleeve body bottom right module branch
Corresponding to the locking spiral shell for being provided with the lower part of sleeve body bottom right module 12 between stay tube mating cavity and by support tube lock screw
The position of nail hole 123 locks.The function of aforementioned support tube 6 is for the present invention to be supported on field of employment, such as by support tube 6
Bottom fixed with a base plate (not shown), in use, base plate branch is fixed on the terrace of field of employment.
The control line of aforementioned sleeve body lower-left module motor 13, the signal wire for body lower module displacement sensor 16 of tucking inside the sleeve and sleeve body
The signal wire of upper module upper and lower displacement sensor 17 is passed through to be electrically connected with electric controller 51 above-mentioned;Aforementioned sleeve body bottom right module
The control line of motor 14 and the control line and electric controller 51 of sleeve body bottom right module folding motor 15 are electrically connected.
Aforementioned electric controller one setter system has a chargeable module (not shown), is electric-controlled by the chargeable module
Device 51 processed provides electric energy, to ensure aforementioned sleeve body lower-left module motor 13, sleeve body lower module displacement sensor 16, in body module of tucking inside the sleeve
The next displacement sensor 17, sleeve body bottom right module motor 14, sleeve body lower module folding motor 15 are able under working normally and ensuring
Mold mechanism 2, sleeve mountain lower die mechanism 3, sleeve mountain upper die mechanism 4 are worked normally with the sleeve that face is also mentioned that.
Continue to see Fig. 1, mold mechanism 2 includes sleeve body upper left module 21, sleeve body upper right module 22, a sleeve body left side with sleeve above-mentioned
Upper module motor 23, sleeve body upper right module motor 24, sleeve with module folding motor 25, sleeve with 26 and of module displacement sensor
Module upper and lower displacement sensor 27 with sleeve, the left and right upper module 21,22 of body of tucking inside the sleeve shape is mutually the same and body of tucking inside the sleeve it is left and right on
The surface of the opposite side of module 21,22 is respectively plane, is opened in the side of sleeve body upper left module 21 towards sleeve body upper right module 22
One is also provided with from sleeve body upper left equipped at least a pair of of sleeve body upper left module guide rod hole 211, and in sleeve body upper left module 21
The upper end of module 21 is penetrated through to the sleeve body upper left module wire guide 212 of lower end, sleeve body upper left module 21 bottom and right
One should be offered in the position of aforementioned sleeve body lower-left module motor shaft 131 to be threadedly coupled with the body lower-left module motor shaft 131 of tucking inside the sleeve
Sleeve body upper left module bottom screw hole towards the side of sleeve body upper left module 21 and is corresponding to sleeve in sleeve body upper right module 22
The position of body upper left module guide rod hole 211 is fixed at least a pair of of sleeve body upper right module guide rod 221, this leads sleeve body upper right module
Bar 221 is slidably matched with a pair of sleeve body upper left module guide rod hole 211, and is also provided with one from sleeve in sleeve body upper right module 22
The upper end of body upper right module 22 is penetrated through to the sleeve body upper right module wire guide 222 of lower end, sleeve body upper right module 22 bottom simultaneously
And one and sleeve 141 screw thread of body bottom right module motor shaft are offered in the position for corresponding to aforementioned sleeve body bottom right module motor shaft 141
The top of sleeve body upper left module 21 is arranged in the sleeve body upper right module bottom screw hole of connection, sleeve body upper left module motor 23, should
Tuck inside the sleeve body upper left module motor 23 sleeve body upper left module motor shaft 231 be screw shaft and with 3 screw thread of aforementioned sleeve mountain lower die mechanism
The top of sleeve body upper right module 22, the sleeve body of the sleeve body upper right module motor 24 is arranged in connection, sleeve body upper right module motor 24
Upper right module motor shaft 241 is screw shaft and is equally threadedly coupled with aforementioned sleeve mountain lower die mechanism 3 that module folding is electric with sleeve
Machine 25 be arranged in sleeve body upper right module 22 towards the side of sleeve body upper left module 21 short transverse middle part, module with the sleeve
Open and close motor 25 sleeve with module folding motor shaft 251 be screw shaft and be provided with sleeve body upper left module 21 on sleeve body
Upper left module threaded hole 213 is threadedly coupled, and the setting of module displacement sensor 26 is in sleeve body upper left module 21 towards sleeve body with sleeve
Sleeve body upper right module 22 is arranged in towards the side of sleeve body upper left module 21, with sleeve in module in the side of upper right module 22
The top of sleeve body upper left module 21 is arranged in the next displacement sensor 27, but also can be set at the top of sleeve body upper right module 22.
The left and right upper module motor of sleeve body above-mentioned 23,24, module folding motor 25 with sleeve, module displacement passes with sleeve
Module upper and lower displacement sensor 27 is connect with aforementioned 51 electrical control of electric controller with sensor 26 and sleeve.
It is above-mentioned sleeve body upper left module 21 and tuck inside the sleeve body upper right module 22 shape be it is consistent with shape shown in Fig. 1,
I.e. cross-sectional shape is in D font.
As shown in Figure 1, sleeve mountain above-mentioned lower die mechanism 3 is corresponding to aforementioned sleeve body upper left module 21 and sleeve body upper right mould
The position of the top of block 22 is connect with aforementioned sleeve body upper left module motor shaft 231 and sleeve body upper right module motor shaft 241, and
It is aforementioned when mountain lower die mechanism 3 of tucking inside the sleeve is shifted up towards the direction away from sleeve body upper left module 21 and body upper right module 22 of tucking inside the sleeve
Sleeve mountain upper die mechanism 4 also accordingly shifts up, 5 longitudinal elongation of sheath above-mentioned, and works as sleeve mountain lower die mechanism 3 towards sleeve body upper left
When the direction of module 21 and body upper right module 22 of tucking inside the sleeve is to bottom offset, for sleeve mountain upper die mechanism 4 also accordingly to bottom offset, sheath 5 is vertical
To contraction and when the left and right upper module 21,22 of body of tucking inside the sleeve denounces open each other, 5 horizontal expansion of sheath, and when the sleeve left and right upper module of body
21,22 in opposite directions when closing up, 5 cross-direction shrinkage of sheath.
Continue to see Fig. 1, sleeve mountain above-mentioned lower die mechanism 3 includes sleeve mountain lower-left module 31, sleeve mountain bottom right module 32, a sleeve mountain left side
Lower module motor 33, sleeve mountain bottom right module motor 34, sleeve mountain lower module folding motor 35, sleeve 36 and of mountain lower module displacement sensor
Tuck inside the sleeve mountain upper module upper and lower displacement sensor 37, the left and right lower module 31,32 in mountain of tucking inside the sleeve shape is mutually the same and mountain of tucking inside the sleeve it is left and right under
The surface of the opposite side of module 31,32 is respectively plane, is opened in the side of sleeve mountain lower-left module 31 towards sleeve mountain bottom right module 32
One is also provided with from sleeve mountain lower-left module 31 equipped with a sleeve mountain lower-left module guide rod hole 311, and in sleeve mountain lower-left module 31
Upper end penetrate through to the sleeve mountain lower-left module wire guide 312 of lower end, sleeve mountain lower-left module 31 bottom and before corresponding to
The position for stating sleeve body upper left module motor shaft 231 offers the sleeve mountain lower-left being threadedly engaged with sleeve body upper left module motor shaft 231
Module motor shaft mate with threaded holes towards the side of sleeve mountain lower-left module 31 and is corresponding to sleeve mountain in sleeve mountain bottom right module 32
The position of lower-left module guide rod hole 311 is fixed with a sleeve mountain bottom right module guide rod 321, the sleeve mountain bottom right module guide rod 321 and sleeve
Mountain lower-left module guide rod hole 311 is slidably matched, and is also provided with one from sleeve mountain bottom right module 32 in sleeve mountain bottom right module 32
Upper end penetrate through to the sleeve mountain bottom right module wire guide 322 of lower end, sleeve mountain bottom right module 32 bottom and before corresponding to
The position for stating sleeve body upper right module motor shaft 241 offers the sleeve mountain bottom right being threadedly engaged with sleeve body upper right module motor shaft 241
The top of sleeve mountain lower-left module 31, the sleeve mountain lower-left is arranged in module motor shaft mate with threaded holes, sleeve mountain lower-left module motor 33
The sleeve mountain lower-left module motor shaft 331 of module motor 33 is threadedly coupled for screw shaft and with aforementioned sleeve mountain upper die mechanism 4, mountain of tucking inside the sleeve
The top of sleeve mountain bottom right module 32, the sleeve mountain bottom right module electricity of the sleeve mountain bottom right module motor 34 is arranged in bottom right module motor 34
Arbor 341 is screw shaft and is equally threadedly coupled with aforementioned sleeve mountain upper die mechanism 4 that the sleeve mountain lower module folding setting of motor 35 exists
Tuck inside the sleeve mountain bottom right module 32 towards sleeve mountain lower-left module 31 side short transverse middle part, the sleeve mountain bottom right module open and close motor
35 sleeve mountain lower module folding motor shaft 351 be screw shaft and be provided with sleeve mountain lower-left module 31 on sleeve mountain lower-left module
Threaded hole 313 be threadedly coupled, sleeve mountain lower module displacement sensor 36 setting sleeve mountain lower-left module 31 towards sleeve mountain bottom right module
Sleeve mountain bottom right module 32 is arranged in towards the side of sleeve mountain lower-left module 31 in 32 side, and sleeve mountain upper module upper and lower displacement passes
The top of sleeve mountain lower-left module 31 is arranged in sensor 37, but also can be set at the top of sleeve mountain bottom right module 32.
It is aforementioned sleeve mountain lower-left module 31 and tuck inside the sleeve mountain bottom right module 32 shape be match with shape shown in Fig. 1, and
And cross-sectional shape is generally in sector.
The left and right lower module motor in sleeve mountain above-mentioned 33,34, sleeve mountain lower module folding motor 35, sleeve mountain lower module displacement pass
Sensor 36 and sleeve mountain upper module upper and lower displacement sensor 37 are connect with aforementioned 51 electrical control of electric controller.Sleeve mountain above-mentioned
Upper die mechanism 4 is left in the position and aforementioned sleeve mountain for corresponding to the top of aforementioned sleeve mountain lower-left module 31 and mountain bottom right module 32 of tucking inside the sleeve
Lower module motor shaft 331 and sleeve mountain bottom right module motor shaft 341 connect, and when sleeve mountain upper die mechanism 4 is towards away from sleeve mountain
When the direction of lower-left module 31 and mountain bottom right module 32 of tucking inside the sleeve shifts up, 5 longitudinal elongation of sheath above-mentioned, and when sleeve mountain upper mold
When mechanism 4 is towards the direction of sleeve mountain lower-left module 31 and mountain bottom right module 32 of tucking inside the sleeve to bottom offset, aforementioned 5 longitudinal contraction of sheath is simultaneously
And when the left and right lower module 31,32 in mountain of tucking inside the sleeve denounces open each other, 5 horizontal expansion of sheath, and when the left and right lower module 31,32 in sleeve mountain is opposite
When closing up, 5 cross-direction shrinkage of sheath.
Continue to see that Fig. 1, sleeve mountain above-mentioned upper die mechanism 4 include sleeve mountain upper left module 41, sleeve mountain upper right module 42 and sleeve mountain
Upper module opens and closes motor 43, the left and right upper module 41,42 in mountain of tucking inside the sleeve shape is mutually the same and the left and right upper module 41,42 in mountain of tucking inside the sleeve
The surface of opposite side is respectively configured to plane, offers a sleeve in the side of sleeve mountain upper left module 41 towards sleeve mountain upper right module 42
Mountain upper left module guide rod hole 411, sleeve mountain upper left module 41 bottom and correspond to aforementioned sleeve mountain lower-left module motor shaft
331 position offers the sleeve mountain upper left module motor shaft mate with threaded holes being threadedly engaged with sleeve mountain lower-left module motor shaft 331,
In sleeve mountain upper right module 42 towards the side of sleeve mountain upper left module 41 and in the position for corresponding to sleeve mountain upper left module guide rod hole 411
It sets and is fixed with a sleeve mountain upper right module guide rod 421, the sleeve mountain upper right module guide rod 421 and sleeve mountain upper left module guide rod hole 411 are sliding
Dynamic cooperation, sleeve mountain upper right module 42 bottom and opened up in the position for corresponding to aforementioned sleeve mountain bottom right module motor shaft 341
Have and be threadedly engaged sleeve mountain upper right module motor shaft mate with threaded holes with sleeve mountain bottom right module motor shaft 341, when aforementioned sleeve mountain is left and right
Upper module 41,42 is denounceed each other when opening, aforementioned 5 horizontal expansion of sheath, and when the left and right upper module 41,42 in mountain of tucking inside the sleeve closes up in opposite directions, shield
5 cross-direction shrinkages are covered, sleeve mountain upper right module 42 is arranged in towards the side of sleeve mountain upper left module 41 in sleeve mountain upper module folding motor 43
Short transverse middle part, the sleeve mountain upper module open and close motor 43 sleeve mountain upper module folding motor shaft 431 be screw shaft and
It is threadedly coupled with the sleeve mountain upper left module threaded hole 412 being provided in sleeve mountain upper left module 41, sleeve mountain upper module opens and closes motor 43
It is connect with aforementioned 51 electrical control of electric controller.
As shown in Figure 1, it is formed with a sleeve running-on 52 in the bottom of aforementioned sheath 5, is equipped on the sleeve running-on 52
One cinch cord 521, aforementioned sheath 5 is made of elastic material;Elastic material above-mentioned is silicon rubber.
In the present embodiment, the left and right lower module motor 13,14 of sleeve body above-mentioned and sleeve body lower module folding motor 15 are
Motor with positive and negative rotating function;Module folding motor 25 is same with the left and right upper module motor 23,24 of sleeve body above-mentioned and sleeve
Sample is the motor with positive and negative rotating function;And the left and right lower module motor 33,34 in sleeve mountain above-mentioned and sleeve mountain lower module folding
Motor 35 remains as the motor with positive and negative rotating function;Sleeve mountain upper module folding motor 43 above-mentioned is similarly with example to be had just
The motor of reverse function.
Pass through explanation above and combine Fig. 1 it is found that the left and right lower module of sleeve body 11,12, the left and right upper module 21 of sleeve body,
22, the left and right lower module 31,32 in sleeve mountain and the sleeve left and right upper module 41,42 in mountain are essentially eight modules, i.e., eight adjustable
Electric module is wrapped up by high resilience and the sheath 5 with good adsorption effect, i.e., sheath 5 is by elastic adhesion material
It is made.Data are acquired by six sensors, that is, electricity driving displacement sensor and feed back to electric controller 51.
Due to sleeve with mold mechanism 2, tuck inside the sleeve the upper and lower mold mechanism 4,3 in mountain working principle be with sleeve body lower die mechanism 1 it is similar
, therefore applicant is below only illustrated sleeve body lower die mechanism 1.
When taking plate, plate material will be taken to be close to the application model, that is, be tightly attached to outside sheath 5, plate will be taken with manual manipulation mode
Data input electric controller 51 and take plate button being pressed on electric controller 51 by operator, make the present invention into
Enter to take board status.Denounce the sleeve left and right lower module 11,12 of body each other under the work of sleeve body lower module folding motor 15 at this time to open,
Reprimand opening amount denounces the degree opened by sleeve body lower module displacement sensor 16(i.e. distance measuring sensor) it controls and feeds back to electrical control
Device 51.At the same time, sleeve body lower-left module motor 13 and sleeve body bottom right module motor 14 also work (synchronous working), make body of tucking inside the sleeve
Between the bottom surface of the sleeve body upper left module 21 of the structural system of mold mechanism 2 and make with the top surface and sleeve of lower-left module 11
It is produced between the bottom surface of the sleeve body upper right module 22 of the structural system of mold mechanism 2 with the top surface and sleeve of body bottom right module 12 of tucking inside the sleeve
Degree, that is, the distance in raw expansion joint gap 7, the expansion joint gap 7 is passed by module upper and lower displacement sensor 17(, that is, ranging with sleeve
Sensor) it controls and feeds back to electric controller 51.While the movement of aforementioned sleeve body lower die mechanism 1, mold mechanism 2, sleeve with sleeve
Mountain lower die mechanism 3 and sleeve mountain upper die mechanism 4 are also simultaneously in the action state run neck and neck.Due to the left and right lower module of body of tucking inside the sleeve
11,12 reprimand is opened, thus sheath 5 just expand by horizontal expansion, i.e. sheath 5;Again since the sleeve left and right upper module 21,22 of body is to upper
It moves, thus 5 longitudinal elongation of sheath, the then variation of sheath 5 make to be close to take plate material also corresponding change outside it, reach expected
Sleeve specification carries out three-dimensional package with cloth by online assignment personnel on model and makes label as crossed, thus accurately
Obtain the coat-sleeve template of expected zoarium, it can be that the template of coat-sleeve is also possible to coat-sleeve cut-parts, whole process speed it is fast and
And precision is high.In addition, the aforementioned coat-sleeve dimension data for taking plate can be shown on display screen 511.
In conclusion technical solution provided by the invention compensates for the shortcoming in prior art, invention has been favorably accomplished
Task has faithfully fulfilled the technical effect that applicant refers in technical effect column above.
Claims (10)
1. a kind of solid takes the adjustable coat-sleeve model of plate, it is characterised in that including sleeve body lower die mechanism (1);Mold mechanism with one sleeve
(2), mold mechanism (2) connects in the position and sleeve body lower die mechanism (1) for corresponding to the top of sleeve lower die mechanism (1) with the sleeve
It connects;One sleeve mountain lower die mechanism (3), the sleeve mountain lower die mechanism (3) is in the position for corresponding to the top of mold mechanism (2) with the sleeve
It is connect with mold mechanism with sleeve (2);One sleeve mountain upper die mechanism (4), the sleeve mountain upper die mechanism (4) are corresponding to sleeve mountain lower die
The position of the top of mechanism (3) is connect with sleeve mountain lower die mechanism (3);One sheath (5), the sheath (5) are nested on the sleeve mountain
Mold mechanism (4), sleeve mountain lower die mechanism (3), with sleeve mold mechanism (2) He Xiushen lower die mechanism (1) outside, and in the sheath (5)
Top be provided with one be furnished with display screen (511) electric controller (51).
2. solid according to claim 1 takes the adjustable coat-sleeve model of plate, it is characterised in that the sleeve body lower die mechanism (1)
Including sleeve body lower-left module (11), sleeve body bottom right module (12), sleeve body lower-left module motor (13), sleeve body bottom right module motor
(14), module upper and lower displacement sensing with sleeve body lower module folding motor (15), sleeve body lower module displacement sensor (16) and sleeve
The shape of device (17), the sleeve left and right lower module of body (11,12) is mutually the same, and the left and right lower module of body of tucking inside the sleeve (11,12) is opposite
The surface of side is respectively plane, is offered in the side of sleeve body lower-left module (11) towards sleeve body bottom right module (12) at least a pair of
It tucks inside the sleeve body lower-left module guide rod hole (111), and is also provided with one from foresleeve body lower-left module on sleeve body lower-left module (11)
(11) upper end is penetrated through to the sleeve body lower-left module wire guide (112) of lower end, in sleeve body bottom right module (12) direction sleeve body lower-left
The side of module (11) and at least a pair of of sleeve body bottom right is fixed in the position for corresponding to sleeve body lower-left module guide rod hole (111)
Module guide rod (121), this is slidably matched to sleeve body bottom right module guide rod (121) and sleeve body lower-left module guide rod hole (111), and
One is also provided on sleeve body bottom right module (12) to penetrate through from the upper end of sleeve body bottom right module (12) to the sleeve body bottom right mould of lower end
Block wire guide (122), sleeve body lower-left module motor (13) setting is in the top of sleeve body lower-left module (11), the sleeve body lower-left module
The sleeve body lower-left module motor shaft (131) of motor (13) is screw shaft and is threadedly coupled with mold mechanism (2) with the sleeve, is tucked inside the sleeve
On the top of sleeve body bottom right module (12), the sleeve body of the sleeve body bottom right module motor (14) is right for body bottom right module motor (14) setting
Lower module motor shaft (141) is screw shaft and is equally threadedly coupled with mold mechanism (2) with the sleeve that sleeve body lower module opens and closes
Motor (15) setting is in the middle part of the short transverse of the side of sleeve body bottom right module (12) direction sleeve body lower-left module (11), the sleeve
Body lower module folding motor (15) sleeve body lower module folding motor shaft (151) be screw shaft and be provided with sleeve body lower-left mould
Sleeve body lower-left module threaded hole (113) on block (11) is threadedly coupled, and sleeve body lower module displacement sensor (16) setting is in sleeve body
Lower-left module (11) is towards the side of sleeve body bottom right module (12) or setting in sleeve body bottom right module (12) direction sleeve body lower-left
The side of module (11), with sleeve module upper and lower displacement sensor (17) setting sleeve body lower-left module (11) top or set
It sets at the top of sleeve body bottom right module (12);The left and right lower module motor of the sleeve body (13,14), sleeve body lower module folding electricity
Module upper and lower displacement sensor (17) and the electrical control with machine (15), sleeve body lower module displacement sensor (16) and sleeve
Device (51) electrical control connection;Mold mechanism (2) is corresponding to the sleeve body lower-left module (11) and rear sleeve with the sleeve
The position of the top of body bottom right module (12) and the sleeve body lower-left module motor shaft (131) and sleeve body bottom right module motor shaft
(141) connect, and with sleeve mold mechanism (2) towards away from sleeve body lower-left module (11) and tucking inside the sleeve body bottom right module (12)
When direction shifts up, the sleeve mountain lower die mechanism (3) and sleeve mountain upper die mechanism (4) are also accordingly shifted up, the shield
Cover (5) longitudinal elongation, and when sleeve with mold mechanism (2) towards sleeve body lower-left module (11) and tuck inside the sleeve body bottom right module (12) side
When to bottom offset, tucks inside the sleeve mountain lower die mechanism (3) and sleeve mountain upper die mechanism (4) is also accordingly to bottom offset, sheath (5) longitudinal contraction
And when the left and right lower module of the sleeve body (11,12) is denounceed each other to be opened, sheath (5) horizontal expansion, and when the sleeve left and right lower die of body
When block (11,12) closes up in opposite directions, sheath (5) cross-direction shrinkage.
3. solid according to claim 2 takes the adjustable coat-sleeve model of plate, it is characterised in that mold mechanism (2) with the sleeve
Including sleeve body upper left module (21), sleeve body upper right module (22), sleeve body upper left module motor (23), sleeve body upper right module motor
(24), sleeve with module folding motor (25), sleeve with module displacement sensor (26) and sleeve with module upper and lower displacement sense
Device (27), tuck inside the sleeve the left and right upper module of body (21,22) shape is mutually the same and the left and right upper module of body of tucking inside the sleeve (21,22) opposite one
The surface of side is respectively plane, offers at least a pair of of sleeve in the side of sleeve body upper left module (21) towards sleeve body upper right module (22)
Body upper left module guide rod hole (211), and one is also provided with from sleeve body upper left module (21) on sleeve body upper left module (21)
Upper end is penetrated through to the sleeve body upper left module wire guide (212) of lower end, sleeve body upper left module (21) bottom and corresponding to
The position of sleeve body lower-left module motor shaft (131) offer one with tuck inside the sleeve body lower-left module motor shaft (131) be threadedly coupled
Sleeve body upper left module bottom screw hole, in sleeve body upper right module (22) towards the side of sleeve body upper left module (21) and in correspondence
It is fixed at least a pair of of sleeve body upper right module guide rod (221) in the position of sleeve body upper left module guide rod hole (211), this is right to sleeve body
Upper module guide rod (221) is slidably matched with a pair of sleeve body upper left module guide rod hole (211), and on sleeve body upper right module (22)
It is also provided with one to penetrate through from the upper end of sleeve body upper right module (22) to the sleeve body upper right module wire guide (222) of lower end, in sleeve body
The bottom of upper right module (22) and correspond to it is described sleeve body bottom right module motor shaft (141) position offering one with sleeve body
The sleeve body upper right module bottom screw hole that bottom right module motor shaft (141) is threadedly coupled, sleeve body upper left module motor (23) setting
On the top of sleeve body upper left module (21), the sleeve body upper left module motor shaft (231) of the sleeve body upper left module motor (23) is spiral shell
It bar axis and is threadedly coupled with the sleeve mountain lower die mechanism (3), sleeve body upper right module motor (24) setting is in sleeve body upper right module
(22) top, the sleeve body upper right module motor shaft (241) of the sleeve body upper right module motor (24) be screw shaft and equally with
The sleeve mountain lower die mechanism (3) is threadedly coupled, and module folding motor (25) setting is in sleeve body upper right module (22) direction with sleeve
Tuck inside the sleeve body upper left module (21) side short transverse middle part, module is opened with the sleeve of module folding motor (25) with the sleeve
Close motor shaft (251) be screw shaft and be provided with sleeve body upper left module (21) on sleeve body upper left module threaded hole (213)
It is threadedly coupled, module displacement sensor (26) setting is in sleeve body upper left module (21) direction sleeve body upper right module (22) with sleeve
The module upper and lower displacement with the side of sleeve body upper right module (22) direction sleeve body upper left module (21), sleeve of side or setting passes
Sensor (27) setting is at the top of sleeve body upper left module (21) or setting at the top of sleeve body upper right module (22);The sleeve
The left and right upper module motor of body (23,24), sleeve with module folding motor (25), sleeve with module displacement sensor (26) and
Module upper and lower displacement sensor (27) is connect with the electric controller (51) electrical control with sleeve;The sleeve mountain lower die machine
Structure (3) is left in the position and the sleeve body for corresponding to the top of sleeve body upper left module (21) and sleeve body upper right module (22)
Upper module motor shaft (231) and sleeve body upper right module motor shaft (241) connection, and work as sleeve mountain lower die mechanism (3) towards back
When direction from sleeve body upper left module (21) and sleeve body upper right module (22) shifts up, the sleeve mountain upper die mechanism (4)
Accordingly shift up, the sheath (5) longitudinal elongation, and when sleeve mountain lower die mechanism (3) towards sleeve body upper left module (21) with
And the direction of sleeve body upper right module (22) to bottom offset when, for sleeve mountain upper die mechanism (4) also accordingly to bottom offset, sheath (5) is longitudinal
Shrink and when sleeve the left and right upper module of body (21,22) each other reprimand open when, sheath (5) horizontal expansion, and when tuck inside the sleeve the left and right upper mold of body
When block (21,22) closes up in opposite directions, sheath (5) cross-direction shrinkage.
4. solid according to claim 3 takes the adjustable coat-sleeve model of plate, it is characterised in that the sleeve mountain lower die mechanism (3)
Including sleeve mountain lower-left module (31), sleeve mountain bottom right module (32), sleeve mountain lower-left module motor (33), sleeve mountain bottom right module motor
(34), sleeve mountain lower module folding motor (35), sleeve mountain lower module displacement sensor (36) He Xiushan upper module upper and lower displacement sensing
Device (37), tuck inside the sleeve the left and right lower module in mountain (31,32) shape is mutually the same and the left and right lower module in mountain of tucking inside the sleeve (31,32) opposite one
The surface of side is respectively plane, offers a sleeve mountain lower-left in the side of sleeve mountain lower-left module (31) towards sleeve mountain bottom right module (32)
Module guide rod hole (311), and be also provided with one on sleeve mountain lower-left module (31) and passed through from the upper end of sleeve mountain lower-left module (31)
The sleeve mountain lower-left module wire guide (312) for passing to lower end, sleeve mountain lower-left module (31) bottom and correspond to the sleeve
The position of body upper left module motor shaft (231) offers the sleeve mountain lower-left being threadedly engaged with sleeve body upper left module motor shaft (231)
Module motor shaft mate with threaded holes towards the side of sleeve mountain lower-left module (31) and is corresponding in sleeve mountain bottom right module (32)
The position of sleeve mountain lower-left module guide rod hole (311) is fixed with a sleeve mountain bottom right module guide rod (321), the sleeve mountain bottom right module guide rod
(321) it is slidably matched with sleeve mountain lower-left module guide rod hole (311), and is also provided with one from sleeve on sleeve mountain bottom right module (32)
The upper end of mountain bottom right module (32) is penetrated through to the sleeve mountain bottom right module wire guide (322) of lower end, in sleeve mountain bottom right module (32)
Bottom and correspond to it is described sleeve body upper right module motor shaft (241) position offer with sleeve body upper right module motor shaft
(241) the sleeve mountain bottom right module motor shaft mate with threaded holes being threadedly engaged, sleeve mountain lower-left module motor (33) setting are left on sleeve mountain
The top of lower module (31), the sleeve mountain lower-left module motor shaft (331) of the sleeve mountain lower-left module motor (33) be screw shaft and
It is threadedly coupled with the sleeve mountain upper die mechanism (4), sleeve mountain bottom right module motor (34) setting is in the upper of sleeve mountain bottom right module (32)
Portion, the sleeve mountain bottom right module motor shaft (341) of the sleeve mountain bottom right module motor (34) be screw shaft and equally with the sleeve mountain
Upper die mechanism (4) threaded connection, sleeve mountain lower module folding motor (35) setting is in sleeve mountain bottom right module (32) direction sleeve mountain lower-left
The middle part of the short transverse of the side of module (31), the sleeve mountain lower module which opens and closes motor (35) open and close motor
Axis (351) is screw shaft and connects with sleeve mountain lower-left module threaded hole (313) screw thread being provided on sleeve mountain lower-left module (31)
Connect, sleeve mountain lower module displacement sensor (36) setting sleeve mountain lower-left module (31) towards sleeve mountain bottom right module (32) side or
Person's setting is in the side of sleeve mountain bottom right module (32) direction sleeve mountain lower-left module (31), mountain upper module upper and lower displacement sensor of tucking inside the sleeve
(37) it is arranged at the top of sleeve mountain lower-left module (31) or setting at the top of sleeve mountain bottom right module (32);The sleeve mountain
Left and right lower module motor (33,34), sleeve mountain lower module folding motor (35), sleeve mountain lower module displacement sensor (36) and sleeve
Mountain upper module upper and lower displacement sensor (37) is connect with the electric controller (51) electrical control;The sleeve mountain upper die mechanism
(4) in the position and the sleeve mountain lower-left of the top for corresponding to sleeve mountain lower-left module (31) and sleeve mountain bottom right module (32)
Module motor shaft (331) and sleeve mountain bottom right module motor shaft (341) connection, and when sleeve mountain upper die mechanism (4) is towards deviating from
When the direction of sleeve mountain lower-left module (31) and sleeve mountain bottom right module (32) shifts up, the sheath (5) longitudinal elongation, and
When tuck inside the sleeve mountain upper die mechanism (4) towards sleeve mountain lower-left module (31) and tuck inside the sleeve mountain bottom right module (32) direction to bottom offset when, institute
State sheath (5) longitudinal contraction and when tucking inside the sleeve the left and right lower module in mountain (31,32) reprimand being opened each other, sheath (5) horizontal expansion, and working as
When the sleeve left and right lower module in mountain (31,32) closes up in opposite directions, sheath (5) cross-direction shrinkage.
5. solid according to claim 4 takes the adjustable coat-sleeve model of plate, it is characterised in that the sleeve mountain upper die mechanism (4)
Including sleeve mountain upper left module (41), sleeve mountain upper right module (42) He Xiushan upper module folding motor (43), the left and right upper module in mountain of tucking inside the sleeve
The shape of (41,42) is mutually the same and the surface of the opposite side of the left and right upper module in mountain of tucking inside the sleeve (41,42) is respectively configured to plane,
A sleeve mountain upper left module guide rod hole (411) is offered in the side of sleeve mountain upper left module (41) towards sleeve mountain upper right module (42),
Sleeve mountain upper left module (41) bottom and correspond to it is described sleeve mountain lower-left module motor shaft (331) position offer with
The sleeve mountain upper left module motor shaft mate with threaded holes that sleeve mountain lower-left module motor shaft (331) is threadedly engaged, in sleeve mountain upper right module
(42) it is fixed with towards the side of sleeve mountain upper left module (41) and in the position for corresponding to sleeve mountain upper left module guide rod hole (411)
One sleeve mountain upper right module guide rod (421), the sleeve mountain upper right module guide rod (421) and sleeve mountain upper left module guide rod hole (411) sliding
Cooperation, sleeve mountain upper right module (42) bottom and correspond to it is described sleeve mountain bottom right module motor shaft (341) position open
Equipped with sleeve mountain upper right module motor shaft mate with threaded holes is threadedly engaged with sleeve mountain bottom right module motor shaft (341), when the sleeve mountain
Left and right upper module (41,42) is denounceed each other when opening, sheath (5) horizontal expansion, and when the sleeve left and right upper module in mountain (41,42) phase
To when closing up, sheath (5) cross-direction shrinkage, sleeve mountain upper module folding motor (43) setting is on sleeve mountain upper right module (42) direction sleeve mountain
The middle part of the short transverse of the side of upper left module (41), the sleeve mountain upper module which opens and closes motor (43) open and close electricity
Arbor (431) be screw shaft and be provided with sleeve mountain upper left module (41) on sleeve mountain upper left module threaded hole (412) screw thread
Connection, sleeve mountain upper module folding motor (43) are connect with the electric controller (51) electrical control.
6. solid according to any one of claims 1 to 5 takes the adjustable coat-sleeve model of plate, it is characterised in that described
The bottom of sheath (5) is formed with a sleeve running-on (52), is equipped with a cinch cord (521) on the sleeve running-on (52), described
Sheath (5) is made of elastic material;The elastic material is silicon rubber.
7. solid according to claim 2 takes the adjustable coat-sleeve model of plate, it is characterised in that the left and right lower module of sleeve body
Motor (13,14) and rear sleeve body lower module folding motor (15) are the motor with positive and negative rotating function.
8. solid according to claim 3 takes the adjustable coat-sleeve model of plate, it is characterised in that the left and right upper module of sleeve body
Module folding motor (25) is the motor with positive and negative rotating function with motor (23,24) and rear sleeve.
9. solid according to claim 4 takes the adjustable coat-sleeve model of plate, it is characterised in that the left and right lower module in sleeve mountain
Motor (33,34) and foresleeve mountain lower module folding motor (35) are the motor with positive and negative rotating function.
10. solid according to claim 5 takes the adjustable coat-sleeve model of plate, it is characterised in that the sleeve mountain upper module folding
Motor (43) is the motor with positive and negative rotating function.
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CN201910292345.1A CN109998207B (en) | 2019-04-12 | 2019-04-12 | Three-dimensional adjustable sleeve model with plate taking function |
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CN201910292345.1A CN109998207B (en) | 2019-04-12 | 2019-04-12 | Three-dimensional adjustable sleeve model with plate taking function |
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CN109998207B CN109998207B (en) | 2020-08-07 |
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3319846A (en) * | 1965-01-25 | 1967-05-16 | Morris A Wolf | Adjustable mannequin arms |
CN1784161A (en) * | 2002-08-29 | 2006-06-07 | 鲜花机器人技术株式会社 | Mannequin having drive section |
CN202128569U (en) * | 2011-06-30 | 2012-02-01 | 山东科技大学 | Three-degree-of-freedom adjustable artificial limb upper arm |
CN105899177A (en) * | 2013-11-29 | 2016-08-24 | 雷克斯生物有限公司 | Mobility aid |
CN108741351A (en) * | 2018-07-28 | 2018-11-06 | 阜南华翔羊毛衫有限公司 | A kind of telescopic adjustment formula human trunk model for woollen sweater detection |
-
2019
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Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3319846A (en) * | 1965-01-25 | 1967-05-16 | Morris A Wolf | Adjustable mannequin arms |
CN1784161A (en) * | 2002-08-29 | 2006-06-07 | 鲜花机器人技术株式会社 | Mannequin having drive section |
CN202128569U (en) * | 2011-06-30 | 2012-02-01 | 山东科技大学 | Three-degree-of-freedom adjustable artificial limb upper arm |
CN105899177A (en) * | 2013-11-29 | 2016-08-24 | 雷克斯生物有限公司 | Mobility aid |
CN108741351A (en) * | 2018-07-28 | 2018-11-06 | 阜南华翔羊毛衫有限公司 | A kind of telescopic adjustment formula human trunk model for woollen sweater detection |
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