CN206254563U - Inflation bag making machine - Google Patents
Inflation bag making machine Download PDFInfo
- Publication number
- CN206254563U CN206254563U CN201621346876.2U CN201621346876U CN206254563U CN 206254563 U CN206254563 U CN 206254563U CN 201621346876 U CN201621346876 U CN 201621346876U CN 206254563 U CN206254563 U CN 206254563U
- Authority
- CN
- China
- Prior art keywords
- unit
- cutting
- raw material
- reinforcement
- blade
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Abstract
The utility model proposes one kind inflation bag making machine, high degree of automation, advanced technology, it includes unwinding unit (1), weldering valve cell (5), traction unit and control unit, and it also includes reinforcement unit (3), perforate unit (4), closed cell, cutting unit (8);Described unwinding unit (1), reinforcement unit (3), perforate unit (4), weldering valve cell (5), closed cell, cutting unit (8) is sequentially distributed and electrically connects with control unit respectively, closed cell be used for unwinding unit (1) is discharged and sequentially by reinforcement unit (3), perforate unit (4), the Part I raw material (27) of weldering valve cell (5) are combined into the bag of sequential like with the Part II raw material (28) that unwinding unit (1) is discharged, cutting unit (8) by the bag of sequential like for cutting into bag independent one by one.
Description
Technical field
The utility model is related to Bag Making Machine technical field, is especially a kind of inflation bag making machine.
Background technology
There is a class sack at present, it is provided with valve, and it can be inflated by the valve, such as Authorization Notice No. is
A kind of air bag of CN203638407U, the valve of the air bag includes valve base, and valve base is sealed with air bag body
Connection, valve base installs valvular other components.
The earliest production method of above-mentioned air bag or similar sack is wasted time and energy using artificial operation due to manually operating,
And efficiency is low, the stability of product quality is not good enough, so in order to substitute artificial operation, in the industry to for make above-mentioned air bag or
The inflation bag making machine of similar sack has carried out a series of researchs, and the Main way of research is how to improve automaticity.
There is a kind of novel bag making machine at present, its Authorization Notice No. is CN203580236U, it is provided with envelope valve gear 4
Perforating device 9, the structure and envelope valve gear 4 and perforating device of envelope valve gear 4 and perforating device 9 itself are not disclosed due to it
How to be connected between 9, how really aside from, realization allows and punches and the operation simultaneously of envelope valve, but give at least one
Improvement direction " being provided with perforating device 9 on envelope valve gear 4 " is planted, and seals the structure and envelope of valve gear 4 and perforating device 9 itself
How to be connected between valve gear 4 and perforating device 9, be to need further innovation to obtain, do not disclosed or have and open enough
Show.
Summary, it is believed that, from the point of view of prior art disclosure of that, inflate the automaticity of bag making machine
Or relatively low, technology more falls behind.
Utility model content
Technical problem to be solved in the utility model is the defect for overcoming prior art, there is provided a kind of air bag bag
Machine, high degree of automation, advanced technology.
In order to solve the above technical problems, the utility model proposes one kind inflation bag making machine, it includes unwinding unit, weldering valve
Unit, traction unit and control unit, it also includes reinforcement unit, perforate unit, closed cell, cutting unit;Described puts
Roll unit, reinforcement unit, perforate unit, weldering valve cell, closed cell, cutting unit are sequentially distributed and electric with control unit respectively
Connection, closed cell be used for unwinding unit is discharged and sequentially by reinforcement unit, perforate unit, weldering valve cell first
Part raw material are combined into the bag of sequential like with the Part II raw material that unwinding unit is discharged, and cutting unit is used for will even
The bag of continuous shape cuts into bag independent one by one;Traction unit is one or more, and it is single that each traction unit is distributed in cut-out
Between unit and unwinding unit, each traction unit is electrically connected with control unit respectively.
After using said structure, compared with prior art, the utility model has advantages below:In prior art basis
Huge improvement is made that, whole bag making process is realized with machine, high degree of automation, advanced technology, and due to having
Reinforcement unit, so without especially emphasizing that Part I raw material allow for envelope valve portion position using the raw material of higher-strength
Structural strength ensured, due to Part I raw material selection without excessively consider envelope valve portion position structural strength, make
Obtaining the Application Range of Part I raw material becomes broad, it is possible to reducing production cost, advanced technology.
Used as improvement, reinforcement unit includes the conveying mechanism, shut-off mechanism, the reinforcing chip by reinforcement volume release that are sequentially distributed
The reinforcement bindiny mechanism being connected with Part I raw material, conveying mechanism is used to forward convey reinforcing chip, and shut-off mechanism is used for
The continuous reinforcing chip of this section of reinforcing chip being connected with Part I raw material and reinforcement volume release is cut off each other, so,
The relatively simple reliability of structure, in addition, it is desirable to reinforcing chip how long is controlled by conveying mechanism, shut-off mechanism, has reached certainly
The purpose of dynamicization, while be unlikely to waste again.
Used as improvement, shut-off mechanism includes cutting-blade head, and the cutting edge of cutting-blade head has can be by this section of described reinforcement
The temperature of piece and the mutual thermal cut-out of continuous reinforcing chip of reinforcement volume release, cutting edge lower section is provided with for by reinforcing chip and first
The thermal insulation layer that part raw material are thermally isolated, so, cut-out is realized using the temperature of cutting edge, and cut-out is quick, and significantly reduces
The abrasion of cutting edge, due to thermal insulation layer, so will not be impacted to Part I raw material during cut-out.
Used as improvement, the cutting edge of cutting-blade head is provided with a plurality of wire opening being sequentially distributed, therefore, at wire opening,
Reinforcing chip does not completely cut through, and so, this section of reinforcing chip being connected with Part I raw material, can also be with rear when going ahead
Continuous reinforcing chip is gone ahead one section, and when conveying mechanism stops, the place not completely cut through will pull apart, so that this section of reinforcement
Piece and the continuous reinforcing chip of reinforcement volume release are completely separated each other, and said structure provides a kind of innovative reinforcing chip and supplies
Material structure, has the advantages that simple and reliable for structure, feed precision is higher.
Used as improvement, perforate unit includes reciprocating linear motion mechanism, rotational motion mechanism, workbench, recovering mechanism, past
Linear movement mechanism is used to that motion up and down motion to be rotated, and rotational motion mechanism is provided with for circumgyration incision first
Part raw material through this part after reinforcing chip reinforcement with the first blade of pore-forming, workbench be provided with positioned at the first blade to
Through hole, through hole is used to fall into the waste paper that the first blade cuts down, and recovering mechanism is connected with through hole, and recovering mechanism is for reclaiming
Described waste paper, so, forms a set of perforate and reclaims the structure of waste paper, and high degree of automation, perforate uses the first blade
Circumgyration incision, can using conventional shaver, without expensive upper/lower die punching, with long lifespan, low cost it is absolute
Advantage, and recovering mechanism is connected with through hole, recovering effect is good, while structure has simple, compact, reliable advantage.
Used as improvement, weldering valve cell includes valve module conveying mechanism, valve module lead agency, welding mechanism, and valve module is defeated
Send mechanism for conveying valve module to valve module lead agency, valve module lead agency is used to drive valve module to welding mechanism
Plumb joint is moved, and welding mechanism is used to drive its plumb joint to be moved to valve module, the valve module that valve module lead agency is driven
Positioned at the side of Part I raw material, plumb joint is located at the opposite side of Part I raw material, so, high degree of automation,
Especially after the welding of valve module and Part I raw material, valve module lead agency resets and plumb joint resets, valve module with
Part I raw material just can smoothly be fed forward together, compact overall structure and rationally.
Used as improvement, cutting unit includes Timing Belt reciprocating mechanism, the second blade, place of incision located at Timing Belt
Detent mechanism, Timing Belt reciprocating mechanism is used to drive the second blade reciprocation linear motion to be cut into by the bag of sequential like
Independent bag one by one, the both sides of the second blade are equipped with blade, and place of incision detent mechanism includes being used for support cut portion
Position platform, can be affixed with the clamp module of clamping and positioning place of incision with platform, platform be provided with for the second blade activity with complete
Into the interval of cutting, a considerable advantage of the structure is cutting efficiency high, and the second blade movement will once cut once, past
Multiple once just to cut twice, another is characterized by draw to break by blade realizes cutting, instead of the expensive and mechanism of die cutter
Complexity, the second blade can be annual to change 2 to 3 times using conventional weaving double-edged razor blade, the second blade long service life,
Every is 0.5 yuan, and annual stroke is broken into this and does not surpass 2 yuans, and prior art mold cutting knife is changed once with regard to thousands of costs, in the application
The second blade do not contacted with other metal objects, not easy to wear, the life-span significantly improves.
Used as improvement, closed cell includes longitudinal sealing mechanism and transverse sealing mechanism, in such manner, it is possible to square closing bag is formed,
There is the technology of longitudinal sealing mechanism and transverse sealing mechanism these heat sealing mechanisms due to prior art, it is possible to directly use for reference and adopt
With reducing development cost.
Used as improvement, traction unit includes front haulage mechanism, middle haulage gear and rear haulage mechanism, weldering valve cell, preceding leads
Draw mechanism, the longitudinal sealing mechanism of closed cell, middle haulage gear, the transverse sealing mechanism of closed cell, front haulage mechanism, cutting unit according to
Sequence is distributed, and each haulage gear of the structure is reasonably distributed, and the quantity of required haulage gear is few, while having ensured former to Part I
Material, Part II raw material, the part processed by longitudinal sealing mechanism, the traction of the part processed by transverse sealing mechanism, and most
Bag is set smoothly to be exported from cutting unit eventually.
Brief description of the drawings
Fig. 1 is the structural representation that the utility model inflates bag making machine.
Fig. 2 is the structural representation of the reinforcement unit of the utility model inflation bag making machine.
Fig. 3 is one of structural representation of cutting-blade head correlation of the utility model inflation bag making machine.
Fig. 4 is the two of the structural representation of the cutting-blade head correlation of the utility model inflation bag making machine.
Fig. 5 is the structural representation of the perforate unit of the utility model inflation bag making machine.
Fig. 6 is the structural representation of the weldering valve cell of the utility model inflation bag making machine.
Fig. 7 is one of structural representation of cutting unit of the utility model inflation bag making machine.
Fig. 8 is the two of the structural representation of the cutting unit of the utility model inflation bag making machine.
Fig. 9 is the structural representation of the closed cell of the utility model inflation bag making machine.
Figure 10 is the structural representation of the finished bag collector unit of the utility model inflation bag making machine.
Shown in figure, 1, unwinding unit, 2, reinforcement volume, 3, reinforcement unit, 4, perforate unit, 5, weldering valve cell, 6, longitudinal sealing
Mechanism, 7, transverse sealing mechanism, 8, cutting unit, 9, front haulage mechanism, 10, middle haulage gear, 11, rear haulage mechanism, 12, conveyer
Structure, 13, shut-off mechanism, 14, reinforcement bindiny mechanism, 15, cutting-blade head, 16, thermal insulation layer, 17, wire opening, 18, reciprocal linear
Motion, 19, rotational motion mechanism, 20, workbench, the 21, first blade, 22, through hole, 23, valve module conveying mechanism, 24,
Valve module lead agency, 25, welding mechanism, 26, plumb joint, 27, Part I raw material, 28, Part II raw material, 29,
Timing Belt reciprocating mechanism, the 30, second blade, 31, place of incision detent mechanism, 32, platform, 33, clamp module, 34,
Every, the 35, first delivery platform, 36, heating rod mounting hole, 37, cutting edge, 38, finished bag collector unit.
Specific embodiment
The utility model is described in further detail below:
The utility model inflates bag making machine, and it includes unwinding unit 1, weldering valve cell 5, traction unit and control unit,
It also includes reinforcement unit 3, perforate unit 4, closed cell, cutting unit 8;Described unwinding unit 1, reinforcement unit 3, perforate
Unit 4, weldering valve cell 5, closed cell, cutting unit 8 are sequentially distributed and electrically connect with control unit respectively, and closed cell is used for
It is that unwinding unit 1 is discharged and sequentially by reinforcement unit 3, perforate unit 4, weldering valve cell 5 Part I raw material 27
The Part II raw material 28 discharged with unwinding unit 1 are combined into the bag of sequential like, and cutting unit 8 is used for sequential like
Bag cuts into bag independent one by one;Traction unit is one or more, and each traction unit is distributed in cutting unit 8 and puts
Between roll unit 1, each traction unit is electrically connected with control unit respectively.
In this example, in order to help understand, various pieces are substantially marked with dotted line frame in figure, it is for reference;Equally be for
Readily appreciate, the reinforcing chips of the release of reinforcement volume 2 are indicated by the solid line, and Part I raw material 27 are in rear haulage mechanism 11 and unreel
Between unit 1 solid line is to represent, as differentiation, Part II raw material 28 since reinforcement unit 3 to rear haulage mechanism 11
When being represented by dashed line, and advancing from rear haulage mechanism 11 to cutting unit 8, due to Part I raw material 27, Part II
Raw material 28 are aggregated, so being represented by dashed line.
Unwinding unit 1 is three unreeling structures, and prior art, two of which can be used to load Part I raw material respectively
27 and Part II raw material 28, another is used for loading reinforcement volume 2;As an example, reinforcement volume 2, Part I raw material
27th, Part II raw material 28 roll up the benefit obtained at 2 this defines the order of connection, i.e. reinforcement substantially in being distributed from top to bottom
Strong piece, Part I raw material 27, Part II raw material 28 are sequentially connected from top to bottom.
Reinforcement unit 3 include sequentially be distributed conveying mechanism 12, shut-off mechanism 13, by reinforcement volume 2 release reinforcing chips with
Part I raw material 27 connection reinforcement bindiny mechanism 14, for convenience and structure simplify, reinforcement volume (2) as described above,
Located at unwinding unit 1, conveying mechanism 12 is used to forward convey reinforcing chip, and conveying mechanism 12 uses active roller group, shut-off mechanism
13 are used to each other cut the continuous reinforcing chip of this section of reinforcing chip being connected with Part I raw material 27 and the release of reinforcement volume 2
It is disconnected;Reinforcement bindiny mechanism 14 includes heating connector and drives to heat the cylinder that connector moves up and down, and heating connector is used for
The face of connection is ring surface, that is to say, that cylinder drives heating connector to move downward, and with ring surface by reinforcing chip and first
Both part raw material 27 are pushed down, and when reinforcing chip is connected with Part I raw material 27, are accomplished that a circle is welded to connect, should
Be welded to connect refers to that reinforcing chip receives blocking under warming, profit with Part I raw material 27 under the ring surface effect with uniform temperature
It is that film is heated and is capable of the principle of adhesion, what following welding was utilized is this principle;Carry out annular thermally coupled with even
The characteristics of connecing simple;After the connection of both reinforcing chip and Part I raw material 27, cylinder drives heating connector to reset.
Shut-off mechanism 13 includes cutting-blade head 15, and the cutting edge 37 of cutting-blade head 15 has can be by this section of described reinforcing chip
With reinforcement volume 2 release the mutual thermal cut-outs of continuous reinforcing chip temperature, i.e., be finally will from reinforcement volume 2 be discharged it is continuous
Material in cut one section and get off, the lower section of cutting edge 37 is provided with the thermal insulation layer for reinforcing chip and Part I raw material 27 to be thermally isolated
16;Cutting-blade head 15 is provided with heating rod mounting hole 36, and heating rod mounting hole 36 installs heating rod, and heating rod is not drawn into figure, plus
Hot pin heating can provide heat for cutting edge 37;Cutting edge 37 is not to say that must put the first edge on a knife or a pair of scissors, every close to sharp state, Huo Zhe
The lower structure that can reach cut-out purpose of heat effect, is applicable.
The cutting edge 37 of cutting-blade head 15 is provided with a plurality of wire opening 17 being sequentially distributed, and is shown as being vertically arranged in figure, phase
Mutual parallel distribution.
Perforate unit 4 includes reciprocating linear motion mechanism 18, rotational motion mechanism 19, workbench 20, recovering mechanism, back and forth
Linear movement mechanism 18 moves up and down for motion 19 to be rotated, i.e., cylinder drives, and rotational motion mechanism 19 is provided with
For circumgyration incision Part I raw material 27 through this part after reinforcing chip reinforcement with the first blade 21 of pore-forming, i.e. motor
Drive the first blade 21 to rotate, workbench 20 be provided with positioned at 21 pairs, the first blade to through hole 22, through hole 22 is used to fall into first
The waste paper that blade 21 cuts down, recovering mechanism is connected with first through hole 22, and recovering mechanism is used to reclaim described waste paper, reclaims
Mechanism includes induced-draught fan and ash can, and induced-draught fan and ash can are not drawn into figure;Summary, perforate unit 4 takes hole use
Conventional razor blade, is fixed on motor high speed rotor, and raw material is located at the surface of workbench 20, can be contacted with the surface of workbench 20,
Can not also contact, circumgyration incision process is that downwards, the blade contact raw material plane of rotation will quickly mark circular hole, shape to cylinder
Into waste paper, under induced-draught fan effect, waste paper falls into through hole 22 and is directly recycled to ash can.
Weldering valve cell 5 includes valve module conveying mechanism 23, valve module lead agency 24, welding mechanism 25, valve module conveying
Mechanism 23 is used to convey valve module to valve module lead agency 24, and valve module conveying mechanism 23 uses vibrating disk feeding structure, valve
Component lead agency 24 is used to drive valve module to be moved to the plumb joint 26 of welding mechanism 25, i.e., drive valve module to transport by cylinder
Dynamic, welding mechanism 25 is used to drive its plumb joint 26 to be moved to valve module, i.e., drive plumb joint 26 to be moved to valve module from cylinder;
The valve module that valve module lead agency 24 is driven is located at the side of Part I raw material 27, and plumb joint 26 is located at Part I
The opposite side of raw material 27, so, when valve module is moved to the plumb joint 26 of welding mechanism 25, valve module will insert perforate unit
In 4 holes for opening up, meanwhile, the move toward one another of plumb joint 26, the ring surface of plumb joint 26 is by Part I raw material 27 through reinforcing chip
The lower surface of this part after reinforcement is pressed on valve module, Part I raw material 27 through this part after reinforcing chip reinforcement
Lower surface will be connected under the heat effect of the ring surface of plumb joint 26 with valve module, meanwhile, reinforcing chip and Part I raw material 27
The region that both soldered first 26 ring surface is pushed down also connects, so as to complete to weld valve;Here there is an effect, it is above-mentioned
Design, can make reinforcement unit 3 avoid using full wafer reinforcing chip and this mode of blocking under warming of Part I raw material 27 of needing, and
Only needing to reinforcement unit 3 carries out annular blocking under warming operation, and weldering valve cell 5 realizes front and rear concord with reinforcement unit 3, effectively letter
Attachment structure is changed.
Valve module refers to valve base, and valve base is used to install other components of valve.
Cutting unit 8 includes that Timing Belt reciprocating mechanism 29, the second blade 30, place of incision located at Timing Belt are positioned
Mechanism 31, Timing Belt reciprocating mechanism 29 is used to drive the linear reciprocating motion of the second blade 30 to be cut with by the bag of sequential like
Into bag independent one by one, Timing Belt reciprocating mechanism 29 is driven by motor, can use servomotor, so, synchronous
Band reciprocating stroke is more accurate, and the both sides of the second blade 30 are equipped with blade, and place of incision detent mechanism 31 is included for supporting
The platform 32 of place of incision, can be affixed with the clamp module 33 of clamping and positioning place of incision with platform 32, clamp module 33 is by cutting
The cylinder of disconnected spots localization mechanism 31 drives, and platform 32 is provided with the interval 34 to complete to cut for the activity of the second blade 30.
Closed cell includes longitudinal sealing mechanism 6 and transverse sealing mechanism 7, and the closed cell forms a square welding trace;Closing is single
First purpose for so setting, it is the facility for providing the user with adjustment weld size to be, such as individually two in adjustment longitudinal sealing mechanism 6
The spacing of welding module, is adapted to the bag of different in width.
Longitudinal sealing mechanism 6 forms the vertical toe line of bag:Vertical weldering is to weld on two sides simultaneously, and welding module uses copper tool, pneumatic,
Synchronizer High-accuracy electromagnetic valve is automatically controlled, high-temperature low-pressure control formula, and PE can time delay material drag when welding, it is ensured that bonding wire is complete after welding
It is not easily stretchable during full cooling material drag, it is ensured that bag material is without prejudice.
Equally, transverse sealing mechanism 7 forms the horizontal position welding sideline of bag:It is essentially identical with vertical toe line, it is ensured that each firm welding
Stabilization.
Closed cell effect is that welded closure forms bag, and the mechanism of every energy do so can be applicable, such as
Annular solder, once welding can just form annular welding trace, realize that annular solder is closed.
Traction unit includes front haulage mechanism 9, middle haulage gear 10 and rear haulage mechanism 11, weldering valve cell 5, front haulage machine
The longitudinal sealing mechanism 6 of structure 9, closed cell, the transverse sealing mechanism 7 of middle haulage gear 10, closed cell, front haulage mechanism 9, cutting unit
8 are sequentially distributed.
The effect of traction unit is fixed length material drag, that is, makes material traveling certain distance, in this example, that is, refers to
The bag traveling identical distance of a part of raw material 27, Part II raw material 28, sequential like.
Part I raw material 27, Part II raw material 28 are sent into longitudinal sealing mechanism 6 by rear haulage mechanism 11 together, in lead
Draw mechanism 10 and will complete the bag of vertical toe line and send into transverse sealing mechanism 7 forward, front haulage mechanism 9 will complete the bag in horizontal position welding sideline
Cutting unit 8 is sent into forward, cutting unit 8 is cut off, complete the making of bag one by one.
In order to structure simplifies, and can continue, stablize, smoothly by the bag of sequential like feeding cutting unit 8, front haulage
Mechanism 9 is disposed adjacent with cutting unit 8.
Be provided with the first delivery platform 35 between longitudinal sealing mechanism 6 and middle haulage gear 10, the first delivery platform 35 be provided with for
First cooling body of the vertical toe line that cooling longitudinal sealing mechanism 6 is formed, the first cooling body uses air-cooled, similarly, transverse sealing mechanism
7th, the second delivery platform can also be provided between front haulage mechanism 9, the second delivery platform can also be provided with for cooling down horizontal sealing machine
Second cooling body in the horizontal position welding sideline that structure 7 is formed, the second delivery platform does not draw in figure, so, improves the production of bag
Quality, meanwhile, the quality of production of bag is stabilized, is reliably kept.
Vertical toe line, horizontal position welding sideline belong to the welding trace formed under heat effect.
The bag one by one obtained through cutting unit 8 is exactly finished bag, and finished bag is collected for convenience, can be single in cut-out
The outlet of unit 8 sets a finished bag collector unit 38, and finished bag collector unit 38 includes roller bearing delivery platform and stacks table, cut-out
Unit 8, roller bearing delivery platform, stacking table are sequentially distributed.
It is steady in order to advance, it is respectively provided between reinforcement unit 3 and perforate unit 4, between perforate unit 4 and weldering valve cell 5
Transition roller group.
Control unit can be used and is separately controlled, it is also possible to integrated control, be prior art;It is separately controlled, such as often
There is a control unit in individual mechanism, and each control unit is acted according to the time;And integrated control is then to set a master control
Unit processed, the master control unit coordinates the action of each several part according to the time;Either which kind of, general principle is the same, i.e., each portion
Divide according to time cycle, repetitive operation.
The above is only better embodiment of the present utility model, therefore all according to described in the utility model patent claim
Construction, the equivalent change or modification done of feature and principle, be included in the utility model patent claim.
Claims (9)
1. a kind of to inflate bag making machine, it includes unwinding unit (1), weldering valve cell (5), traction unit and control unit, and it is special
Levy and be, it also includes reinforcement unit (3), perforate unit (4), closed cell, cutting unit (8);Described unwinding unit
(1), reinforcement unit (3), perforate unit (4), weldering valve cell (5), closed cell, cutting unit (8) be sequentially distributed and respectively with
Control unit electrically connect, closed cell be used for unwinding unit (1) is discharged and sequentially by reinforcement unit (3), perforate list
The Part II raw material (28) that first (4), the Part I raw material (27) of weldering valve cell (5) are discharged with unwinding unit (1)
The bag of sequential like is combined into, cutting unit (8) by the bag of sequential like for cutting into bag independent one by one;Traction is single
Unit be one or more, each traction unit is distributed between cutting unit (8) and unwinding unit (1), each traction unit respectively with
Control unit is electrically connected.
2. inflation bag making machine according to claim 1, it is characterised in that reinforcement unit (3) is defeated including what is be sequentially distributed
The reinforcement that the reinforcing chip of reinforcement volume (2) release send mechanism (12), shut-off mechanism (13), be connected with Part I raw material (27)
Bindiny mechanism (14), for reinforcing chip to be conveyed forward, shut-off mechanism (13) will be for will be former with Part I for conveying mechanism (12)
This section of reinforcing chip of material (27) connection and the continuous reinforcing chip of reinforcement volume (2) release cut off each other.
3. inflation bag making machine according to claim 2, it is characterised in that shut-off mechanism (13) is including cutting-blade head
(15), the cutting edge (37) of cutting-blade head (15) is continuous with what can be discharged this section of described reinforcing chip and reinforcement volume (2)
The temperature of the mutual thermal cut-out of reinforcing chip, cutting edge (37) lower section be provided with for by reinforcing chip and Part I raw material (27) heat every
From thermal insulation layer (16).
4. inflation bag making machine according to claim 3, it is characterised in that the cutting edge (37) of cutting-blade head (15) be provided with according to
The a plurality of wire opening (17) of sequence distribution.
5. inflation bag making machine according to claim 1, it is characterised in that perforate unit (4) is including reciprocating linear motion
Mechanism (18), rotational motion mechanism (19), workbench (20), recovering mechanism, reciprocating linear motion mechanism (18) revolve for driving
Rotation movement structure (19) is moved up and down, and rotational motion mechanism (19) is provided with for circumgyration incision Part I raw material (27)
Through this part after reinforcing chip reinforcement with first blade (21) of pore-forming, workbench (20) be provided with positioned at the first blade (21) to
Through hole (22), through hole (22) connects for falling into the waste paper that the first blade (21) cuts down, recovering mechanism with through hole (22),
Recovering mechanism is used to reclaim described waste paper.
6. inflation bag making machine according to claim 1, it is characterised in that weldering valve cell (5) includes valve module conveyer
Structure (23), valve module lead agency (24), welding mechanism (25), valve module conveying mechanism (23) is for valve module lead agency
(24) valve module is conveyed, valve module lead agency (24) is transported for driving valve module to the plumb joint (26) of welding mechanism (25)
It is dynamic, welding mechanism (25) for driving its plumb joint (26) to be moved to valve module, the valve that valve module lead agency (24) is driven
Component is located at the side of Part I raw material (27), opposite side of the plumb joint (26) positioned at Part I raw material (27).
7. inflation bag making machine according to claim 1, it is characterised in that cutting unit (8) is back and forth transported including Timing Belt
Motivation structure (29), the second blade (30) located at Timing Belt, place of incision detent mechanism (31), Timing Belt reciprocating mechanism
(29) for driving the second blade (30) linear reciprocating motion to cut into bag independent one by one with by the bag of sequential like, the
The both sides of two blades (30) are equipped with blade, and place of incision detent mechanism (31) includes the platform for support cut position
(32), can be affixed with the clamp module of clamping and positioning place of incision (33) with platform (32), platform (32) is provided with for the second blade
(30) interval (34) of the activity to complete to cut.
8. inflation bag making machine according to claim 1, it is characterised in that closed cell includes longitudinal sealing mechanism (6) and horizontal stroke
Sealing mechanism (7).
9. inflation bag making machine according to claim 1, it is characterised in that traction unit include front haulage mechanism (9), in
Haulage gear (10) and rear haulage mechanism (11), weldering valve cell (5), front haulage mechanism (9), the longitudinal sealing mechanism (6) of closed cell,
Middle haulage gear (10), the transverse sealing mechanism (7) of closed cell, front haulage mechanism (9), cutting unit (8) are sequentially distributed.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621346876.2U CN206254563U (en) | 2016-12-09 | 2016-12-09 | Inflation bag making machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621346876.2U CN206254563U (en) | 2016-12-09 | 2016-12-09 | Inflation bag making machine |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206254563U true CN206254563U (en) | 2017-06-16 |
Family
ID=59029333
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201621346876.2U Active CN206254563U (en) | 2016-12-09 | 2016-12-09 | Inflation bag making machine |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN206254563U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106541616A (en) * | 2016-12-09 | 2017-03-29 | 海宁成研包装机械有限公司 | Inflation bag making machine |
CN109397752A (en) * | 2018-11-23 | 2019-03-01 | 庄伟峰 | A kind of express delivery plastic bag draft machine |
-
2016
- 2016-12-09 CN CN201621346876.2U patent/CN206254563U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106541616A (en) * | 2016-12-09 | 2017-03-29 | 海宁成研包装机械有限公司 | Inflation bag making machine |
CN109397752A (en) * | 2018-11-23 | 2019-03-01 | 庄伟峰 | A kind of express delivery plastic bag draft machine |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106541616A (en) | Inflation bag making machine | |
CN105600029B (en) | Bag making machine | |
CN206254563U (en) | Inflation bag making machine | |
CN207415465U (en) | A kind of cutter device of heat sink | |
CN107803664A (en) | A kind of battery pole piece cutting is welding integrated | |
CN106378810A (en) | Automatic sheet stock cutter | |
CN206242179U (en) | The viscous lining cutter of one kind | |
CN104339708B (en) | A kind of packaging bag deburring device and method | |
CN106881907A (en) | The hole-forming device of film | |
CN203973196U (en) | A kind of bagged-spring bar shut-off mechanism | |
CN203496327U (en) | Burring processing device for packaging bag | |
CN206254565U (en) | Device for producing the film with valve | |
CN106541617A (en) | For producing the device of the film with valve | |
CN116039158A (en) | Vacuum compression bag making machine and bag making process | |
CN204109442U (en) | The punching adhesive tape mechanism of carton non-woven fabrics hand-strap forming machine | |
CN205342451U (en) | Fully automatic welding machine | |
CN104249483A (en) | Heavy-packaging thick-film bag making machine | |
CN103158175B (en) | Full-automatic lamp handle cover manufacturing device | |
CN206326062U (en) | The horizontal feeding device of electronic component braid | |
CN102198739A (en) | Multifunctional bag-manufacturing machine and method for manufacturing flat-opening bags, vest bags and rolled bags | |
CN105034286B (en) | A kind of heat punching is oriented to primary and secondary and cuts glue mouthful special plane | |
CN108312635A (en) | A kind of film pocket cutting machine | |
CN206230961U (en) | To the reinforcing device of film reinforcement | |
CN207327094U (en) | Automatic correction sponge cutting machine | |
CN202029437U (en) | Multi-purpose bag machine |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
TR01 | Transfer of patent right | ||
TR01 | Transfer of patent right |
Effective date of registration: 20230412 Address after: 322100 Shang'antian Village, Nanma Town, Dongyang City, Jinhua City, Zhejiang Province (the first building on the west side of Dongyang Sopu Fitness Equipment Co., Ltd.) Patentee after: Zhejiang Mingshang Machinery Technology Co.,Ltd. Address before: No. 2 Youche Road, Xieqiao Town, Haining City, Jiaxing City, Zhejiang Province, 314406 Patentee before: HAINING CHENGYAN PACKAGING MACHINERY CO.,LTD. |