CN104192364A - Device used for producing wipers - Google Patents

Abstract

The invention discloses a device used for producing wipers. The device used for producing wipers comprises a conveying rail, a conveying mold rack and a packaging mold rack. The conveying rail is provided with a first sealed end area and a second sealed end area; the conveying mold rack can perform transmission between the first sealed end area and the second sealed end area along the conveying rail, a plurality of hollow mold cavities with one ends sealed are arranged on the conveying mold rack, and openings of the hollow mold cavities face upward; the packaging mold rack is located in the second sealed end area and can move in the vertical direction, a plurality of hollow mold cavities with one ends closed are arranged on the packaging mold rack, and openings of the hollow mold cavities face downward. According to the device used for producing wipers, the conveying mold rack performs transmission between the first sealed end area and the second sealed end area along the conveying rail so that end sealing and filling are integrated on the same device to be completed, and thus wiper production efficiency is improved.

Description

For the production of the equipment of wiper

Technical field

The present invention relates to medicine equipment production technical field, particularly a kind of equipment for the production of wiper.

Background technology

In medical institutions and daily life place, the wiping body that soft sorptive material is made be placed in body of rod one end to embrocate appliance applications more and more extensive.For example cotton swab, it is used to the secrete of wiping human body or is used for sampling; Dip in after power fluids such as inhaling liquid, thimerosal with it, human body wound or injection site are carried out to cleaning disinfection; Can also dip in the materials such as Inhaling Liquid cosmetics, ointment, medicinal powder with it uses; Also can dip purging medium with it and carry out clean article etc.In recent years, the cotton body that is wrapped in sign pole one end is soaked in advance to the pastille cotton swab of liquid, and without bar containing absorbent liquor ball, more and more extensive containing the use of the products such as absorbent cotton sheet; Also have and power fluid is poured in advance to the products such as carrier fluid cotton swab in the tubulose body of rod and also in succession occurs.

For example, Chinese Patent Application No. is 200480010343.0 to disclose a kind of wiper, comprises the body of rod, is placed in wiping body and the overpack thereof of body of rod one end, and described packing material is that two ends are by the tubular container of permanent closure; On tube wall between tubular container two ends, have at least a place to be provided with mark of break easy to break; The body of rod has elasticity.

But the production of this wiper at present cannot be integrated on an equipment and complete, thereby causes production efficiency lower.

Summary of the invention

In view of this, the object of the invention is to propose a kind of equipment for the production of wiper, make end socket, filling be integrated on an equipment and complete, thereby improved the production efficiency of wiper.

Based on above-mentioned purpose, the equipment for the production of wiper provided by the invention comprises transmission track, transmits die frame and encapsulating mould frame, is respectively equipped with the first end-blocking district and the second end-blocking district on described transmission track;

Described transmission die frame can be along transmission track transmission between the first end-blocking district and the second end-blocking district, transmits the hollow mould cavity that is arranged with several one end sealings on die frame, this hollow mould cavity opening up;

Described encapsulating mould chord position is in the second end-blocking district, and can move along vertical direction, is arranged with the hollow mould cavity of several one end sealings on encapsulating mould frame, this hollow mould cavity opening down;

In the time that the tubular container of both ends open inserts the hollow mould cavity on described transmission die frame, the first end-blocking district carries out melting encapsulation to one end of described tubular container; Be sent to the second end-blocking district together with the tubular container that described transmission die frame encapsulates with one end melting time, encapsulating mould frame moves down along vertical direction, until the hollow mould cavity on encapsulating mould frame inserts the other end of described tubular container, melting encapsulation is carried out in the second Dui Gai end, end-blocking district.

Alternatively, described the first end-blocking district comprises the first heating arrangements, the first cooling body and the pressing plate moving along vertical direction;

In the time that the tubular container of both ends open inserts the hollow mould cavity on described transmission die frame, the first heating arrangements carries out heating and melting to the closed end of this hollow mould cavity, and pressing plate moves down tubular container is exerted pressure along vertical direction simultaneously;

After heating finishes, the first cooling body carries out instantaneous cooling to hollow cavity body of mould.

Preferably, described the first heating arrangements is electromagnetic heating mechanism, and is positioned at the spherical crown part of the closed end of hollow mould cavity, only the closed end of hollow cavity body of mould is carried out to transient heating.

Preferably, described the second end-blocking district comprises the second heating arrangements and the second cooling body;

In the time that the hollow mould cavity on encapsulating mould frame inserts the other end of described tubular container, the second heating arrangements carries out heating and melting to the closed end of this hollow mould cavity;

After heating finishes, the second cooling body carries out instantaneous cooling to hollow cavity body of mould.

Preferably, described the second heating arrangements is positioned near the closed end of the hollow mould cavity on encapsulating mould frame, and can move along vertical direction together along with encapsulating mould frame.

Preferably, described the second heating arrangements is electromagnetic heating mechanism, is positioned at the spherical crown part of the closed end of hollow mould cavity, only the closed end of hollow cavity body of mould is carried out to transient heating.

Alternatively, in the time that the second end-blocking district carries out melting encapsulation to the end of the hollow mould cavity on encapsulating mould frame, described encapsulating mould frame moves down tubular container is exerted pressure along vertical direction.

Alternatively, described equipment also comprises filling mechanism, and described filling mechanism is between the first end-blocking district and the second end-blocking district, for carrying out filling to the tubular container of one end melting encapsulation.

Preferably, described filling mechanism can move up and down along vertical direction, in the time transmitting die frame and move between the first end-blocking district and the second end-blocking district a certain position, filling mechanism moves down along vertical direction, then tubular container one end melting being encapsulated carries out filling, then moves up and returns to original position along vertical direction again.

Alternatively, described transmission track is slide rail, and the both sides of described transmission die frame are separately installed with slide block, and under power driven, described slide block can slide on slide rail, moves back and forth between the first end-blocking district and the second end-blocking district thereby make to transmit die frame.

Alternatively, described transmission track is screw mandrel, the both sides of described transmission die frame are separately installed with nut seat, described nut seat is connected with screw mandrel by nut, along with the rotation of screw mandrel, described nut seat moves on screw mandrel, moves back and forth between the first end-blocking district and the second end-blocking district thereby make to transmit die frame.

Alternatively, the ring-shaped synchronous belt that described transmission track comprises synchronizing wheel and is meshed with described synchronizing wheel, the both sides of described transmission die frame are connected with circulating synchromesh belt respectively, along with the rotation of synchronizing wheel, the transmission together with ring-shaped synchronous belt of described transmission die frame, moves in circumference mode between the first end-blocking district and the second end-blocking district again and again thereby make to transmit die frame.

Alternatively, described transmission track comprises belt pulley and the endless-belt with described belt pulley laminating, the both sides of described transmission die frame are connected with belt belt respectively, along with the rotation of belt pulley, the transmission together with endless-belt of described transmission die frame, moves in circumference mode between the first end-blocking district and the second end-blocking district again and again thereby make to transmit die frame.

Alternatively, the ring chain that described transmission track comprises sprocket wheel and is meshed with described sprocket wheel, the both sides of described transmission die frame are connected with belt chain respectively, along with the rotation of sprocket wheel, the transmission together with ring chain of described transmission die frame, moves in circumference mode between the first end-blocking district and the second end-blocking district again and again thereby make to transmit die frame.

Alternatively, the tooth bar that described transmission track comprises gear and is meshed with described gear, the both sides of described transmission die frame are connected with tooth bar respectively, along with the rotation of gear, the transmission together with tooth bar of described transmission die frame, moves back and forth between the first end-blocking district and the second end-blocking district thereby make to transmit die frame.

As can be seen from above, equipment for the production of wiper provided by the invention is by transmitting die frame transmission between the first end-blocking district and the second end-blocking district along transmission track, end-blocking, filling being integrated on an equipment are completed, thereby improved the production efficiency of wiper.And adopt Liang Ge end-blocking district to carry out respectively melting end-blocking to tubular container, can further improve package quality and controllability.

Brief description of the drawings

Fig. 1 is the structural representation of the equipment for the production of wiper of first embodiment of the invention;

Fig. 2 is the structural representation of the equipment for the production of wiper of second embodiment of the invention;

Fig. 3 is the structural representation of the equipment for the production of wiper of third embodiment of the invention;

Fig. 4 is the structural representation of the equipment for the production of wiper of four embodiment of the invention;

Fig. 5 is the structural representation of the equipment for the production of wiper of fifth embodiment of the invention;

Fig. 6 is the structural representation of the equipment for the production of wiper of sixth embodiment of the invention;

Fig. 7 is the structural representation of the first heating arrangements of the embodiment of the present invention;

Fig. 8 is the structural representation of the transmission track of first embodiment of the invention.

Detailed description of the invention

For making the object, technical solutions and advantages of the present invention clearer, below in conjunction with specific embodiment, and with reference to accompanying drawing, the present invention is described in more detail.

With reference to figure 1, the structural representation of its equipment for the production of wiper that is first embodiment of the invention.The described equipment for the production of wiper comprises slide rail 101, transmits die frame 2 and encapsulating mould frame 4, is respectively equipped with the first end-blocking district 11 and the second end-blocking district 12 on described slide rail 101.The both sides of described transmission die frame 2 are separately installed with slide block 102, and described slide block 102 can slide on slide rail 101, therefore, under power driven, transmit die frame 2 and can between the first end-blocking district 11 and the second end-blocking district 12, slide along slide rail 101.Transmit the hollow mould cavity 3 that is arranged with several one end sealings on die frame 2, this hollow mould cavity 3 opening up.Described encapsulating mould frame 4 is positioned at the second end-blocking district 12, and can move along vertical direction, is arranged with the hollow mould cavity 5 of several one end sealing on encapsulating mould frame 4, this hollow mould cavity 5 opening down.Wherein, described transmission die frame 2 should be fixedly connected with slide block 102.

Further, described the first end-blocking district 11 comprises the first heating arrangements 13, the first cooling body 14 and the pressing plate 7 that can move along vertical direction.Described pressing plate 7 is positioned at the top of transmitting die frame 2, for exerting pressure to tubular container 6.Described the second end-blocking district 12 comprises the second heating arrangements 15 and the second cooling body 16.The described equipment for the production of wiper also comprises filling mechanism 8, and described filling mechanism 8 is between the first end-blocking district 11 and the second end-blocking district 12, for carrying out filling to the tubular container 6 of one end melting encapsulation.Described filling mechanism 8 can move up and down along vertical direction, in the time transmitting die frame 2 and move between the first end-blocking district 11 and the second end-blocking district 12 a certain position, filling mechanism 8 moves down along vertical direction, then the tubular container 6 one end melting being encapsulated carries out filling, then moves up and returns to original position along vertical direction again.

Alternatively, described the first heating arrangements 13 can adopt electromagnetism to carry out heating and melting to the closed end of hollow cavity body of mould 3, makes tubular container 6 (thermoplastic macromolecule material) reach processing conditions, then makes it at in-mold molding by instantaneous cooling.

Referring to Fig. 7, it is the structural representation of the embodiment of the present invention the first heating arrangements.When melting heating, the first heating arrangements 13 is preferably positioned at the spherical crown part of hollow mould cavity 3 closed ends, can not be positioned at the straight portion of hollow mould cavity 3.Be the region that the closed end of hollow mould cavity 3 is placed in flux density maximum, the closed end cutting magnetic line of hollow mould cavity 3, makes the closed end moment of hollow mould cavity 3 obtain heat, reaches the processing temperature of tubular container 6.

Preferably, the first heating arrangements 13 is 2～5mm with the distance on hollow mould cavity 3 tops, and the tubular container 6 that such distance is 0.7～0.8mm for heating wall thickness, the mould that wall thickness is 0.3～0.5mm are most suitable.

Because the wall thickness of hollow mould cavity 3 is very thin, therefore need very accurately controlled working temperature and machining area (the spherical crown part of hollow mould cavity 3, instead of straight portion), so neither can be because of very wide processing temperature scope, make processed tubular container 6 because compared with wide range of temperatures and oad and shape disunity, also can, because of very wide processing temperature scope, not make the physical and chemical performance of processed tubular container 6 unstable.Therefore, the present invention carries out melting in Electromagnetic Heating mode, makes the end of tubular container 6 by transient heating, has not only improved the forming characteristics of tubular container 6, has also improved production efficiency.

In the present embodiment, described the second heating arrangements 15 is positioned near the closed end of the hollow mould cavity 5 on encapsulating mould frame 4, and can move along vertical direction together along with encapsulating mould frame 4.

Preferably, described the second heating arrangements 15 also can adopt electromagnetism to carry out heating and melting to the closed end of hollow cavity body of mould 5, make tubular container 6 (thermoplastic macromolecule material) reach processing conditions, then make it at in-mold molding by instantaneous cooling.The second heating arrangements 15 is preferably positioned at the spherical crown part of hollow mould cavity 5 closed ends, can not be positioned at the straight portion of hollow mould cavity 5, with the first heating arrangements 13.

The first cooling body 14 and/or the second cooling body 16 can be cooling water systems, or other coolant systems.Adopt cooling water expansion tank or other refrigerant fluids to carry out instantaneous cooling to hollow cavity body of mould 3,5, thereby make the end of tubular container 6 packed.

In the time that the tubular container 6 of both ends open inserts the hollow mould cavity 3 on described transmission die frame 2, the first heating arrangements 13 heats the closed end of this hollow mould cavity 3, make one end melted by heating encapsulation of tubular container 6, pressing plate moves down tubular container is exerted pressure along vertical direction simultaneously; After heating finishes, the first cooling body 14 carries out instantaneous cooling to hollow cavity body of mould 3, must arrive one end and be melted the tubular container 6 of encapsulation.While sliding between the first end-blocking district 11 and the second end-blocking district 12 together with the tubular container 6 that transmission die frame 2 encapsulates with one end melting, filling mechanism 8 carries out filling to this tubular container 6.Then, in the time that transmission die frame 2 continues to slide into the second end-blocking district 12 with the tubular container 6 of one end melting encapsulation, encapsulating mould frame 4 moves down along vertical direction, hollow mould cavity 5 on encapsulating mould frame 4 inserts the other end of this tubular container 6, the second heating arrangements 15 heats the closed end of this hollow mould cavity 5, makes the also melted by heating encapsulation of tubular container 6 other ends; Encapsulating mould frame 4 moves down tubular container 6 is exerted pressure along vertical direction simultaneously; After heating finishes, the second cooling body 16 carries out instantaneous cooling to hollow cavity body of mould 5, and two ends are all melted the tubular container 6 of encapsulation.Described filling mechanism 8 loads required content, as the body of rod, liquid, lotion, powder, gas.

It should be noted that, the described equipment for the production of wiper not only can be used in the tubular container of processing macro-molecular material, can also be used for the tubular container of processed glass material.

In addition, can be to seal completely to the encapsulation at tubular container 6 two ends, also can leave aperture, tubular container 6 is carried out to reducing, but not exclusively sealing.This displacement that can move down by control pressing plate 7 and encapsulating mould frame 4 is controlled, thereby controls it to 6 applied pressure sizes of tubular container.If tubular container 6 need to seal completely, increase pressing plate 7 and encapsulating mould frame 4 to tubular container 6 applied pressures; Such as tubular container 6 need to leave aperture, reduce pressing plate 7 and encapsulating mould frame 4 to tubular container 6 applied pressures.The shape at tubular container 6 two ends also can change by the shape that changes hollow mould cavity 3,5, makes it form difform end-blocking.For example, circle, ellipse, taper shape, triangle etc.

It is pointed out that the Linear transmission mode described in the present embodiment (the moving along vertical direction such as encapsulating mould frame 4, pressing plate 7, second heating arrangements 15) can adopt linear block, linear module, linear bearing, plain bearing, the linear drive such as manipulator is realized even.

With reference to figure 2, the structural representation of its equipment for the production of wiper that is second embodiment of the invention.In the present embodiment, described transmission track is screw mandrel 103, the both sides of described transmission die frame 2 are separately installed with nut seat 104, described nut seat 104 is connected with screw mandrel 103 by nut, along with the rotation of screw mandrel 103, described nut seat 104 moves on screw mandrel 103, thereby drives transmission die frame 2 to slide between the first end-blocking district 11 and the second end-blocking district 12 along screw mandrel 103.In the present embodiment, need to install two rhizoid bars 103, drive the nut seat 104 that transmits die frame 2 both sides to move simultaneously.Can drive described screw mandrel 103 to rotate by motor.Wherein, described transmission die frame 2 should be fixedly connected with nut seat 104.

Miscellaneous part is identical with first embodiment.

With reference to figure 3, the structural representation of its equipment for the production of wiper that is third embodiment of the invention.In the present embodiment, the ring-shaped synchronous belt 106 that described transmission track comprises synchronizing wheel 105 and is meshed with described synchronizing wheel 105, the both sides of described transmission die frame 2 are connected with circulating synchromesh belt 106 respectively, along with the rotation of synchronizing wheel 105, circulating synchromesh belt 106 moves in a circle, thereby drives transmission die frame 2 to move between the first end-blocking district 11 and the second end-blocking district 12.In the present embodiment, need to install two ring-shaped synchronous belts 105, drive transmission die frame 2 both sides to move together simultaneously.Wherein, described transmission die frame 2 should be fixedly connected with circulating synchromesh belt 106.

Miscellaneous part is identical with first embodiment.

With reference to figure 4, the structural representation of its equipment for the production of wiper that is four embodiment of the invention.In the present embodiment, the endless-belt 108 that described transmission track comprises belt pulley 107 and fits with described belt pulley 107, the both sides of described transmission die frame 2 are connected with belt belt 108 respectively, along with the rotation of belt pulley 107, the belt 108 that goes in ring moves in a circle, thereby drives transmission die frame 2 to move between the first end-blocking district 11 and the second end-blocking district 12.In the present embodiment, need to install two belt belts 108, drive transmission die frame 2 both sides to move together simultaneously.Wherein, described transmission die frame 2 should be fixedly connected with belt belt 108.

Miscellaneous part is identical with first embodiment.

With reference to figure 5, the structural representation of its equipment for the production of wiper that is fifth embodiment of the invention.In the present embodiment, the ring chain 110 that described transmission track comprises sprocket wheel 109 and is meshed with described sprocket wheel 109, the both sides of described transmission die frame 2 are connected with belt chain 110 respectively, along with the rotation of sprocket wheel 109, ring chain 110 moves in a circle, thereby drives transmission die frame 2 to move between the first end-blocking district 11 and the second end-blocking district 12.In the present embodiment, need to install two ring chains 110, drive transmission die frame 2 both sides to move together simultaneously.Wherein, described transmission die frame 2 should be fixedly connected with belt chain 110.

Miscellaneous part is identical with first embodiment.

With reference to figure 6, the structural representation of its equipment for the production of wiper that is sixth embodiment of the invention.In the present embodiment, the tooth bar 112 that described transmission track comprises gear 111 and is meshed with described gear 111, the both sides of described transmission die frame 2 are connected with tooth bar 112 respectively, along with the rotation of gear 111, ring chain 110 does horizontal motion, thereby drives transmission die frame 2 to move between the first end-blocking district 11 and the second end-blocking district 12.In the present embodiment, need to install two toothed rack 112, drive transmission die frame 2 both sides to move together simultaneously.Wherein, described transmission die frame 2 should be fixedly connected with tooth bar 112.

Miscellaneous part is identical with first embodiment.

It is to be noted, in first, second and the 6th embodiment, can make to transmit die frame 2 and slide into the first end-blocking district 11 from the second end-blocking district 12 again along transmission track by changing power operated direction, transmit die frame 2 moving back and forth between the first end-blocking district 11 and the second end-blocking district 12 thereby realize.

Further, in first embodiment, transmission track 17 (being slide rail 101) used can be Long Circle, as shown in Figure 8, the both sides of this transmission track 17 are rectilinear form, and the end on both sides connects by arc, thereby form oblong transmission track.In order to enhance productivity, the first end-blocking district 11 and the second end-blocking district 12 can be all installed on the both sides of this transmission track 17, so when transmit die frame 2 along transmission track from the first end-blocking district 11 moves to the second end-blocking district 12, transmit die frame 2 through circular-arc track, enter the first end-blocking district 11 of another side, again move to the second end-blocking district 12 from the first end-blocking district 11, transmit the circular-arc track of die frame 2 through the other end, finally again get back to the first end-blocking district 11, the circulation that continues to go round and begin again.

Preferably, Long Circle transmission track 17 in described Fig. 8 can also further improve, the circular-arc track at its two ends is become to rectilinear form track, article four, the end of rectilinear form track all connects by arc, transmit so die frame 2 and often complete in orbit once circulation, just can complete four complete melting encapsulation, thereby can further improve the production efficiency of this equipment.

And the mode of motion that transmits die frame in the 3rd, the 4th and the 5th embodiment is realized circular movement again and again by annular Timing Belt, belt, chain, therefore do not need the Long Circle transmission track shown in Fig. 8.

It should be noted that, transmission die frame in first, second and the 6th embodiment is in the reciprocation cycle back and forth of horizontal plane or circumference circulation, and transmission die frame in the 3rd, the 4th and the 5th embodiment 3,4 and 5 is the circumference circulation on perpendicular.

This shows, equipment for the production of wiper provided by the invention is by transmitting die frame transmission between the first end-blocking district and the second end-blocking district along transmission track, end-blocking, filling being integrated on an equipment are completed, thereby improved the production efficiency of wiper.And adopt Liang Ge end-blocking district to carry out respectively melting end-blocking to tubular container, can further improve package quality and controllability.Equipment provided by the invention also can refer to other field, such as the application as medicine bottle, apothecary jar, Drinking bottle, bottled military compressed foods.

Those of ordinary skill in the field are to be understood that: the foregoing is only specific embodiments of the invention; be not limited to the present invention; within the spirit and principles in the present invention all, any amendment of making, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims (15)

1. for the production of an equipment for wiper, it is characterized in that, comprise transmission track, transmit die frame and encapsulating mould frame, on described transmission track, be respectively equipped with the first end-blocking district and the second end-blocking district;

Described transmission die frame can be along transmission track transmission between the first end-blocking district and the second end-blocking district, transmits the hollow mould cavity that is arranged with several one end sealings on die frame, this hollow mould cavity opening up;

Described encapsulating mould chord position is in the second end-blocking district, and can move along vertical direction, is arranged with the hollow mould cavity of several one end sealings on encapsulating mould frame, this hollow mould cavity opening down;

In the time that the tubular container of both ends open inserts the hollow mould cavity on described transmission die frame, the first end-blocking district carries out melting encapsulation to one end of described tubular container; Be sent to the second end-blocking district together with the tubular container that described transmission die frame encapsulates with one end melting time, encapsulating mould frame moves down along vertical direction, until the hollow mould cavity on encapsulating mould frame inserts the other end of described tubular container, melting encapsulation is carried out in the second Dui Gai end, end-blocking district.

2. the equipment for the production of wiper according to claim 1, is characterized in that, described the first end-blocking district comprises the first heating arrangements, the first cooling body and the pressing plate moving along vertical direction;

In the time that the tubular container of both ends open inserts the hollow mould cavity on described transmission die frame, the first heating arrangements carries out heating and melting to the closed end of this hollow mould cavity, and pressing plate moves down tubular container is exerted pressure along vertical direction simultaneously;

After heating finishes, the first cooling body carries out instantaneous cooling to hollow cavity body of mould.

3. the equipment for the production of wiper according to claim 2, is characterized in that, described the first heating arrangements is electromagnetic heating mechanism, and is positioned at the spherical crown part of the closed end of hollow mould cavity, only the closed end of hollow cavity body of mould is carried out to transient heating.

4. the equipment for the production of wiper according to claim 1, is characterized in that, described the second end-blocking district comprises the second heating arrangements and the second cooling body;

In the time that the hollow mould cavity on encapsulating mould frame inserts the other end of described tubular container, the second heating arrangements carries out heating and melting to the closed end of this hollow mould cavity;

After heating finishes, the second cooling body carries out instantaneous cooling to hollow cavity body of mould.

5. the equipment for the production of wiper according to claim 4, is characterized in that, described the second heating arrangements is positioned near the closed end of the hollow mould cavity on encapsulating mould frame, and can move along vertical direction together along with encapsulating mould frame.

6. the equipment for the production of wiper according to claim 5, is characterized in that, described the second heating arrangements is electromagnetic heating mechanism, is positioned at the spherical crown part of the closed end of hollow mould cavity, only the closed end of hollow cavity body of mould is carried out to transient heating.

7. the equipment for the production of wiper according to claim 1, it is characterized in that, in the time that the second end-blocking district carries out melting encapsulation to the end of the hollow mould cavity on encapsulating mould frame, described encapsulating mould frame moves down tubular container is exerted pressure along vertical direction.

8. the equipment for the production of wiper according to claim 1, is characterized in that, described equipment also comprises filling mechanism, and described filling mechanism is between the first end-blocking district and the second end-blocking district, for carrying out filling to the tubular container of one end melting encapsulation.

9. the equipment for the production of wiper according to claim 8, it is characterized in that, described filling mechanism can move up and down along vertical direction, in the time transmitting die frame and move between the first end-blocking district and the second end-blocking district a certain position, filling mechanism moves down along vertical direction, then tubular container one end melting being encapsulated carries out filling, then moves up and returns to original position along vertical direction again.

10. the equipment for the production of wiper according to claim 1, it is characterized in that, described transmission track is slide rail, the both sides of described transmission die frame are separately installed with slide block, under power driven, described slide block can slide on slide rail, moves back and forth between the first end-blocking district and the second end-blocking district thereby make to transmit die frame.

11. equipment for the production of wiper according to claim 1, it is characterized in that, described transmission track is screw mandrel, the both sides of described transmission die frame are separately installed with nut seat, described nut seat is connected with screw mandrel by nut, along with the rotation of screw mandrel, described nut seat moves on screw mandrel, moves back and forth between the first end-blocking district and the second end-blocking district thereby make to transmit die frame.

12. equipment for the production of wiper according to claim 1, it is characterized in that, the ring-shaped synchronous belt that described transmission track comprises synchronizing wheel and is meshed with described synchronizing wheel, the both sides of described transmission die frame are connected with circulating synchromesh belt respectively, along with the rotation of synchronizing wheel, the transmission together with ring-shaped synchronous belt of described transmission die frame, moves in circumference mode between the first end-blocking district and the second end-blocking district again and again thereby make to transmit die frame.

13. equipment for the production of wiper according to claim 1, it is characterized in that, described transmission track comprises belt pulley and the endless-belt with described belt pulley laminating, the both sides of described transmission die frame are connected with belt belt respectively, along with the rotation of belt pulley, the transmission together with endless-belt of described transmission die frame, moves in circumference mode between the first end-blocking district and the second end-blocking district again and again thereby make to transmit die frame.

14. equipment for the production of wiper according to claim 1, it is characterized in that, the ring chain that described transmission track comprises sprocket wheel and is meshed with described sprocket wheel, the both sides of described transmission die frame are connected with belt chain respectively, along with the rotation of sprocket wheel, the transmission together with ring chain of described transmission die frame, moves in circumference mode between the first end-blocking district and the second end-blocking district again and again thereby make to transmit die frame.

15. equipment for the production of wiper according to claim 1, it is characterized in that, the tooth bar that described transmission track comprises gear and is meshed with described gear, the both sides of described transmission die frame are connected with tooth bar respectively, along with the rotation of gear, the transmission together with tooth bar of described transmission die frame, moves back and forth between the first end-blocking district and the second end-blocking district thereby make to transmit die frame.