CN204150287U - A kind of sealed in unit - Google Patents

Abstract

The utility model discloses a kind of sealed in unit, comprise transmission track, transmit die frame and encapsulating mould frame, transmission track is respectively equipped with the first end-blocking district and the second end-blocking district; Transmit die frame can along transmission track between the first end-blocking district and the second end-blocking district with circular manner reciprocal transmission, transmit hollow mould cavity die frame being arranged with and closing several one end, this hollow mould cavity opening up; Encapsulating mould chord position in the second end-blocking district, and can move along vertical direction, encapsulating mould frame is arranged with the hollow mould cavity that several one end are closed, this hollow mould cavity opening down.The sealed in unit that the utility model provides, by transmitting die frame along the transmission of transmission track between the first end-blocking district and the second end-blocking district, makes end-blocking, filling being integrated on an equipment completes, thus improve the production efficiency of wiper.

Description

A kind of sealed in unit

Technical field

The utility model relates to medicine equipment production technical field, particularly a kind of sealed in unit.

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.Such as cotton swab, it is used to the secrete of wiping human body or is used for sampling; After dipping in power fluid such as suction liquid, thimerosal etc. with it, cleaning disinfection is carried out to human body wound or injection site; The materials such as Inhaling Liquid cosmetics, ointment, medicinal powder can also be dipped in it to use; Also can dip purging medium with it and carry out clean article etc.In recent years, the cotton body being wrapped in sign pole one end is soaked in advance the pastille cotton swab of liquid, and more and more extensive without the use containing the product such as absorbent liquor ball, pastille cotton piece of bar; In addition power fluid is poured in advance the products such as the carrier fluid cotton swab in the tubulose body of rod also in succession to occur.

Such as, Chinese Patent Application No. is 200480010343.0 disclose a kind of wiper, and comprise the body of rod, be placed in the wiping body of body of rod one end and overpack thereof, described packing material is that two ends are by the tubular container of permanent closure; Tube wall between tubular container two ends have at least a place 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, thus causes production efficiency lower.

Utility model content

In view of this, the purpose of this utility model is to propose a kind of sealed in unit, makes end socket, filling is integrated on an equipment and completes, thus improve the production efficiency of wiper.

Based on above-mentioned purpose, the sealed in unit that the utility model provides comprises transmission track, transmits die frame and encapsulating mould frame, described transmission track is respectively equipped with the first end-blocking district and the second end-blocking district;

Described transmission die frame can along transmission track between the first end-blocking district and the second end-blocking district with circular manner reciprocal transmission, transmit hollow mould cavity die frame being arranged with and closing several one end, this hollow mould cavity opening up;

Described encapsulating mould chord position in the second end-blocking district, and can move along vertical direction, encapsulating mould frame is arranged with the hollow mould cavity that several one end are closed, this hollow mould cavity opening down.

Described first end-blocking district is for inserting the hollow mould cavity on described transmission die frame during when the tubular container of both ends open, melting encapsulation is carried out to one end of described tubular container; Described encapsulating mould frame is used for when described transmission die frame is sent to the second end-blocking district together with the tubular container that one end melting encapsulates, and moves down, until the hollow mould cavity on encapsulating mould frame inserts the other end of described tubular container along vertical direction; Described second end-blocking district is used for carrying out melting encapsulation to the other end of described tubular container; After terminating encapsulation, described transmission die frame drives to first end-blocking district with circular manner from the second end-blocking district along transmission track.

Alternatively, described first end-blocking district comprises the first heating arrangements, the first cooling body and the pressing plate along vertical direction movement that are positioned at hollow mould cavity closed end, described first heating arrangements adopts electromagnetic wave to carry out heating and melting to the closed end of hollow cavity body of mould, and described first cooling body is coolant system.

Described first heating arrangements is for inserting the hollow mould cavity on described transmission die frame during when the tubular container of both ends open, heating and melting is carried out to the closed end of this hollow mould cavity; Described pressing plate is used for applying along the downward pressure of vertical direction to tubular container;

Described first cooling body is used for after heating terminates, and carries out instantaneous cooling to hollow cavity body of mould.

Preferably, described first heating arrangements is electromagnetic heating mechanism, is positioned at the spherical cap portion of the closed end of hollow mould cavity, only carries out transient heating to the closed end of hollow cavity body of mould.

Preferably, described second end-blocking district comprises the second heating arrangements and the second cooling body that are positioned at hollow mould cavity closed end, described second heating arrangements adopts electromagnetic wave to carry out heating and melting to the closed end of hollow cavity body of mould, and described second cooling body is coolant system.

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

Described second cooling body is used for after heating terminates, and carries out instantaneous cooling to hollow cavity body of mould.

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

Alternatively, described encapsulating mould frame is for carrying out melting encapsulation during when the end of the second end-blocking district to the hollow mould cavity on encapsulating mould frame, tubular container is applied along the downward pressure of vertical direction.

Alternatively, described equipment also comprises filling mechanism, and described filling mechanism, between the first end-blocking district and the second end-blocking district, carries out filling for the tubular container encapsulated one end melting.

Preferably, described filling mechanism moves up and down along vertical direction, for when transmitting die frame and moving to a certain position between the first end-blocking district and the second end-blocking district, move down along vertical direction, carry out filling to the tubular container of one end melting encapsulation, then moving up along vertical direction returns to original position again.

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.

Alternatively, the endless-belt that described transmission track comprises belt pulley and fits with described belt pulley, 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.

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.

As can be seen from above, the sealed in unit that the utility model provides by transmit die frame along transmission track between the first end-blocking district and the second end-blocking district with circular manner reciprocal transmission, make end-blocking, filling being integrated on an equipment complete, thus improve the production efficiency of wiper.And adopt Liang Ge end-blocking district to carry out melting end-blocking respectively to tubular container, package quality and controllability can be improved further.

Accompanying drawing explanation

Fig. 1 is the structural representation of the sealed in unit of the utility model first embodiment;

Fig. 2 is the structural representation of the sealed in unit of the utility model second embodiment;

Fig. 3 is the structural representation of the sealed in unit of the utility model the 3rd embodiment;

Fig. 4 is the structural representation of the first heating arrangements of the utility model embodiment.

Detailed description of the invention

For making the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with specific embodiment, and with reference to accompanying drawing, the utility model is further described.

With reference to figure 1, it is the structural representation of the sealed in unit of the utility model first embodiment.Described sealed in unit comprises synchronizing wheel 105, the ring-shaped synchronous belt 106 be meshed with described synchronizing wheel 105, transmits die frame 2 and encapsulating mould frame 4, described ring-shaped synchronous belt 106 is respectively equipped with the first end-blocking district 11 and the second end-blocking district 12.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, thus drives transmission die frame 2 to move back and forth with circular manner between the first end-blocking district 11 and the second end-blocking district 12.Transmit the hollow mould cavity 3 die frame 2 being arranged with and closing several one end, 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, encapsulating mould frame 4 is arranged with the hollow mould cavity 5 that several one end are closed, this hollow mould cavity 5 opening down.Need installation two ring-shaped synchronous belts 105 in the present embodiment, 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.

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

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

See Fig. 4, it is the structural representation of the utility model embodiment first heating arrangements.During melting heating, the first heating arrangements 13 is preferably positioned at the spherical cap portion of hollow mould cavity 3 closed end, can not be positioned at the straight portion of hollow mould cavity 3.Namely the closed end of cavity body of mould 3 is placed in the maximum region of flux density by hollow, the closed end cutting magnetic line of hollow mould cavity 3, makes the closed end of hollow mould cavity 3 obtain heat instantaneously, 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 top, such distance for heating wall thickness be the tubular container 6 of 0.7 ~ 0.8mm, wall thickness is that the mould of 0.3 ~ 0.5mm is most suitable.

Because the wall thickness of hollow mould cavity 3 is very thin, therefore very accurately controlled working temperature and the machining area (spherical cap portion of hollow mould cavity 3 is needed, instead of straight portion), so both can not because of very wide processing temperature scope, make processed tubular container 6 because wider range of temperatures and oad and shape disunity, also will, because of very wide processing temperature scope, make the physical and chemical performance of processed tubular container 6 unstable.Therefore, the utility model carries out melting in Electromagnetic Heating mode, makes the end of tubular container 6 by transient heating, not only increases the forming characteristics of tubular container 6, also improve production efficiency.

In the present embodiment, described 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 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.Second heating arrangements 15 is preferably positioned at the spherical cap portion of hollow mould cavity 5 closed end, can not be positioned at the straight portion of hollow mould cavity 5, with the first heating arrangements 13.

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

When the tubular container 6 of both ends open inserts the hollow mould cavity 3 on described transmission die frame 2, the closed end of the first heating arrangements 13 to this hollow mould cavity 3 heats, make one end melted by heating encapsulation of tubular container 6, pressing plate moves down along vertical direction and applies pressure to tubular container simultaneously; After heating terminates, the first cooling body 14 pairs hollow cavity body of mould 3 carries out instantaneous cooling, must arrive the tubular container 6 that one end is melted encapsulation.When transmission die frame 2 slides between the first end-blocking district 11 and the second end-blocking district 12 together with the tubular container 6 that one end melting encapsulates, filling mechanism 8 carries out filling to this tubular container 6.Then, when the tubular container 6 that transmission die frame 2 and one end melting encapsulate continues to slide into the second end-blocking district 12, 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 closed end of the second heating arrangements 15 to this hollow mould cavity 5 heats, and makes the also melted by heating encapsulation of tubular container 6 other end; Encapsulating mould frame 4 moves down along vertical direction and applies pressure to tubular container 6 simultaneously; After heating terminates, the second cooling body 16 pairs hollow cavity body of mould 5 carries out instantaneous cooling, and two ends are all melted the tubular container 6 of encapsulation.After terminating encapsulation, described transmission die frame 2 drives to the first end-blocking district 11 with circular manner from the second end-blocking district 12, completes the circumferential transmission transmitting die frame 2.

Described filling mechanism 8 loads required content, as the body of rod, liquid, lotion, powder, gas.

It should be noted that, described sealed in unit 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 close completely to the encapsulation at tubular container 6 two ends, also can leave aperture, namely reducing be carried out to tubular container 6, but not exclusively closed.This displacement that can be moved down by control pressing plate 7 and encapsulating mould frame 4 is controlled, thus controls it to tubular container 6 applied pressure sizes.If tubular container 6 needs to close completely, then increase pressing plate 7 and encapsulating mould frame 4 pairs of tubular container 6 applied pressures; Such as tubular container 6 needs to leave aperture, then reduce pressing plate 7 and encapsulating mould frame 4 pairs of tubular container 6 applied pressures.The shape at tubular container 6 two ends also can be changed by the shape changing hollow mould cavity 3,5, makes it form difform end-blocking.Such as, circular, conical, triangle etc.

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

With reference to figure 2, it is the structural representation of the sealed in unit of the utility model second embodiment.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, thus drives transmission die frame 2 to move between the first end-blocking district 11 and the second end-blocking district 12.Need the belt belt 108 of installation two in the present embodiment, 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 3, it is the structural representation of the sealed in unit of the utility model the 3rd embodiment.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, thus drives transmission die frame 2 to move between the first end-blocking district 11 and the second end-blocking district 12.Need installation two ring chains 110 in the present embodiment, 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.

It is pointed out that the mode of motion transmitting die frame in first, second, and third embodiment realizes circular movement again and again by annular Timing Belt, belt, chain, namely transmit die frame and carry out circumferential cycle on perpendicular.

This shows, the sealed in unit that the utility model provides by transmit die frame along transmission track between the first end-blocking district and the second end-blocking district with circular manner reciprocal transmission, make end-blocking, filling being integrated on an equipment complete, thus improve the production efficiency of wiper.And adopt Liang Ge end-blocking district to carry out melting end-blocking respectively to tubular container, package quality and controllability can be improved further.The equipment that the utility model provides also can refer to other field, such as the application of 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 embodiment of the utility model; be not limited to the utility model; all within spirit of the present utility model and principle; any amendment of making, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a sealed in unit, is characterized in that, comprises transmission track, transmits die frame and encapsulating mould frame, described transmission track is respectively equipped with the first end-blocking district and the second end-blocking district;

Described transmission die frame can along transmission track between the first end-blocking district and the second end-blocking district with circular manner reciprocal transmission, transmit hollow mould cavity die frame being arranged with and closing several one end, this hollow mould cavity opening up;

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

Described first end-blocking district is for inserting the hollow mould cavity on described transmission die frame during when the tubular container of both ends open, melting encapsulation is carried out to one end of described tubular container; Described encapsulating mould frame is used for when described transmission die frame is sent to the second end-blocking district together with the tubular container that one end melting encapsulates, and moves down, until the hollow mould cavity on encapsulating mould frame inserts the other end of described tubular container along vertical direction; Described second end-blocking district is used for carrying out melting encapsulation to the other end of described tubular container; After terminating encapsulation, described transmission die frame drives to first end-blocking district with circular manner from the second end-blocking district along transmission track.

2. sealed in unit according to claim 1, it is characterized in that, described first end-blocking district comprises the first heating arrangements, the first cooling body and the pressing plate along vertical direction movement that are positioned at hollow mould cavity closed end, described first heating arrangements adopts electromagnetic wave to carry out heating and melting to the closed end of hollow cavity body of mould, and described first cooling body is coolant system;

Described first heating arrangements is for inserting the hollow mould cavity on described transmission die frame during when the tubular container of both ends open, heating and melting is carried out to the closed end of this hollow mould cavity; Described pressing plate is used for applying along the downward pressure of vertical direction to tubular container;

Described first cooling body is used for after heating terminates, and carries out instantaneous cooling to hollow cavity body of mould.

3. sealed in unit according to claim 1, it is characterized in that, described second end-blocking district comprises the second heating arrangements and the second cooling body that are positioned at hollow mould cavity closed end, described second heating arrangements adopts electromagnetic wave to carry out heating and melting to the closed end of hollow cavity body of mould, and described second cooling body is coolant system;

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

Described second cooling body is used for after heating terminates, and carries out instantaneous cooling to hollow cavity body of mould.

4. sealed in unit according to claim 3, is characterized in that, described 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.

5. sealed in unit according to claim 1, is characterized in that, described encapsulating mould frame is for carrying out melting encapsulation during when the end of the second end-blocking district to the hollow mould cavity on encapsulating mould frame, applies along the downward pressure of vertical direction tubular container.

6. sealed in unit according to claim 1, is characterized in that, described equipment also comprises filling mechanism, and described filling mechanism, between the first end-blocking district and the second end-blocking district, carries out filling for the tubular container encapsulated one end melting.

7. sealed in unit according to claim 6, it is characterized in that, described filling mechanism moves up and down along vertical direction, for when transmitting die frame and moving to a certain position between the first end-blocking district and the second end-blocking district, move down along vertical direction, carry out filling to the tubular container of one end melting encapsulation, then moving up along vertical direction returns to original position again.

8. sealed in unit 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 fixedly 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.

9. sealed in unit according to claim 1, it is characterized in that, the endless-belt that described transmission track comprises belt pulley and fits with described belt pulley, the both sides of described transmission die frame are fixedly connected with belt belt respectively, along with the rotation of belt pulley, the transmission together with endless-belt of described transmission die frame.

10. sealed in unit 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 fixedly connected with belt chain respectively, along with the rotation of sprocket wheel, the transmission together with ring chain of described transmission die frame.