NL7906231A - DEVICE FOR DELIVERING MELTED THERMOPLASTIC MATERIAL. - Google Patents

Description

% ï ί s * ΊΌ 8259

Soeiête Frangaise d'Agrafage Industriel -SOFRAGRAF-.

Vagney, France.

Device for dispensing molten thermoplastic material.

The invention relates to a device which is generally in the form of a gun and which is used for distributing fusible, thermoplastic material, such as glue, in small quantities.

Such devices are normally indicated by applicators and comprise a sleeve or heating jacket into which a piece of material to be distributed can be introduced.

The object of the invention is to provide a device of the type intended, which is simple in construction and use and which can be carried out cheaply and cleanly.

To this end, according to the invention, the heating mantle is surrounded by a heating resistor, which in turn is surrounded by a radiation sleeve, all this in such a way that a sufficient heat exchange takes place relative to the environment so that the temperature of the heating mantle is substantially remains constant without the need for special heat control.

This result can be achieved in a simple manner by arranging ribs in the bore of the heating body, the diameter of which increases in the direction of displacement of the piece of material, so that the heat-transferring surface to the surface to be distributed increases, in particular a cross-shaped passage is formed.

The device according to the invention can expediently be provided with means for supplying the piece or rod of material to be melted, which can be done by the user of the 790 62 31

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-2- device itself which exerts a compressive force on the end of that rod.

Preferably, the material is fed into the device through a passage in a sleeve of elastic material, the insertion end of which can hold this rod, which sleeve forms a free passage from that free end, such that an elastic deformation is possible when the rod in the direction of the heating mantle displaces but this rod moves backward when the pressure applied thereto is lost. The backward movement of the rod is caused by a suction effect from the discharge end, so that dripping is prevented when the device is put out of operation.

The invention will be further discussed with reference to the drawing. In the drawing: Fig. 1 shows diagrammatically a longitudinal section through a dispensing epoxy for thermoplastic glue according to the invention; Fig. 2 shows a front view of the heating jacket; fig. 3 shows a section along the line III-III of fig. 2; fig. if · a view of the heating coil for winding it; Fig. 5 shows the wound heating resistance; and Fig. 6 schematically shows the mounting of the elastic sleeve for holding a stick of glue.

In the illustrated exemplary embodiment, the. device 25 for dispensing thermoplastic glue a frame 1, in the form of a gun. The flask thereof is connected to the jacket 2 of the electrical supply lines, the conductors 3 and 4 of which terminate in a cone brick or a switch 5 which is present in the flask.

The frame consists of two complementary halves which are put together on a longitudinal center plane as shown in fig. 1, which halves are held in place by screws which are inserted into holes 6, which screws are on the one hand smooth and on the other hand are threaded.

790 62 31

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At the front, the two frame halves are provided with semicircular notches 7 with which they fit around an insulating set 8, which is provided with a collar 9 for this purpose. is shown in more detail in Figs. 2 and 3, which extends over a few centimeters inside the body 1 (fig. 1), ends in a cylindrical inlet 11, which is provided on the outside with two retaining pins 12, which are diametrically opposite each other and which, in corresponding cavities 13 10 which are coated with insulating material and are arranged in the two halves of the body 1.

Within the intended body, the heating jacket has an ear 1U for it. connect to a ground wire 15 included in the gun's power cord. The conductors 3 and 4 of this cable 15 are connected with the conductors 16 and 17 to the contact block 5

The guides 16 and 17 leave the body 1 via a passage in the set 8.

Outside the body. 1, the heating jacket 10 terminates in a conical collar 18, which converges towards the end and which has a rebate 19 at the rear, in which the front end of a radiation sleeve 20 is located, which is received with its rear end in a rebate 21 at the front of the gamuture 8.

In the annular space between the heating jacket 10 and the sleeve 20 there is a heating resistor 22 which will be described later and which is connected to the conductors 16 and 17.

The front end of the heating jacket 10 has a cylindrical bore 23, in which a cap 2k is received coaxial with the jacket and which is provided with a check valve 25 in the form of a ball 251, which rests on a seat 253 via a spring 252, which located at the bottom of the bore. The cap 2k has an opening 2h * l.

As shown in Figs. 2 and 3, the inlet 11 and the bore 23 communicate with each other through a bore 26 which is cylindrical and tapers, and in which four longitudinal ribs 27 are arranged which are located. extend to about 1/3 the length of the jacket near the feed 11 and extend to the bottom of the bore 23.

These ribs have an angular cross section as can be seen from Fig. 2, which increase in the direction of the bore 23 and form a cross-shaped lead-through 28 in the bottom.

Such a passage ensures a large heating surface within the heating jacket. The ribs 27 extend over the entire length of the heating mantle around which resistor 22 is located (Fig. 1).

As can be seen from Fig. 6, the supply 11 of the heating jacket 10 comprises the thinned end of a sleeve 29 made of stiff, heat-poorly conductive material, preferably with a heat conduction coefficient of 0. This sleeve is supported with a collar 30 against the off-15 end of heating jacket 10.

The other end of the sleeve 29 is located in a groove 31 of an opening 32, which is arranged on the rear side of the body 1 and in this groove rests against the end of a sleeve 33 of elastic material, for example 20 cylindrical rubber, provided with a collar which protrudes beyond the body 1 with the end 32.

The outer edge of the sleeve 33 has an inwardly extending collar 3 or such a projection.

The inner passage of the sleeve 33 and that of the sleeve 29 as well as the bore 26 are almost the same size and correspond to the cross section of the glue rods 35, which are inserted at the back of the sleeve 33 and open the bore 3 such that the elastic sleeve 33 claar is rigid around it. .

The heating resistor 22 is formed by a wire, which is helically wound around an insulating core 221.

The wire folds back in the middle at the front as shown in Fig. 5 and near the fold 222 the coils are less closed, so that short-circuits can be prevented at the hot points of the bent part.

790 62 31 -5- When folding, the resistance wire in the double coil is wrapped around the heating jacket 10 and connected to the electrical circuit as shown in Fig. 1.

However, it is also possible to wind the resistance wire 1 single.

A stick of glue 35 is inserted into the sleeve 33 when used.

When connected to the electrical circuit, the heating resistor 22 will heat the jacket 10 and that portion 35 opposite the ribs 27. When a pressure 10 is applied to the rear end of the stick of glue, it acts as a piston, whereby the liquid glue is brought out of the cap 2b via the non-return valve 25. The rigid sleeve 29 of the heat conductive material prevents the molten material from flowing backwards.

When moving towards the cap, the bar 35s enclosed by the collar 31 pulls the rear end of the sleeve 33 along such that, when pressure is no longer applied to the bar, the sleeve attempts to return to its original shape. under the influence of its own electricity, whereby the rod is retracted a few millimeters. As a result, a suction action occurs behind the valve 25, as a result of which the ball 251 comes to its seat and glue can no longer escape from the cap 2b. The interior is therefore economical and clean.

The heat distribution via the ribs 27 and to the radiation sleeve - 20, connected to the construction of the heating resistor 22, ensures sufficient heat exchange so that the temperature of the heating body remains almost constant, for example about 180-21 ° C with a tolerance of 10 °, which is sufficient for the proper functioning of the device. This temperature is determined by experiments.

As a result, a thermostatic device can be dispensed with, which in turn contributes to a reduction in the price of the device.

790 6 2 31

Claims (7)

1. Device for dispensing molten thermoplastic material such as glue, "consisting of a heating mantle into which a rod of material can be inserted, which can be moved to the discharge opening of that mantle, characterized in that the mantle is surrounded by a heating resistor, which in turn is "surrounded by a radiation sleeve for sufficient heat exchange, so that the temperature of the heating jacket remains substantially constant". 2. Device as claimed in claim 1, characterized in that the heating jacket has a bore with ribs, the cross section of which increases material in the direction of movement of the rod. Device according to claim 2, characterized in that the ribs have an angular cross-section and are positioned such that they form a cross-shaped passage. Device according to claims 1-3, characterized in that the heating resistor is in the form of a wire wound around an insulating core, after which it. is completely helically wound around the heating mantle. 5. Device according to claim, characterized in that the resistance is folded twice after winding, the coils near the fold being less dense than in the rest of the resistance. 6. Device as claimed in claims 1-5, characterized in that the rod is introduced into the device by means of an elastic sleeve, the sleeve of which the input end can enclose the rod, which sleeve has a free passage from that end and can deform when the rod moves towards the heating mantle and is pulled back, when no compressive force is exerted on it. Device according to claim 6, characterized in that the sleeve has an inwardly directed projection at the inlet end. 8. Device as claimed in claims 6-7, characterized in that the elastic sleeve is connected to the heating jacket by a rigid sleeve from the heat conducting material of 790 62 31 -7- * x. 9. Inridating according to claims 6-8, characterized in that the elastic sleeve extends partly into the body of the device, with a free part protruding beyond it. 10. Device as claimed in claims 1-9, characterized in that it has a body in the form of a gun beyond which the heating jacket extends, while the resistance is situated around the protruding part of the jacket, while the radiating sleeve is situated between a tension of the mantle and a leveling gamut located in the body of the device. 790 62 31