RU2417847C1 - Nozzle to apply glue or fluid on whatever surface - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to methods and devices intended for applying glue or other fluids on the surface of, mainly, nozzles. Nozzle case is made up of two parts flanged together. One of said parts forms fluid chamber integrated with nozzle inner space. Another part forms air compensation variable-volume chamber with opening to communicate compensation chamber with outer atmosphere, chamber volume varying due to needle rod part displacement. Locking seal separates fluid chamber from air compensation chamber. Said seal represents an elastic membrane that allows preset travel of the needle. Membrane has central orifice. Membrane orifice allows mounting on threaded part of the needle rod part threaded section in fluid chamber. Membrane is screw-loaded via rigid washer to the face of needle rod part adjacent section. Said adjacent section features larger diametre and is arranged in air compensation chamber. Membrane peripheral part is pressed between flange edges.

EFFECT: higher reliability and stability, longer life plus efficient control.

4 cl, 2 dwg

Description

The invention relates to technological processes and devices for their implementation (nozzles, watering ridges, spray heads), specifically to methods for applying polyurethane adhesive or other liquids to the surface of an object (product, material), mainly in semi-automatic and automatic conveyor lines for the manufacture of modular building "Sandwich panels" based primarily on polystyrene foam.

In technological processes with application to the surface of a product or material [1], sprayers (nozzles, watering ridges) are widely used, which are an injector — a mechanical spray of liquids with a valve of various types of opening and closing: electromagnetic, piezoelectric, electro-hydraulic, pneumatic [2]. According to the Dictionary of the builder, the fluid in the nozzle is supplied under pressure or using compressed air [3]. Indeed, in many installations, the valve opening-closing mechanism operates from a pneumatic actuator, for which purpose a compressor is included in the delivery package. In the designs of sprayers working using hydraulic and pneumatic devices under pressure, as in other areas of engineering and technology, there is an acute problem of seals, which directly affect the operability of entire production lines, the service life of sprayers, the frequency and laboriousness of equipment maintenance work.

An example of a solution to the “sealing” problem is, for example, the technical proposal “A method for sealing a nozzle nozzle”, where a sealant made of a precipitation hardening alloy is installed between the nozzle and the liner [4]. However, this applies only to the sealing of mutually stationary parts. In single-channel type nozzles, in particular in some fuel nozzles, sealing is ensured by very high accuracy and cleanliness of processing of the mating parts, which limits the scope of implementation of such a technical solution and determines the unjustified cost of the nozzle, as in our case [5]. Another extreme is the admissibility of significant leaks in single-channel fuel injectors (with the organization of replacing leaks with re-leaks on the “return” channel) - see also the source [5].

A device that matches the claimed device for its intended purpose and for general essential features is an nozzle containing a valve including a housing, a nozzle with a liquid cavity and at least one spray hole, a locking needle, and an adjustable pneumatic device with a two-position reciprocating axial moving the needle with the rod part in its continuation, which includes a pneumatic cylinder with an “air” locking seal and a return spring, a nozzle for supplying pressure air and the overflow hole (s) for the exhaust air outlet from the pneumatic cylinder, a shank, an adjustment spring with a screw for adjusting its elasticity strength, while the housing has fluid and pneumatic cavities and a fitting for supplying fluid under pressure to the fluid cavity, separated from one another Moreover, the liquid cavity is isolated from the external atmosphere by a locking seal [6].

In the device, the sealing of the liquid (adhesive) cavity isolates it from the pneumatic cavity and is made in the form of a rubber sleeve covering the rod part of the needle and covered by the neck of the valve body.

However, the described device, being designed and implemented (as the first option) by the authors in the production line for the production of sandwich panels at Fastforming LLC (St. Petersburg), was documented only in the drawing and design documentation (assembly drawing of the nozzle - УИП-01.021. 000 SB). However, it actually became the basic device in the subsequent modernization and use of the claimed invention at the present time.

During operation of the base nozzle, its significant drawback was revealed: the presence of glue leakage through the specified seal under the conditions of reciprocating needle movement with high acceleration by about 5-7 mm, which turned out to be the weakest link in the production line, leading to a sharp reduction in the nozzle service life and, accordingly, to economic damage.

Of the discovered public sources of information, the closest analogue of the claimed device (and, therefore, adopted as a prototype), i.e. At the same time, a nozzle (“watering comb”) comprising a body, a nozzle with a liquid cavity and a spray hole, a locking needle and an adjustable device for on-off reciprocating axial movement of the needle with the rod end its continuation, while the liquid cavity is isolated from the external atmosphere by a locking seal [6].

In the nozzle (ridge) prototype, the nozzle is connected to the housing, and the locking seal is made in the form of “special seals immersed in the oil layer”, with the possibility of a predetermined movement of the needle.

However, such seals are usually characterized by increased dimensions, they require increased attention in maintenance, and the presence of sealing oil near the working fluid (glue) and high-temperature heating devices (for example, string cutting torches of polystyrene plates) is undesirable from the point of fire and explosion safety. In principle, it is not excluded that the oil can be replaced with a working fluid (glue), followed by its displacement into the airspace, with the ensuing phenomena of chemical interaction of these media, premature polymerization of polyurethane adhesive in the nozzle, as well as difficulties in the operation of automation due to the unpredictably variable viscosity of the fluid ( glue). Thus, we can talk about the unsuitability of the device for solving the problem formulated below.

And the problem to which the claimed invention is directed is to provide (preferably simpler, cheaper and more compact means) more reliable isolation of the liquid cavity (glue) from the external atmospheric environment (moist air), due to which it is possible to increase the reliability and stability of operation , the durability of the nozzle, which means contributing to the uninterrupted operation of the production line as a whole, improving the quality of manufacturing products using this technology, the efficiency of automatic and semi-automatic automatic control.

The solution to this problem is achieved by the fact that in the nozzle for applying glue or other liquid to the surface of an object containing a body, a nozzle with a liquid cavity and at least one spray hole, a locking needle and an adjustable two-position reciprocating axial movement of the needle with the rod part in its continuation, while the liquid cavity is isolated from the external atmosphere by a locking seal, the housing is made of two flange-connected parts, one of which forms a liquid the cavity, combined with the liquid cavity of the nozzle, and the other forms the air compensation cavity of the variable, due to the movement of the rod part of the needle, the volume and has an opening connecting the compensation cavity with the external atmosphere, and the locking seal separates the liquid cavity from the air compensation cavity and is made in the form of an elastic membrane with the possibility of a predetermined movement of the needle, while the membrane is made with a Central hole, through which is installed on the threaded portion of the stem part of the needle located in the liquid cavity, it is pressed by a screw through a rigid washer to the end of the adjacent section of the rod part of the needle, which has a larger diameter and is located in the air compensation cavity, and its peripheral part is sandwiched between the parts of the specified flange connection.

The solution to this problem is also achieved by additional significant features (with the above set of basic features):

- the membrane can be made non-metallic;

- with the previous set of features, the membrane can be made two-layer, while the layer on the side of the liquid cavity should be made of a material with chemical resistance and low adhesion to this liquid, for example, fluoroplastic, and the layer on the side of the air compensation cavity should be made of material, not passing air, for example from a rubberized fabric;

- the device of the on-off reciprocating axial movement of the needle can be made pneumatic and include a pneumatic cylinder fixed in the housing, the stem of which is structurally combined with the said needle, with a compressed air supply fitting, at least one bleed hole for exhaust air, mounted on the pneumatic cylinder the shank, the adjusting screw screwed into the shank and the tension spring installed in the spacer between the adjusting screw and the rear end of the needle stem.

In more detail the essence of the invention is disclosed in the following implementation examples and is illustrated by the drawings, which show:

figure 1 - device nozzle assembly, in longitudinal section;

figure 2 - nozzle at the stage of assembly (installation of the locking membrane), side view in section).

The inventive nozzle comprises a cylindrical body formed by flange-connected to each other by means of four screws, lower 1 and upper 2 parts. A cone-shaped nozzle 4 with at least one spray hole 5 is fixed on the free end of the housing part 1, with at least one spray hole 5. A fitting 6 is provided in the side wall of the housing part 1 for supplying a liquid nozzle (hereinafter, mainly polyurethane adhesive) under pressure above atmospheric, and a through hole 7 is made in the side wall of part 2 of the housing, connecting its cavity with the external atmosphere.

The nozzle also contains a locking needle 8 that is installed with the possibility of locking-unlocking (opening-closing) of the hole (s) 5 when it is reciprocating, as well as an adjustable two-position reciprocating axial movement of the needle 8.

The latter, as a rule, is structurally combined (made in one piece) with the rod (core) of the device for its translational movement. Accordingly, the term “stock part of the needle” will be used hereinafter.

The two-position reciprocating axial movement of the needle can be anything: pneumatic (as in the prototype), electromagnetic, piezoelectric, electro-hydraulic, etc.

In this example (realized by the authors in production) it is pneumatic and includes: fixed (by means of a threaded connection) in the body (more precisely, in its upper part 2) a pneumatic cylinder 9, the rod of which is structurally combined with the needle 8; a fitting 10 for supplying compressed air screwed into it from the side to the bottom; one or more bleed holes on the side above (not shown) for exhaust air; a shank 11, fixed by means of a threaded connection to the pneumatic cylinder 9; an adjusting screw 12 screwed into the shank 11; a tension spring 13 installed in the spacer between the adjusting screw 12 and the rear end 14 of the rod end of the needle 8.

The inner walls of the lower part 1 of the casing and the nozzle 4 together form (limit) the liquid (in particular, glue) cavity 15, from where the liquid (glue) under pressure has the opportunity, when the needle 5 is opened with a hole 8, to be sprayed in the external atmosphere.

In turn, the walls of the upper part 2 of the body form (limit) an air compensation cavity 16 of variable volume (due to the movement of the rod part of the needle 8), where atmospheric air can be sucked in through the hole 7 when the rod (needle 8) moves upward and, conversely, is removed through the same hole in the external atmosphere is excess air when the stem (needle 8) moves down.

The cavities 15 and 16 are separated from each other (isolated) by a locking seal 17, which is made in the form of an elastic membrane, with the possibility of a predetermined movement of the needle 8 within 3-7 mm. The membrane is made with a Central hole 18, through which it is installed on the threaded section 19 of the rod portion of the needle 8, located in the fluid cavity 15, and is tightened with a screw 20 through a rigid (metal) washer 21 to the end of the adjacent section 22 of the rod portion 23 of the needle 8 having a larger diameter (compared to the diameter of the thread) and located in the air compensation cavity. The peripheral part of the membrane 17 is sandwiched between the flanges of parts 1 and 2 of the nozzle body.

In an advantageous embodiment, the membrane 17 is made of non-metallic, preferably two-layer, while the layer 24 from the side of the liquid cavity 15 is made of a material with chemical resistance and low adhesion to this fluid (polyurethane adhesive), for example, fluoroplastic, and the layer 25 from the air side compensation cavity 16 - from a material that does not allow air to pass through, for example, from rubberized fabric.

The device operates as follows.

The liquid (glue) under pressure is fed through the nozzle 6 into the liquid (glue) cavity 15 and is “on duty” in it with the needle 8 lowered (that is, with the spray hole 5 closed).

At the same time, the membrane 17 and its fastenings (central and peripheral) reliably (as befits the membranes) isolates the cavity 15 from the environment, including preventing not only the breakthrough of the liquid (glue) into the air cavity 16, but also its chemical interaction (with premature polymerization) with air in the cavity 15.

With a two-layer membrane 17, its lower layer 24 is not prone to chemical interaction with the liquid (glue) as an aggressive medium, as well as to adhesion, which would impede hydrodynamic processes, reduce the elasticity of the membrane, and hence the mobility of the needle 8, would lead to partial clogging ”) of the cavity 15 with viscous and solid fragments of a polymerizable liquid (glue).

Compressed air when it is fed through the nozzle 10 into the pneumatic cavity (inside the pneumatic cylinder 9 under the piston connected with the rod) raises (displaces in the axial direction from the hole 5) the needle 8, overcoming the elastic force of the return spring (inside the pneumatic cylinder 9 above its piston) and the adjustment springs 13. Liquid (glue) rushes into the hole (s) 5, spraying over the surface of the object (product, material).

In this case, the rising needle 8 carries away by connecting the elements 20-22 the Central part of the membrane 17 within its permissible deformation. The membrane 17 and its attachments (central and peripheral), again, reliably isolates the cavity 15 additionally from the breakthrough of air into the cavity 6, which would entail the chemical processes described above.

Partial evacuation of the air cavity 16 (due to an increase in its volume) causes an automatic compensating influx of atmospheric air into the chamber 16 through the opening 7 (why, in fact, the cavity is called "compensation"). This reduces the deflection (deformation) of the membrane 17 up.

With a two-layer membrane 17, its upper layer 25 reliably prevents diffusion of air into its material.

The exhaust compressed air automatically enters the atmosphere through the bleed hole (s).

When the pressure drops in the pneumatic cavity, the needle 8 under the action of the spring 20 returns to the "locked" position. The membrane 17 carried away by it also returns to its original state.

Some concomitant increase in air pressure in the cavity 16 (due to a decrease in its volume) causes an automatic compensating displacement of air from the chamber 16 into the external atmosphere through the opening 7. This reduces the deflection (deformation) of the membrane 17 down.

Other device variants within the scope of the claimed sets of essential features are not excluded.

The choice of a specific option when using the invention depends on the range of technical, operational and economic requirements and is made in each case.

Thus, the use of the invention allows to increase the reliability and stability of operation and durability of the nozzle, and hence the uninterrupted operation of the production line as a whole, to improve the quality of production of products using this technology, to increase the efficiency of automatic and semi-automatic control, first of all, as applied to the authors designed and introduced they put into operation within the framework of Fastforming LLC (St. Petersburg) a semi-automatic conveyor line for the production of sandwich panels her and many other similar equipment.

The effectiveness of the claimed device is confirmed by its practical use.

Information sources

1. Internet resource: SIP production line. - http://www.profit-dom.ru/production_sip.php.

2. Internet resource: Encyclopedia "Wikipedia" (the term "nozzle"). - http://terosteps-mtl.ru/prod termopanel monolit process.htm.

3. Internet resource: Dictionary of the builder (the term "nozzle"). - http://terosteps-mtl.ru/prod_termopanel_monolit_process.htm.

4. RU 2171718 C2, B05B 1/02, 11/15/1999.

5. Internet resource: Alexander Mezernitsky. - http://dizelist.ru/index.php?id=69.

6. Internet resource: Technical description of the installation SNK-4.1500w.04 (SNK-4.2000w.04), section "Modification of the installation for applying glue". - http://budimpex.ru/ed.рvс..html#11 (prototype).

Claims (4)

1. A nozzle for applying glue or other liquid to the surface of an object, comprising a housing, a nozzle with a liquid cavity and at least one spray hole, a locking needle and an adjustable device for on-off reciprocating axial movement of the needle with the rod part in its continuation, while liquid the cavity is isolated from the external atmosphere by a locking seal, characterized in that the housing is made of two flange-connected parts, one of which forms a liquid cavity combined with a liquid a full nozzle cavity, and the other forms an air compensation cavity of variable volume due to the movement of the rod part of the needle and has an opening connecting the compensation cavity to the external atmosphere, and the locking seal separates the liquid cavity from the air compensation cavity and is made in the form of an elastic membrane with the possibility of a predetermined movement of the needle, the membrane is made with a Central hole, through which it is installed on the threaded portion of the rod end of the needle, located in the liquid fins, pressed by a screw through a rigid washer to the end of the adjacent section of the rod end of the needle, which has a larger diameter and is located in the air compensation cavity, and its peripheral part is sandwiched between the parts of the specified flange connection. 2. The nozzle according to claim 1, characterized in that the membrane is non-metallic. 3. The nozzle according to claim 2, characterized in that the membrane is made of two layers, while the layer on the side of the liquid cavity is made of a material with chemical resistance and low adhesion to this liquid, for example, fluoroplastic, and the layer on the side of the air compensation cavity - from a material that does not allow air to pass through, for example, from a rubberized fabric. 4. The nozzle according to claim 1, characterized in that the two-position reciprocating axial movement of the needle is made pneumatic and includes a pneumatic cylinder fixed in the housing, the stem of which is structurally combined with the said needle, with at least one compressed air supply exhaust air vent, shank fixed to the pneumatic cylinder, adjusting screw screwed into the shank, and a tension spring installed in the spacer between the adjusting screw and the rear end cap of the needle stock.

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