RU75963U1 - FOAM SPRAY - Google Patents

Abstract

The utility model relates to construction tools used to spray foam. The purpose of the proposed utility model is to increase the ability to spray foaming materials. The utility model is implemented as follows: the user pulls the trigger 19. The rod 32 connected with the trigger 19 opens the air valve 18. The air from the line enters the second channel 3, the third channel 2 and the fourth channel 23, then into the nozzle 27 of the air head 1. Lock the needle 20 connected to the trigger 19 opens the first exit 28 of the first channel 21. The working fluid 10 flows from the balloon 9 to the first exit 28 of the first channel 21, then into the nozzle 27 of the air head, thereby achieving spraying of foaming material.

Description

Technical field

The utility model relates to construction tools used to spray foam.

State of the art

A device is known "Paint gun" (see http // www.satasprayguns.ru /).

The composition of the known device includes: a housing, a handle, a spray gun, a container with paint. The disadvantage of this device is the narrow functionality when spraying foaming materials.

The purpose of the proposed utility model is to increase the ability to spray foaming materials.

This goal is achieved due to the fact that in the foam sprayer comprising a housing, an air head, a handle with a fitting, a nozzle, while the air head is connected to the housing, the handle is connected to the housing on its other side, the nozzle is placed on the air head, in the air head the first channel is made, ending on the nozzle side with the first exit, around the first exit with the nozzle, the second exit of the second channel is formed, formed by the head and nozzle at the second exit of the air head, the trigger is fixed to the housing, with Connected with a shutter needle and an air valve to ensure that they open and close, respectively, the first outlet and supply air from the nozzle to the second channel, the first socket is made on the housing, in which an adapter is installed for connecting the cylinder with the working fluid with the possibility of passage of the working fluid from the cylinder to the first output on the first channel, the adapter is equipped with a check valve connected to the first channel and

providing closure of the first channel when disconnecting the cylinder with the working fluid.

Brief Description of the Drawings

The utility model is illustrated by drawings (figures 1, 2), which depicts a spray. Figure 1 shows a General view of the spray foam, figure 2 shows a section of a spray foam.

Utility Model Disclosure

Figure 1 shows: air head 1, third channel 2, second channel 3, nut 4, housing 5, first socket 6, spring 7, adapter 8, bottle 9, working medium 10, seat socket 11, connector 12, tube 13 , check valve 14, axis 15, second regulator 16, plug 17, air valve 18, trigger 19, locking needle 20, first channel 21, protrusion 22, fourth channel 23, nozzle 24, fourth outlet 25, tip 26, nozzle 27, first exit 28, second exit, 29 third exit 30.

Figure 2 additionally indicated: the first regulator 31, rod 32, the first protrusion 33, fitting 34, the second saddle 35, the second protrusion 36, the handle 37.

The main elements of the device are a source of foaming material, an air head 1 and a housing 5. The source of foaming material is hereinafter referred to as a cylinder 9 with a working fluid 10.

The working fluid 10 is a professional mounting foam. Polyurethane foam is produced and sold in cylinders 9, in which there is a liquid prepolymer and propellant (propellant). The chemical basis of a one-component polyurethane foam is a prepolymer of polyol and isocyanate. A prepolymer is a combination of the above chemical elements, the molecules of which have already begun to react with each other. Once the reaction is complete, a new

a material called polyurethane. Adequate humidity is required to properly cure a single component polyurethane foam. Fresh mounting foam takes moisture either from the surface on which it was applied, or from the atmosphere.

Propellant in a one-component polyurethane foam is used for the following purposes: firstly, it acts as a solvent for a viscous prepolymer, secondly, it acts as a foaming agent in the composition, and thirdly, it is necessary to displace the prepolymer from the balloon.

The housing 5 is a complex body with a handle 37 attached to it, an air head 1, a nozzle 24 and a cylinder 9 with a working fluid 10.

A nozzle 24 and an air head 1 are attached to one side of the housing 1. The housing 1 has a protrusion 22 to which the nozzle 24 is attached. The nozzle 24 is a body of complex shape. The nozzle 24 is made conical in shape with an extension in the narrow part. In the narrow part of the nozzle 24, a cylindrical hole with a narrowing at the end is made. The narrowing ends with the first exit 28. The connection of the nozzle 24 with the housing 5 is carried out using a thread.

The first channel 21 is made in the housing 5. The first channel 21 is intended for the passage of the working fluid 10 from the cylinder 9 to the first exit 28 (first channel 21).

The air head 1 is a complex body having a recess. The recess is made in the form of a protrusion 22 and a nozzle 24 connected to the protrusion 22 of the housing 5. The air head 1 is connected to the housing 5 by means of a nut 4. When connecting the air head 1 to the housing 5, a second channel 3 is formed between the inner part of the air head 1 and the housing protrusion 22 with attached attachment 24.

The third channel 2 and the fourth channel 23 are made in the air cap 1. The second channel 3 ends with the second output 29, the third channel 2 ends with the third output 30, and the fourth channel 23 ends with the fourth output 25, respectively.

The second channel 3, the third channel 2 and the fourth channel 23 are designed to pass air from the highway, through the handle 37, to the second exit 29 (second channel 3), the third exit 30 (third channel 2) and to the fourth exit 25 (fourth channel 23) . The second output 29 is aligned with the first output 28. The second output 29 is in the form of an annular gap and is located around the first output 28. The second channel 3 has a narrowing to the second output 29. The first output 28 of the first channel 21 and the second output 29 of the second channel 3 form a nozzle 27. The air cap 1 has two protrusions. The protrusions are located symmetrically with respect to the nozzle 27. The protrusions are made in an arcuate shape on the nozzle side 27. The third outlet 30 is made in one protrusion and the fourth outlet 25 in the other. The third outlet 30 and fourth outlet 25 are designed to change the shape of the torch.

A handle 37 is attached on the opposite side of the housing 5 from the air head 1. A fitting 34 is attached to the handle 37, on the side opposite to the housing 5, to which a pressure-connected air line is connected. The fitting 34 is mounted in the second saddle 35 of the handle 37 using thread. A channel is made from the nozzle 34 (not shown in the drawing), which allows air to pass from the line through the nozzle 34 and going through the handle 37 and the housing 5 to the second output 29 of the second channel 3, the third output 30 of the third channel 2 and the fourth output 25 of the fourth channel 23.

On the housing 5, on the opposite side of the fitting 34 near the air head 1, the first seat 6. The first seat 6 is designed for mounting the adapter 8. The adapter 8 is made in the form of a truncated cone with an extension on a narrow part of the base. The adapter 8 is attached to the first seat 6 with its elongated part. The connection is carried out using threads, press-fit or sealing elements. A check valve 14 is located in the extension of the adapter 8. The check valve 14 is a spring loaded ball. A 9 s cylinder is attached to adapter 8

the working fluid 10. The cylinder 9, in the particular case, can be made in the form of a cylinder with a bottom. The connection of the cylinder 9 with the adapter 8 is carried out by means of a connector 12, which is mounted in the seat socket 11 in the wide part of the adapter 8 using threads, press-fit or sealing elements. This connection is made from the inside of the wide part of the adapter 8. The connector 12 is attached to the opposite side of the container 9 (from its bottom). The cylinder 9 is equipped with a tube 13, which is located with the connection of the internal volume of the cylinder 9 with the first channel 21 through the check valve 14.

The trigger 19 is attached to the housing 5 using the axis 15, which is turned towards the handle 37. The trigger 19 is positioned so that the user, taking the device by the handle 37, can freely grip the trigger 19 with his fingers.

The thrust 32 of the air valve 18 is connected to the trigger 19. The connection is made in such a way that when the trigger 19 is pulled, the thrust 32 is moved to open or close the channel with air in the handle 37. The air valve 18 is closed by the plug 17 of the air valve 18 opposite to the trigger 19 sides of the housing 5.

In the first channel 21 of the air head 1 is a locking needle 20, which passes through an opening in the housing. The hole is made on the opposite side from the first exit 28. The tightness of the passage of the locking needle 20 into the air head 1 is provided by a sealant. The tip of the needle 26 is located near the first exit 28 of the nozzle 24, with the possibility of its overlap. The needle 20 is connected to the trigger 19 and the second regulator 16. The second regulator 16 provides the adjustment of the trigger 19, as well as the timely closing or opening of the first exit 28 of the first channel 21 at the time of opening or closing of the air valve 18.

Utility Model Implementation

The device operates as follows. An air line is connected to the fitting 34. A cylinder 9 is attached to the adapter 8 (a professional mounting foam cylinder differs from the usual one by the presence of an NBS standard thread and better components) with a working fluid 10 so that the working fluid 10 flows from the balloon 9 through the tube 13 into the first channel 21 and the nozzle 24 through non-return valve 14. When screwing the balloon 9 into the adapter 8, the tube 13 of the balloon 9 abuts against the adapter 8, as a result of which the internal valve of the balloon 9 opens. The working fluid 10 passes from the balloon 9 into the front, under the pressure created by the propellant. the opening channel 21, opening the non-return valve 14. The non-return valve 14 serves to prevent the working fluid 10 from leaving the first channel 21 and moisture penetrating into the first channel 21 when changing the bottle 9. Moisture entering the first channel 21 can cause the polymerization of the working medium 10 inside the first channel 21. The number of working fluid 10 entering the nozzle 27 is regulated by a locking needle 20. The shape of the torch can be adjusted using the first regulator 31.

The user takes the device in his hand by the handle 37 so that he can grab the trigger 19 with his fingers. The convenience of gripping the handle 37 is provided by the first 33 and second 36 protrusions. The first 33 and second 36 protrusions are facing in opposite directions from the handle 37. When the trigger 19 is pulled by the fingers of the hand, the trigger 19 is pulled towards the handle 37. The link 32 connected to the trigger 19 moves in the same direction as the trigger 19 and opens the air valve 18. Air from the highway enters the second exit 29, the third exit 30 and the fourth exit 25 through the second channel 3, the third channel 2 and the fourth channel 23, respectively, and further into the nozzle 27 of the air head 1. When moving the trigger 19, the associated locking needle moves 20. When moving hydrochloric needle 20 occurs first exit opening 28 of the first channel 21. The body 10 of the first channel 21 is supplied to first output 28, and

further into the nozzle 27 of the air head 1. In the nozzle 27 of the air head 1, the working fluid 10 is blown into the external volume.

When you release the trigger 19, the trigger 19 returns to its original position. When the trigger 19 returns to its original position, the locking needle 20 and the thrust 32 are moved in the direction of movement of the trigger 19. Upon reaching the initial position of the trigger 19, with the locking needle 20 and the thrust 32 attached to it, the first channel 21 is timely closed by the locking needle 20 and the air valve 18 thrust 32 respectively. When closing the air valve 18, the air supply to the second channel 3 (through the second outlet 29), the third channel 2 (through the third outlet 30) and the fourth channel 23 (through the fourth outlet 25) are cut off. The locking needle 20 closes the first exit 28 of the first channel 21, thereby cutting off the supply of the working fluid 10 to the nozzle 27 through the first exit 28.

Thus, the goal is achieved due to the fact that when you pull the trigger 19, the associated rod 32 opens the air valve 18. The air enters from the line into the second channel 3, the third channel 2 and the fourth channel 23, then into the nozzle 27 of the air head 1. With the timely opening of the second channel 3, the third channel 2 and the fourth channel 23, the first exit 28 of the first channel 21 opens. The working fluid 10 from the first channel 21 enters the first exit 28, and then into the nozzle 27 of the air head 1. Thereby, an increase is achieved spray capabilities foaming materials.

Claims (1)

A foam sprayer comprising a body, an air head, a handle with a fitting, a nozzle, wherein the air head is connected to the body, the handle is connected to the body on its other side, the nozzle is placed on the air head, the first channel is made in the air head, ending first on the nozzle side an exit, around the first exit with a nozzle, a second exit of a second channel formed by a head and a nozzle at the second exit of the air head is formed, a trigger is connected to the housing, connected to a locking needle and an air valve with the opening and closing, respectively, of the first outlet and air supply from the nozzle to the second channel, the first socket is made on the housing, in which an adapter is installed for connecting the cylinder with the working fluid with the possibility of the passage of the working fluid from the cylinder to the first exit through the first channel, the adapter equipped with a check valve connected to the first channel and providing closure of the first channel when disconnecting the cylinder with the working fluid.