RU2488451C2 - Foam gun with flow control device - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to fluid sprayer. Proposed gun comprises case 5 with barrel 2 attached thereto, needle rod 3 arranged axially inside said barrel and handle 2 attached to case 5. Handle 12 is connected to needle rod 3. Flow control device is arranged inside case 5 and includes pressure spring 9. One end of said spring is connected to case 5 while opposite end is jointed to needle rod 3. Note here that locking sleeve 11 is arranged inside case 5 to limit needle rod axial travel inside case 5. Key plate 7 is screwed to end of locking sleeve 11. Case 5 has through holes 6 to accommodate said key plate 7 with clearance. Note here that said key plate may turn in case 7 and is fixed axially therein. Locking sleeve 11 can slide axially in case 5 and is locked relative to case 5 in direction along circumference. Rotation of key plate 7 makes locking sleeve 11 slide axially in case 5 to limit needle rod ravel, thus, adjusting foam flow.

EFFECT: ease of use.

8 cl, 4 dwg

Description

Technical field

The invention relates to devices for spraying liquids, in particular, to guns for spraying foam with a flow control device.

State of the art

In construction and decoration, sometimes it becomes necessary to isolate the gaps between the planes, one of the sealing agents for such purposes is mounting foam; by filling cracks and gaps, various voids in the room can be completely isolated. Before spraying, the foam is always stored in an airtight container, and a foam gun is required to operate it. The foam gun contains a body, a barrel, a needle rod, a handle; the barrel is attached to the body using a threaded connection, the needle rod is located inside the barrel and at one end extends beyond it, while it is attached by a hinge to the handle. To regulate the flow of foam, a flow control device is also located in the gun body, which can limit the maximum sliding distance of the needle bar each time the trigger is pulled on the handle. In earlier models of flow control devices, a threaded connection was used in the control knob on the handle, the inside of the control knob was connected to one end of the spring, and the second end of the spring was connected to the needle bar. The rotation of the control knob reduced the spring, thereby changing the maximum sliding distance of the needle bar. When using the rotary control knob, the frictional force between the control knob and the spring makes it necessary to apply great efforts; moreover, to control the flow in this way, the operator has to use two hands and, therefore, interrupt the main action, which is very inconvenient.

In China, patent No. 2006620105928.7 was issued for a foam gun with a flow control device; it consists of one adjusting screw located on the body, one pressure spring on the needle rod located inside the barrel, with one end of the spring acting on the needle rod and the other fixed on the case, one end of the needle rod protruding beyond the surface of the case and attached to the handle, in the housing along the axis of the needle rod there is a sliding cavity, inside the sliding cavity there is a sliding adjusting screw, one end of this adjusting screw with a threaded connection I am fixed on the needle bar, the other end fixes the rotation relative to the sliding cavity, the adjusting screw can rotate, it is also connected by axial mounting to the body. Setting up this flow control device during operation does not require much effort, but for this the operator needs to use both hands, which is obviously inconvenient.

Disclosure of invention

The aim of the invention is to provide a convenient device for regulating the flow of foam in the process of supplying foam from a gun (foam spray).

Technical measures taken to achieve the purpose of the invention: a foam gun with a flow control device comprises a barrel attached to a barrel barrel, a needle rod located inside the barrel, a handle attached to the barrel, the handle being connected to the needle shaft; moreover, the flow control device is located in the housing and includes a pressure spring, one end of which is connected to the housing, and the other end is connected to the needle rod; at the same time, a fixing sleeve is located inside the housing, which limits the sliding distance of the needle rod inside the case, and a foot is attached to the peripheral part of the fixing sleeve by a threaded connection, and in the case there is a through hole in which the specified foot is located, which is rotatable in the case and fixed relative to housing in the axial direction, and the locking sleeve can slide in the housing in the axial direction and is fixed relative to the housing in a direction along the circumference of life. One end of the needle rod and one end of the barrel are connected in a socket, forming a liquid tight connection, pressing the handle provokes axial sliding of the needle rod inside the barrel in the sliding cavity, the end of the needle rod is disconnected from the inner surface of the socket, foam is squeezed out of the socket of the foam gun, providing seamless filling of gaps. The specified locking sleeve limits the sliding distance of the needle rod, between the locking sleeve and the needle rod there is a restrictive structure, each time limiting the sliding distance of the needle rod, thereby limiting and fixing the gap between the needle rod and the inner surface of the socket, thus achieving the goal of using a foam gun with foam flow control device. The lining is located inside the hole so that its outer part extends beyond the housing, the operator of the foam gun with his thumb can rotate the lining, while the opening keeps the lining in a fixed position relative to the axis of the housing. The operator can, depending on the width of the gap to be filled, change the position of the lining with the thumb, causing the axial movement of the fixing sleeve along the axis of the housing, this action changes the position of the needle bar and fixing sleeve, thereby increasing or decreasing the flow rate of the spray foam.

In the described foam gun, the retainer sleeve is hollow, said pressure spring being threaded through the retainer sleeve. This allows you to create a compact device for regulating the flow of foam, located inside the body of the gun for foam.

In this foam gun, the end of the fixing sleeve is equipped with a prismatic head, and inside the body there is a prismatic sliding cavity connected to the prismatic head, while the specified head of the sleeve is simultaneously connected to the pressure spring;

moreover, said lining has a cylindrical shape, said fixing sleeve has a cylindrical (tubular) shape. The locking sleeve and the sliding cavity are mutually interconnected by a prismatic design that allows multiple contact of surfaces with the sliding of the locking sleeve inside the sliding cavity without interruption.

In the described foam gun, the outer part of the lining extends beyond the main surface of the housing. The outer surface of the lining extends beyond the main surface of the casing and is the most protruding part on the surface of the casing, while the protrusions of the outer part of the lining outside the casing allow the operator to conveniently control the flow with one thumb.

In this foam gun, the size of the through hole depends on the position of the handle on the body. This dependence is the dependence of the contact range of the thumb of the operator and the foot, in particular, “dependence” is the dependence of the opening of the hole on the position of the handle. In this foam gun, the specified foot is embossed. This was done in order to increase the roughness of the outer surface of the lining for greater convenience of impact on the lining with the thumb.

In this foam gun, the outer surface of the specified lining is equipped with an annular rubber gasket, on both sides of which the surface of the lining is embossed. The rubber gasket serves for decorative purposes, while at the same time increasing the comfort level when the thumb and the foot contact.

In another embodiment, in the described foam gun, on the outer part of the lining there is a series of oblique bulges, the central part of these bulges is curved, therefore, on the middle part of the outer surface of the lining there is an arcuate depression. This arcuate depression surrounds the lining along the entire circumference, which makes the axial shape of the lining also arcuate, while the arcuate depressions fully fit the shape of the operator’s thumb, making it easier to turn the lining.

In the foam gun described, the diameter of the lining exceeds the thickness of the casing, the outer surface of both sides of the lining protrudes beyond both sides of the surface of the casing, both protrusions of equal size. The lining is symmetrically located on the body, allowing the operator to choose the familiar side to act on the lining.

In the described foam gun, the diameter of the lining is 1.1-2 of the thickness of the body. This diameter range ensures that the lining protrudes beyond the outer surface of the housing, and also ensures that the lining is not too large, which affects the overall appearance of the foam gun.

The invention has the following advantages:

The lining is located inside the hole in the housing, it is not affected by the frictional force created by the pressure spring, no effort is required to rotate the lining, and you can change the position of the lining with one finger, you can also rotate the lining with one finger, changing the axial position of the fixing sleeve inside the housing, thus, it is very convenient to change the sliding distance of the needle rod inside the barrel, changing the intensity of the spray foam, while the operator does not have to use both hands, which is very convenient. In conditions of easy and timely regulation of the foam flow, high-quality filling of gaps and gaps is ensured without excessive use of foam.

Graphic Explanations

Figure 1 shows a side view in section of a gun for foam with a flow control device.

Figure 2 shows a connection diagram of the lining and the fixing sleeve in an enlarged view.

Figure 3 shows a diagram 2 in section.

Figure 4 partially depicts an alternative embodiment of a foam gun in longitudinal section.

Specific Embodiments

Specific embodiments of a foam gun with a flow control device are shown in FIGS. 1, 2, and 3.

The construction of the invention includes a housing 5, a barrel 2, a needle rod 3, a handle 12; wherein the barrel 2 is attached to the body 5 by a threaded connection, the needle rod 3 is located inside the barrel 2, on the one hand the barrel 2 ends with the nozzle 1, the front of the needle rod 3 is crimped inside the nozzle 1, forming a fluid tight connection, the back of the needle rod 3 protrudes beyond the barrel 2, the handle 12 is attached to the housing 5, the back of the needle rod 3 is connected to the handle 12. Pressing the handle 12 provokes axial sliding of the needle rod 3 inside the barrel 2. The housing 5 is also equipped with an adapter 4, adapter ter 4 is connected to a sealed reservoir attached to the foam gun, while adapter 4 and barrel 2 are interconnected.

A foam flow control device is located in the housing, it includes a pressure spring 9, in the housing 5 there is an axial sliding cavity 13, the outer part of which is directed outside the housing 5, the inner part is directed to the needle rod 3. The hole of the outer part of the sliding cavity 13 is equipped with a fixing nut 8 , the compression spring 9 is located inside the sliding cavity 13, while one end of the compression spring 9 is clamped in the fixing nut 8, and the other end is connected to the back of the needle rod 3. In the sliding cavity 13 t there is also a cylindrical locking sleeve 11, which is connected via a hole to the compression spring 9, the locking sleeve 11 detects rotation relative to the sliding cavity 13, and the locking sleeve 11 can also move longitudinally inside the sliding cavity 13. On the peripheral part of the sliding cavity 13 there is a cylindrical foot 7 with the housing 5 axially mounted, while the lining 7 can rotate in the housing 5.

Between the fixing sleeve 11 and the sliding cavity 13, a non-circular connection or a connecting structure of hollows and protrusions can be used, you can also use the prismatic head of the sleeve 15 at the connecting end of the fixing sleeve 11. If the end of the fixing sleeve 11 is equipped with the head of the sleeve 15, the sliding cavity 13 should also be prismatic in shape, like the head of the sleeve 15, the head of the sleeve 15 is hollow, and said pressure spring 9 is threaded into the head of the sleeve 15. Near the sliding cavity 13 in the housing 5 in A hole 6 is made equal to the thickness of the housing 5, while the lining 7 is located inside the hole 6. The position of the hole 6 on the housing 5 should allow the operator to turn the lining 7 with the thumb of the operator, the position of the hole 6 on the housing 5 usually depends on the length of the handle 10. Diameter of the lining 7 must exceed the diameter of the housing 5, the diameter of the lining 7 should be 1.1-2 of the thickness of the housing 5. After installing the lining 7 in the hole 6, the outer part of the lining 7 should extend beyond the main surface of the housing 5. Typically, the lining 7 is symmetrically laid in the casing 5, with the location of the lining 7 in the casing 5, both of its outer sides protrude beyond the two outer surfaces of the casing 5, both protrusions of the lining 7 of the same size.

Said needle rod 3, pressure spring 9, retaining sleeve 11, and foot 7 are coaxial. The locking sleeve 11 limits the maximum sliding distance of the needle rod 3 inside the barrel 2, between the locking sleeve and the needle rod is a restrictive structure. In FIG. the rear end of the needle rod 3 is equipped with a protrusion 16, the diameter of which exceeds the inner diameter of the fixing sleeve 11, this protrusion 16 during movement of the needle rod 3 is located near the front of the fixing sleeve 11, and the diameter of the protrusion 16 coincides with the outer diameter of the front of the fixing sleeve 11, fixing the position of the needle rod 3 in the path of movement of the locking sleeve 11.

The outer part of the lining 7 is embossed, which increases the surface roughness of the lining 7. Also, the outer part of the lining 7 can be equipped with an annular rubber gasket 14, on both sides of which the surface of the lining is embossed.

The outer surface of the lining 7 can also be made with hollows and protrusions, this structure of hollows and protrusions forms convex strips 17 on the outer surface of the liner 7, a hollow is located between each two such convex strips 17. These protrusions 17 are inclined and parallel to the outer surface of the lining 7, a defined angle is formed between the protrusion 17 and the axial line of the lining 7, the protrusions 17 extend from one edge of the outer surface of the lining 7 to the other edge, to ensure convenient switching of the lining 7 with one finger without applying additional effort.

On the outside of the lining 7 there is an arcuate depression 18 formed by protrusions 17, which surrounds the lining along the entire circumference. The arcuate depression 18 is located in the axial center of the lining 7, which makes the axial shape of the lining also arcuate. The depressions 18 fit the shape of the thumb, which facilitates the switching of the lining 7.

Claims (8)

1. A foam gun with a flow control device, comprising a body (5) attached to a barrel (5) to a barrel (2), a needle rod (3) located inside the barrel (2), a handle (12) attached to the barrel (5) connected to the needle rod (3); moreover, the flow control device is located in the housing (5) and includes a pressure spring (9), one end of which is connected to the housing (5), and the other end is connected to the needle rod (3); in this case, a fixing sleeve (11) is located inside the housing (5), limiting the axial sliding distance of the needle rod (3) inside the housing (5), and a foot (7) is attached to the peripheral part of the fixing sleeve (11), moreover, in the housing (5) there is a through hole (6) in which said foot (7) is located, which is rotatable in the housing (5) and fixed relative to the housing (5) in the axial direction, and the locking sleeve (11) can slide in the housing (5) axial and fixed ana relative to the housing (5) in a circumferential direction, wherein said fixing sleeve (11) is hollow, and said pressure spring (9) is threadable into a hole in the fixing sleeve (11), and the end of the fixing sleeve (11) is provided with a prismatic a head (15), and inside the housing (5) there is a prismatic sliding cavity connected with the prismatic head (13), while the indicated head of the sleeve (15) is connected to the compression spring (9), and the said footer (7) has a cylindrical shape, and specified fixing the sleeve (11) has a cylindrical (tubular) shape. 2. The gun according to claim 1, characterized in that the outer part of the lining (7) extends beyond the main surface of the housing (5). 3. The gun according to claim 1, characterized in that the position of the specified hole (6) corresponds to the position of the handle (10) on the housing (5). 4. The gun according to claim 1, characterized in that the outer part of the lining (7) is embossed. 5. The gun according to claim 4, characterized in that the outer part of the lining (7) is equipped with an annular rubber gasket (14), on both sides of which the surface of the lining is embossed. 6. The gun according to claim 1, characterized in that on the outer part of the lining (7) there is a series of inclined protrusions (17), the central part of which is curved, while the middle part of the outer surface of the lining (7) has an arcuate depression (18). 7. The gun according to claim 2, characterized in that the diameter of the lining (7) exceeds the thickness of the housing (5), and the outer surface of both sides of the lining (7) protrudes on both sides of the surface of the housing (5), while both of these protrusions are of equal size . 8. The gun according to claim 7, characterized in that the diameter of the lining (7) is 1.1-2 of the thickness of the housing (5).

Images