CN113786971B - Glue squeezing gun assembly - Google Patents

Abstract

The invention provides a glue squeezing gun assembly, which comprises a glue squeezing spray gun and a glue bottle assembly, wherein the glue squeezing spray gun comprises a spray gun body, and the spray gun body comprises: a handle; the gun tube is connected with the air source and the rubber bottle assembly and absorbs the rubber through the rubber spraying tube; a separation component is arranged at the joint of the gun barrel and the handle, and detachably separates the gun barrel and the handle; glue bottle subassembly and still include including gluing the bottle, and spout the rubber tube: the glue bottle shell is internally provided with a glue bottle; glue the bottle support, glue bottle casing fixed mounting and include on gluing the bottle support: the bearing plate is used for bearing the bearing end face of the rubber bottle shell; the control cavity is arranged beside the rubber bottle shell and communicated with the rubber bottle shell, and the control cavity is respectively externally connected with the gas source and the glue extruding spray gun so as to control the gas of the gas source to exchange in the glue extruding spray gun and the rubber bottle shell. After adopting above-mentioned technical scheme, with the separation of colloid from crowded gluey spray gun, behind the miniature crowded gluey spray gun of cooperation, under narrow and small spraying operational environment that treats, also the spraying.

Description

Glue squeezing gun assembly

Technical Field

The invention relates to the field of home decoration articles, in particular to a glue squeezing gun assembly.

Background

With the accelerated progress of the urbanization in China, the building scale and the maintenance and updating area of old buildings are continuously enlarged, the building functions and the decoration grade are gradually improved, and the demand of the silicone sealant which accounts for about 40 percent of the market share of the building sealant is continuously increased, so that the silicone sealant has good development prospects particularly in the projects of building energy conservation, water prevention, decoration, building curtain walls and the like. The usage amount and the demand amount of the silicone sealant packaging material are extremely large, and the market space of the glue extrusion spray gun is extremely large.

In the use process of the glue-extruding spray gun, the position of the glue to be sprayed is often located in a narrow and small space, and the conventional glue-extruding spray gun cannot extend into the space. Therefore, when the colloid needs to be sprayed, the colloid needs to be placed outside and manually brushed by a small device such as a brush, which causes low working efficiency.

Therefore, a new glue-extruding gun assembly is needed, and the glue bottle assembly and the glue-extruding spray gun used in cooperation with the glue bottle assembly are applicable to working environments with various space sizes.

Disclosure of Invention

In order to overcome the technical defects, the invention aims to provide a glue extruding gun assembly, which separates glue from a glue extruding spray gun, and can be used for spraying in a narrow working environment to be sprayed after being matched with a small glue extruding spray gun.

The invention discloses a glue gun assembly, comprising: a glue-extruding spray gun and a glue bottle component which are mutually communicated,

crowded gluey spray gun includes the spray gun body of a gun, and the spray gun body of a gun includes:

a handle forming a grip portion for receiving a pressing operation to control an intake state of an air source externally connected to the handle;

the gun tube is fixed on the handle, is connected with the air source and the rubber bottle assembly, and absorbs the rubber through a rubber spraying tube;

a separation component is arranged at the joint of the gun barrel and the handle, and detachably separates the gun barrel and the handle;

glue bottle subassembly including built-in glue bottle that has the colloid, and be connected with glue bottle to outer linking to the glue spraying pipe of crowded gluey spray gun, still include:

the glue bottle shell is internally provided with a glue bottle;

glue the bottle support, glue bottle casing fixed mounting on gluing the bottle support for glue the bottle support and to gluing bottle casing bearing, wherein glue the bottle support and include:

the bearing plate is used for bearing the bearing end face of the rubber bottle shell;

the control cavity is arranged at the side of the glue bottle shell and communicated with the glue bottle shell, and is respectively externally connected with a gas source and a glue squeezing spray gun so as to control the gas of the gas source to exchange in the glue squeezing spray gun and the glue bottle shell.

Preferably, the separation assembly comprises:

the lug boss is fixed on the first end face, facing the gun barrel, of the handle and extends into the gun barrel, or is fixed on the second end face, facing the handle, of the gun barrel and extends into the handle;

the fixing part penetrates from the outside of the gun body of the spray gun along the direction vertical to the bulge part and is abutted against the bulge part to limit the relative movement of the handle and the gun barrel;

when the retainer is released, the handle and barrel are unlocked relative to the boss to disengage.

Preferably, the projection portion includes:

the fixing plate is fixedly arranged on the first end face or the second end face;

the fixed end of the first limiting rib is fixed on the fixing plate, and the free end of the first limiting rib extends towards the gun barrel or the handle;

the fixed end of the second limiting rib is connected with the free end of the first limiting rib, and the free end extends towards the direction that the fixed part penetrates into the spray gun body;

the gun barrel or the handle is provided with a groove on the end face facing the first limiting rib and the second limiting rib, the first limiting rib and the second limiting rib stretch into the groove, and the second limiting rib is clamped into the groove, so that the notch of the groove limits the second limiting rib to move out.

Preferably, the fixing part is in a screw shape, a through hole is formed in the barrel or the handle, and the through hole faces the first limiting rib, so that the fixing part penetrates through the through hole and is abutted against the first limiting rib;

when the fixing part is screwed out of the through hole, a release stroke is formed between the fixing part and the first limiting rib, and the first limiting rib drives the second limiting rib to move along the release stroke, so that the second limiting rib moves out of the groove, and the handle is separated from the gun barrel without limitation.

Preferably, the handle comprises:

the first air valve is arranged at the bottom end of the handle and is connected with an air source through a first air pipe;

one end of the second air pipe extends into the handle, and the other end of the second air pipe extends to the air source;

and the triggering part is connected with the first air valve and the second air pipe and receives external control to control the air inlet states of the first air pipe and the second air pipe.

Preferably, the barrel comprises:

the switch valve is arranged in the gun barrel and is connected with the air source through a third air pipe, and the switch valve partially protrudes and receives external pushing operation to control the on and off of the third air pipe;

the flow valve is arranged on a path of the third air pipe in the gun barrel so as to control the air inlet state of the third air pipe;

and the injection valve is arranged at the head of the gun barrel and is connected with the third air pipe and the glue spraying pipe so as to utilize air pressure to spray glue outwards from the glue spraying pipe.

Preferably, the flow valve comprises:

the flow control end cover is exposed outside the gun barrel;

the air inlet end is connected with the third air pipe, and the air outlet end is connected to the injection valve through a fourth air pipe;

the flow control end cover receives external operation to adjust the flow of the fourth air pipe so as to control the injection speed and the injection angle of the injection valve.

Preferably, the barrel comprises:

the accommodating part is arranged at the top of the gun barrel, the middle part of the accommodating part is communicated, and the spray pipe is communicated;

the length of the containing part is gradually reduced along the direction from the fixed end to the free end, and the top surface of the containing part is provided with at least one window unit.

Preferably, the glue bottle holder further comprises:

the portable handle is fixedly arranged on the bearing plate and extends towards the direction far away from the control cavity, so that an extending space is formed between the portable handle and the bearing plate;

the universal wheel is fixed below the bearing plate, so that the rubber bottle assembly moves in a working scene;

one end of the extension plate is fixed on the side edge of the bearing plate on which the glue spraying pipe is arranged, the other end of the extension plate extends in the direction far away from the glue bottle shell, a notch is formed in the free end of the extension plate, and the glue spraying pipe is placed in the notch;

the side plate is vertically fixed on the side edge of the bearing plate, which is provided with the glue spraying pipe, so as to limit the position of the glue bottle shell on the bearing plate;

the extension plate is fixed on the side plate and is flush with the glue spraying pipe.

Preferably, the glue bottle assembly further comprises:

the first positioning element is fixedly arranged on the bearing plate at a position corresponding to the rubber bottle and bears the rubber bottle shell;

the second positioning element is fixedly arranged on the bearing plate at a position corresponding to the rubber bottle shell and is used for bearing the rubber bottle shell;

the fixing ring is arranged outside the glue bottle shell in a surrounding mode and is fixed on the second positioning element, and therefore the fixing ring is free of a gap in the glue bottle shell.

Preferably, the control cavity further comprises:

the switching subassembly, including the slide valve of being connected with the air supply to the air input flow of control air supply, the switching subassembly still includes:

the reset switch is communicated with the sliding valve to receive inlet air and is externally connected with the first air pipe and/or the third air pipe;

the pushing element is communicated with the reset switch, and the self-reset switch receives the air inlet to push the rubber bottle arranged in the pushing element;

the stop switch is communicated with the pushing element and is externally connected with the second air pipe and the rubber outlet pipe;

when the reset switch is triggered, the reset switch opens a passage for conveying gas to the pushing element, the first gas pipe and/or the third gas pipe;

when the stop switch is triggered, the stop switch cuts off a passage for conveying gas to the rubber bottle in the pushing element, receives the gas circulated by the reset switch from the pushing element, and conveys the gas to the second gas pipe and the rubber outlet pipe.

Preferably, the reset switch comprises a first air inlet end, a first air outlet end and a second air outlet end;

the first air inlet end is connected with the sliding valve;

the first air outlet end is connected to the first air pipe and/or the third air pipe, and the second air outlet end is connected to the first input end of the pushing element;

the first air inlet end receives air from an air source and conveys the air to the first air pipe and/or the third air pipe and the pushing element through the first air outlet end and the second air outlet end;

the stop switch comprises a second air inlet end, a third air outlet end and a fourth air outlet end;

the second air inlet end is connected with the second input end of the pushing element;

the third air outlet end is connected to the second air pipe, and the fourth air outlet end is connected to the rubber outlet pipe;

the second air inlet end receives the air conveyed from the second air outlet end from the pushing element and conveys the air to the second air pipe and the rubber outlet pipe through the third air outlet end and the fourth air outlet end.

After the technical scheme is adopted, compared with the prior art, the method has the following beneficial effects:

1. when the position needing spraying is located in a narrow space, the gun barrel part can be taken down and stretched into the spraying, and the working mode of the original glue extruding spray gun can be still utilized, so that the spraying is simple and efficient;

2. the colloid is separated from the glue squeezing spray gun, and the glue squeezing spray gun is suitable for various working environments. (ii) a

3. The trigger of the stop switch can be used for ejecting the redundant colloid, so that the colloid is prevented from being condensed in the glue inlet pipe of the glue extruding spray gun; 4. the stop switch can be braked emergently at the same time, so that the damage of overlarge air pressure to equipment is prevented.

Drawings

FIG. 1 is an exploded view of a glue gun according to a preferred embodiment of the present invention;

FIG. 2 is an exploded view of a glue bottle assembly in accordance with a preferred embodiment of the present invention;

fig. 3 is a schematic diagram of a connection structure of a switching element according to a preferred embodiment of the present invention.

Reference numerals:

100-glue extruding spray gun;

110-handle, 111-fixing plate, 112-first limiting rib, 113-second limiting rib, 114-triggering part,

120-gun barrel, 121-fixing part, 122-on-off valve, 123-flow valve, 124-injection valve, 125-third air pipe, 126-injection pipe and 127-accommodating part.

200-glue bottle assembly;

210-glue bottle, 211-glue spraying tube;

220-glue bottle shell, 221-first control switch, 222-second control switch, 223-air valve;

230-a glue bottle bracket, 231-a supporting plate, 232-a control cavity, 233-a portable handle, 234-a universal wheel, 235-a side plate, 236-a first positioning element, 237-a second positioning element and 238-a fixing ring.

300-a slide valve;

400-a reset switch, 410-a first air pipe, 420-a third air pipe;

500-pushing element, 510-second air pipe, 520-rubber outlet pipe;

600-stop switch.

Detailed Description

The advantages of the invention are further illustrated in the following description of specific embodiments in conjunction with the accompanying drawings.

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

The terminology used in the present disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used in this disclosure and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

It is to be understood that although the terms first, second, third, etc. may be used herein to describe various information, such information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present disclosure. The word "if," as used herein, may be interpreted as "at … …" or "at … …" or "in response to a determination," depending on the context.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

In the description of the present invention, unless otherwise specified and limited, it is to be noted that the terms "mounted," "connected," and "connected" are to be interpreted broadly, and may be, for example, a mechanical connection or an electrical connection, a communication between two elements, a direct connection, or an indirect connection via an intermediate medium, and specific meanings of the terms may be understood by those skilled in the art according to specific situations.

In the following description, suffixes such as "module", "component", or "unit" used to denote elements are used only for facilitating the explanation of the present invention, and have no specific meaning in themselves. Thus, "module" and "component" may be used in a mixture.

Referring to fig. 1, a structure of a paste ejection gun 100 according to a preferred embodiment of the invention is shown, in which the paste ejection gun 100 includes a gun body forming a main structure of the paste ejection gun 100. For supplying the handheld operation of user and spraying colloid, the spray gun body of a gun includes:

handle 110

At the lower half of the gun body, there is a handle 110 for the user to hold, and the handle 110 may have a trigger 114 portion that when the user presses the trigger 114, controls the entry of gas or whether to open. That is, the handle 110 is also connected to an external air source to control the intake state of the air source.

Barrel 120

A barrel 120 is secured to the handle 110 and is also connected to the gas source and also receives gas released from the gas source. Meanwhile, the barrel 120 is connected to the glue bottle assembly through a glue spraying tube 126, receives glue from the glue bottle assembly, and sprays the glue from an outlet of the barrel 120.

To achieve the spraying of the paste ejection gun 100 in a narrow space, the handle 110 may be separated from the barrel 120, and thus, a separating assembly, which may be a part of the barrel 120 or the handle 110, may be provided at a junction between the barrel 120 and the handle 110. Preferably, the separation assembly may specifically comprise: a protrusion fixed to a first end of the handle 110 facing the barrel 120 and extending toward the barrel 120 until reaching the inside thereof, and a fixing portion 121, or in another alternative embodiment, a protrusion fixed to a second end of the barrel 120 facing the handle 110 and extending toward the handle 110 until reaching the inside thereof. Having a boss, the handle 110 and barrel 120 may be interconnected and restrained by the boss. The fixing portion 121 is used for switching between effective and ineffective limiting of the protruding portion, specifically, the fixing portion 121 penetrates from the outside of the gun body (both the handle 110 and the barrel 120) along a direction perpendicular to the protruding portion, after the fixing portion 121 gradually penetrates, the fixing portion 121 collides with the protruding portion, and when the fixing portion collides with the protruding portion, the protruding portion cannot move inside the handle 110 or the barrel 120, so that the relative movement of the handle 110 and the barrel 120 is limited. When the securing portion 121 is released, i.e., removed from the body of the spray gun, the boss is no longer restrained and can move within the handle 110 or barrel 120, thereby freeing the boss from connection with the handle 110 or barrel 120 and the handle 110 and barrel 120 can be unlocked relative to the boss for disengagement. The separated barrel 120 is a small volume component that can be placed in a small space, and the glue can still be fed into the barrel 120 for spraying by the user's manipulation of the handle 110.

With continued reference to fig. 1, in a preferred embodiment, the protruding portion specifically includes a fixing plate 111, a first limiting rib 112 and a second limiting rib 113. The fixing plate 111 is fixedly installed on the first end face or the second end face such that the boss itself is structurally synchronized with the handle 110 or the barrel 120. The first stopper rib 112 is fixed to the fixing plate 111 and extends toward the barrel 120 or the handle 110. The second limiting rib 113 extends from the free end of the first limiting rib 112, and the extending direction of the second limiting rib is the same as or substantially the same as the direction in which the fixing part 121 penetrates into the spray gun body, that is, the first limiting rib 112 and the second limiting rib 113 are erected on the fixing plate 111 in a structure of substantially 90 degrees.

Correspondingly, a groove is formed on the end surface of the barrel 120 or the handle 110 facing the first limiting rib 112 and the second limiting rib 113. The recess can be the L type, when first spacing muscle 112 and second spacing muscle 113 stretched into the recess, laminate with the both sides of L type recess respectively for the notch of recess has restricted second spacing muscle 113 and has shifted out, thereby restriction handle 110 and barrel 120 are at the ascending removal of the extending direction of first spacing muscle 112 and second spacing muscle 113. If need shift out first spacing muscle 112 and second spacing muscle 113 from the recess, at first need be with second spacing muscle 113 for recess lateral shifting to the position of recess bottom and towards the notch is moved to second spacing muscle 113, again with first spacing muscle 112 for recess vertical shifting, take out first spacing muscle 112 and second spacing muscle 113 from the recess.

Further, the fixing portion 121 is in a screw shape, or a screw is directly used as the fixing portion 121. Correspondingly, a through hole is formed in the barrel 120 or the handle 110, and two sides of the through hole connect the exterior of the gun body of the spray gun and the side of the first limiting rib 112, so that the fixing portion 121 can be abutted against the first limiting rib 112 after gradually penetrating from the exterior through the through hole, or will not be abutted against the first limiting rib 112 when the fixing portion 121 is pulled out. That is, when the fixing portion 121 abuts against the first limiting rib 112, the first limiting rib 112 is limited by the fixing portion 121 along the transverse direction, and the second limiting rib 113 is also limited in the groove, so that the barrel 120 is fixed to the handle 110; when the fixing portion 121 is screwed out of the through hole, a release stroke is formed between the fixing portion 121 and the first limiting rib 112, and the first limiting rib 112 can move along the release stroke, so as to drive the second limiting rib 113 to move to the notch position of the groove, and then move the handle 110 and the barrel 120 along the vertical direction, so that the handle 110 and the barrel 120 can be separated. The user can spray the area to be sprayed by holding the gun tube 120 only.

In a preferred embodiment, the handle 110 specifically includes:

-a first air valve

The first air valve is disposed at the bottom end of the handle 110 and connected to an air source through a first air tube, so that air is sucked through the first air tube.

-a second trachea

One end of the second air tube extends into the handle 110 and is communicated with the first air valve, and the other end extends to the air source.

Trigger part 114

The trigger 114 is similar to the "trigger" of the handle 110 and is connected between the first gas valve and the second gas tube, and when the user applies an external operation to the trigger 114, the first gas valve is triggered to be turned on or off, and gas can enter the handle 110 from the first gas tube. Then the gas flows back to the gas source from the second gas pipe, and the gas is guided to the rubber bottle assembly by the gas source, so that the rubber bottle is extruded under control, and the rubber body flows out.

In a further preferred or alternative embodiment, the barrel 120 includes:

on-off valve 122

A third air tube 125 is disposed inside the barrel 120 and connected to the air source, and the switch valve 122 partially protrudes from the barrel 120, so that a user can hold the protruding portion of the switch valve 122 and push the switch valve 122 left and right, thereby controlling the switch valve 122 to switch between an open state and a closed state, and further controlling the third air tube 125 to be turned on and off.

Flow valve 123

The flow valve 123 is disposed in the barrel 120 and is specifically located on the path of the third gas pipe 125 in the barrel 120, and when the third gas pipe 125 is controlled to be in an open state by the switch valve 122, the flow valve 123 controls the flow rate of the intake gas of the third gas pipe 125.

Injection valve 124

The injection valve 124 is disposed at the head of the barrel 120 and is connected to the third air pipe 125 and the glue injection pipe 126, that is, the injection valve 124 receives the air pressure of the third air pipe 125 and the glue in the glue injection pipe 126 at the same time, and when the glue and the air pressure are converged at the injection valve 124, the air pressure ejects the glue in the glue injection pipe 126 from the injection valve 124. It can be understood that the control of the air pressure through the flow valve 123 realizes the control of the flow rate and the angle of the colloid ejection by the flow valve 123.

More specifically, the flow valve 123 includes a flow control end cap, an inlet end and an outlet end. The flow control cap is exposed to the exterior of the barrel 120 and the user may rotate the flow control cap to control the flow of air pressure. The air inlet end is connected with the third air pipe 125, and the air outlet end is connected to the injection valve 124 through a fourth air pipe (or the third air pipe 125 and the fourth air pipe are the same air pipe, and the middle part is connected by the flow valve 123). When the user operates the outside of the flow control cap, the flow rate of the fourth air tube is further adjusted, thereby controlling the injection speed and the injection angle of the injection valve 124.

In another preferred embodiment, the barrel 120 includes a receiving portion 127 disposed at the top of the barrel 120 and extending therethrough to form a receiving space, such that the hose 126 is disposed in the receiving space to prevent the hose 126 from moving on the barrel 120. For the convenience of the user to finely adjust the position of the glue spraying pipe 126 accommodated in the accommodating part 127, the length of the accommodating part 127 is gradually reduced along the direction from the fixed end to the free end, and the top surface of the accommodating part 127 is provided with at least one window unit, so that the user can observe the position of the glue spraying pipe 126 from the window unit on one hand, and can stretch into the window unit to adjust the position of the glue spraying pipe 126 on the other hand. And it can be understood that the size of the receiving space can be equal to or slightly larger than the diameter of the glue spraying tube 126, so as to prevent the glue spraying tube 126 from moving freely in the receiving part 127.

Referring to fig. 2, a schematic diagram of a glue bottle assembly 200 according to a preferred embodiment of the invention is shown. In this embodiment, the glue bottle 210 is disposed inside the glue bottle 210 and connected to a glue spraying tube 211 for transferring the glue to a glue spraying gun, and the glue is sprayed out from the glue spraying gun. To separate the glue bottle 210 from the glue gun so that the glue bottle 210 and the glue gun can be remotely located apart so that the volume of the glue bottle 210 does not participate in the working position, the glue bottle assembly 200 includes:

glue bottle housing 220

In order to place the glue bottle 210, a glue bottle housing 220 is additionally provided outside the glue bottle 210. When the area to be sprayed needs to be sprayed, the glue bottle 210 with the glue inside can be fixedly installed in the glue bottle housing 220. When the glue bottle 210 needs to be moved, the glue bottle housing 220 is simply moved to realize the arbitrary movement of the position of the glue bottle 210.

It will be appreciated that the glue bottle 210 may be removed from the glue bottle housing 220 when spraying of the work area is not required. Therefore, in order to realize the detachably installation of the glue bottle 210, a mounting groove is provided in the middle of the glue bottle housing 220, the glue bottle 210 can be embedded into the mounting groove, and the glue can be ejected out by the pushing of the air pressure push rod in the mounting groove.

Glue bottle holder 230

In order to further fix the rubber bottle housing 220, a rubber bottle support 230 is further provided outside the rubber bottle housing 220, so that the rubber bottle housing 220 can be fixedly mounted on the rubber bottle support 230. When the plastic bottle casing 220 is located on the plastic bottle support 230, the plastic bottle support 230 supports the plastic bottle casing 220, so that the plastic bottle casing 220 cannot be randomly placed on the ground in a working environment. Therefore, the glue bottle holder 230 includes a support plate 231 and a control chamber 232. The supporting plate 231 is disposed facing the plastic bottle housing 220 to form a supporting end surface for supporting the plastic bottle housing 220, so that the plastic bottle housing 220 is placed on the supporting surface. The control chamber 232 is fixed at the side of the rubber bottle housing 220 and is communicated with the rubber bottle housing 220 through an air tube and other elements. The control chamber 232 is further externally connected with an air source and a glue-squeezing spray gun, and the glue-squeezing spray gun can be connected through an air pipe, is far away from the control chamber 232, and is still in the same working scene with the control chamber 232. The air source inputs air into the control chamber 232, and the air is distributed by the control chamber 232, for example, into the glue bottle housing 220, to squeeze the glue bottle 210, or to the glue gun, so that the glue gun can spray the sucked glue by using the air. That is, gas is distributed within the control chamber 232 and exchanged within the glue gun, glue bottle housing 220.

With the above configuration, when the user uses the glue squeezing spray gun, the user can only hold the glue squeezing spray gun to the working surface, the glue bottle assembly 200 can be placed outside, and then in order to separate the glue bottle assembly 200 from the glue squeezing spray gun, the glue bottle support 230 and the glue bottle housing 220 can support the glue bottle 210, and limit the same.

In a preferred embodiment, the glue bottle holder 230 further comprises a portable handle 233 fixedly mounted to the support plate 231, for example, by a U-shaped spring and a screw to fix the portable handle to the support plate 231. The carrying handle 233 also extends away from the control chamber 232, so that a protruding space is formed between the carrying handle 233 and the support plate 231. When a user needs to move or transport the glue bottle assembly 200, the user can extend his or her hand into the space and hold the portable handle 233, so that the portable handle 233 and the glue bottle assembly 200 can be transported together.

In another preferred embodiment, the glue bottle holder 230 further includes a universal wheel 234 fixed below the supporting plate 231, for example, 4 or an even number of universal wheels can be placed below the supporting plate 231, and when the user needs to move the glue bottle assembly 200 in the working scene, the user can hold the portable handle 233 or the air tube between the glue gun and the control chamber 232 to pull the glue bottle assembly 200. By using the universal wheel 234, the pulling force can be reduced, and the user can move the glue bottle assembly 200 conveniently.

In another preferred or optional embodiment, the glue bottle holder 230 further comprises an extension plate, one end of the extension plate is fixed to the side of the support plate 231 on which the glue spraying tube 211 is disposed, so that the extension plate is right opposite to the glue spraying tube 211, and the other end of the extension plate extends in a direction away from the glue bottle housing 220. Because the glue spraying tube 211 has a certain length, and is different from the design of the prior art that the glue spraying tube 211 directly faces the working surface, the length required by the glue spraying tube 211 in the embodiment needs to be extended to the glue extruding spray gun, and therefore, the glue spraying tube 211 does not have a downward trend. Furthermore, the free end of the extension plate is provided with a notch, the glue spraying pipe 211 is placed in the notch, and the extension plate supports the glue spraying pipe 211 to ensure that glue does not flow back.

Further, to better fix the extension plate, the glue bottle holder 230 further includes a side plate 235 vertically fixed on the side of the support plate 231 on which the glue spraying tube 211 is disposed, so as to limit the position of the glue bottle housing 220 on the support plate 231 and further limit the position of the glue bottle 210 in the glue bottle housing 220. Correspondingly, the extension plate is fixed on the side plate 235 and is flush with the glue spraying pipe 211, so that the extension plate does not need to be arranged on the glue bottle shell 220 to maintain the strength of the glue bottle shell 220.

Preferably or optionally, the glue bottle assembly 200 further comprises: a first positioning element 236, fixedly mounted on the supporting plate 231 at a position corresponding to the rubber bottle 210, and supporting the rubber bottle housing 220; a second positioning element 237, which is fixedly mounted on the supporting plate 231 at a position corresponding to the rubber bottle housing 220 and supports the rubber bottle housing 220; the fixing ring 238 is disposed around the glue bottle housing 220 and fixed to the second positioning element 237, such that the fixing ring 238 has no gap in the glue bottle housing 220. In this embodiment, the first positioning element 236 is adapted to the shape of the bottom or end of the glue bottle 210, and the whole body may be L-shaped, while the second positioning element 237 is adapted to the shape of the bottom of the glue bottle housing 220, and the end surface of the second element facing the glue bottle housing 220 may be curved or curved. After the fixing ring 238 is disposed around the outside of the glue bottle housing 220, the fixing ring 238 and the second positioning element 237 can be fixed by screws or the like, so that the glue bottle housing 220 and the glue bottle 210 will not shake on the glue bottle assembly 200.

Preferably or optionally, the control chamber 232 includes a first control switch 221 therein, which is connected to the first air pipe and the second air pipe between the air source and the glue-squeezing spray gun; the second control switch 222 is connected to the third air pipe between the air source and the glue-squeezing spray gun and the fourth air pipe between the air source and the glue bottle 210. The first control switch 221 and the second control switch 222 are partially protruded out of the control cavity 232, so that a user can control the first control switch 221 and the second control switch 222, when the first control switch 221 receives a pressing operation, the first air pipe and the second air pipe can be controlled to be simultaneously switched on and off, namely, whether the air of the air source is conveyed to the glue-extruding spray gun or not, and the glue received by the glue-extruding spray gun is sprayed out or is suspended. And when second control switch 222 received the press operation, will control the alternative of third trachea and fourth trachea and open and turn-off for when glue-spraying pipe 211 connects at the third trachea, can extrude gluey bottle 210, when glue-spraying pipe 211 connects at the fourth trachea, when will glue-spraying pipe 211 again connects at the fourth trachea, usable gas will spout the surplus colloid blowout in glue-spraying pipe 211, prevent that the colloid from condensing in glue-spraying pipe 211.

Furthermore, an air valve 223 and an air inlet pipe are connected to the side of the control cavity 232; the air inlet pipe is connected with an air source, and the air valve 223 controls the flow rate of air in the air inlet pipe, so that the spraying speed of the externally connected glue extruding spray gun is controlled.

Referring to fig. 3, the present invention further discloses a switching assembly on the ventilation duct, which can switch the flow direction of the air flow in the ventilation duct through different opening states. Specifically, the switching assembly is disposed in the control chamber, a sliding valve 500 is disposed on the gas inlet side of the switching assembly and connected to the gas source, and the gas emitted from the gas source passes through the sliding valve 500 and is opened or closed by sliding the sliding valve 500, or is slightly controlled by sliding in the opened state to adjust the gas inlet flow. In addition to the sliding valve 500, the switching assembly further includes:

-reset switch 600

The reset switch 600 is disposed downstream of the slide valve 500, and receives air from the slide valve 500 after being connected to the slide valve 500. While the reset switch 600 acts as a switch device in the vent conduit that will close off the reset switch 600 when it is closed. While when the reset switch 600 is open, gas may flow freely through the reset switch 600 and into a more downstream position. The first air pipe 410 and/or the third air pipe 420 are externally connected to the downstream of the reset switch 600. The first and third air tubes 410 and 420 may be connected to the reset switch 600 at the same time or alternatively to receive air communicated from the reset switch 600.

-a pushing element 500

The pushing element 500 is communicated with the reset switch 600, namely the reset switch 600 is further externally connected to the pushing element 500, when the gas received by the reset switch 600 flows to the pushing element 500, the pushing element 500 is pushed forwards by the extrusion of the gas, and the glue bottle provided with the glue body is arranged on the front side of the pushing element 500, so that after the reset switch 600 is opened, the gas is conveyed to the pushing element 500, the pushing element 500 pushes the glue bottle to extrude the glue body from the glue bottle.

-stop switch 600

The stop switch 600 communicates with the pushing element 500. To further control the operation state of the pushing element 500, the stop switch 600 may receive the gas from the pushing element 500 and transmit the gas to the outside. Specifically, the stop switch 600 is externally connected with a second air pipe 510 and a glue outlet pipe 520 at the downstream, and the air received from the pushing element 500 is transmitted to the second air pipe 510 and the glue outlet pipe 520.

After the configuration is adopted, a user can select to trigger the reset switch 600 or trigger the stop switch 600, when the reset switch 600 is triggered, the reset switch 600 is in an open state, and a flow path from the sliding valve 500, the reset switch 600 and the pushing element 500 to the first air pipe 410 and/or the third air pipe 420 is formed, so that when the switching assembly is applied to a glue bottle assembly and a matched glue extruding spray gun, the pushing element 500 pushes glue to flow to the glue extruding spray gun, and meanwhile, the first air pipe 410 and the third air pipe 420 are communicated into the glue extruding spray gun to convey gas to the glue extruding spray gun so as to spray the glue from the glue extruding spray gun.

When the stop switch 600 is triggered, the stop switch 600 cuts off the path for delivering the gas from the pushing element 500 to the glue bottle, receives the gas from the pushing element 500 and delivers the gas to the second gas tube 510 and the glue outlet tube 520, so that the glue-extruding spray gun can still receive the gas, and when the glue tube of the glue-extruding spray gun is connected to the second gas tube 510, the gas output from the second gas tube 510 can extrude the excessive glue and the excessive glue is sprayed out by the glue-extruding spray gun.

In a preferred embodiment, the reset switch 600 includes a first air inlet end, a first air outlet end and a second air outlet end, wherein the first air inlet end is connected to the sliding valve 500, the first air outlet end is connected to the first air pipe 410 and/or the third air pipe 420, and the second air outlet end is connected to the first input end of the pushing element 500. After the connection relationship, the first gas inlet end receives gas from the gas source, and the gas is transmitted to the first gas pipe 410 and/or the third gas pipe 420 and the pushing element 500 through the first gas outlet end and the second gas outlet end. It is understood that the reset switch 600 itself may have a plurality of input terminals and output terminals, and any input terminal and output terminal may be selected as the first air input terminal, the first air output terminal, and the second air output terminal.

Further, the stop switch 600 includes a second air inlet end, a third air outlet end and a fourth air outlet end; the second air inlet end is connected with the second input end of the pushing element 500; the third air outlet end is connected to the second air pipe 510, and the fourth air outlet end is connected to the air outlet pipe 520; the second inlet end receives the gas from the pushing element 500 and delivers the gas to the second gas tube 510 and the glue tube 520 through the third outlet end and the fourth outlet end. It is understood that the stop switch 600 itself may have a plurality of input terminals and output terminals, and any input terminal and output terminal may be selected as the second air input terminal, the third air output terminal, and the fourth air output terminal.

In a preferred embodiment, the first air tube 410 and the third air tube 420 are connected in parallel to the first air outlet end, so that another air outlet end is additionally arranged on the reset switch 600, and simultaneously, the requirement of uniformly configuring the flow rates of the first air tube 410 and the third air tube 420 can be met.

In a further preferred or alternative embodiment, the pushing element 500 has a first pushing rod and a second pushing rod, and the glue bottle is pushed by air pressure.

It should be noted that the embodiments of the present invention have been described in terms of preferred embodiments, and not by way of limitation, and that those skilled in the art can make modifications and variations of the embodiments described above without departing from the spirit of the invention.

Claims (10)

1. A glue gun assembly comprising: a glue-extruding spray gun and a glue bottle component which are communicated with each other, which is characterized in that,

crowded gluey spray gun includes the spray gun body of a gun, the spray gun body of a gun includes:

a handle forming a grip portion for receiving a pressing operation to control an intake state of an air source externally connected to the handle;

the gun tube is fixed on the handle, is connected with the air source and the glue bottle assembly, and absorbs the glue through a glue spraying tube;

a separation assembly is arranged at the joint of the gun barrel and the handle, and detachably separates the gun barrel and the handle;

the separation assembly comprises:

a boss secured to a first end of the handle facing the barrel and extending into the interior of the barrel, or secured to a second end of the barrel facing the handle and extending into the interior of the handle;

the fixing part penetrates from the outside of the spray gun body along the direction vertical to the bulge part and is abutted against the bulge part to limit the relative movement of the handle and the gun barrel;

when the fixing portion is released, the handle and the barrel are unlocked relative to the boss portion to be separated;

the boss portion includes:

the fixing plate is fixedly arranged on the first end face or the second end face;

the fixed end of the first limiting rib is fixed on the fixing plate, and the free end of the first limiting rib extends towards the gun barrel or the handle;

the fixed end of the second limiting rib is connected with the free end of the first limiting rib, and the free end extends towards the direction that the fixed part penetrates into the spray gun body;

the end faces of the barrel or the handle, facing the first limiting rib and the second limiting rib, are provided with grooves, the first limiting rib and the second limiting rib extend into the grooves, and the second limiting rib is clamped into the grooves, so that the notches of the grooves limit the second limiting rib to move out;

the glue bottle subassembly is including the glue bottle that embeds there is the colloid, and with glue bottle is connected to link to the glue spraying pipe of crowded gluey spray gun outward, still includes:

the glue bottle shell is internally provided with a glue bottle, and the glue bottle is detachably arranged in the glue bottle shell;

glue the bottle support, glue bottle casing fixed mounting in glue on the bottle support for glue the bottle support to glue bottle casing bearing, wherein glue the bottle support and include:

the bearing plate is used for bearing the bearing end face of the rubber bottle shell;

the control cavity is arranged at the side of the rubber bottle shell and communicated with the rubber bottle shell, and the control cavity is respectively externally connected with the gas source and the rubber extrusion spray gun so as to control the gas of the gas source to exchange in the rubber extrusion spray gun and the rubber bottle shell.

2. The glue gun assembly as recited in claim 1,

the fixing part is in a screw shape, a through hole is formed in the barrel or the handle, and the through hole faces the first limiting rib, so that the fixing part penetrates through the through hole and is abutted against the first limiting rib;

when the fixing part is screwed out of the through hole, a release stroke is formed between the fixing part and the first limiting rib, and the first limiting rib drives the second limiting rib to move along the release stroke, so that the second limiting rib moves out of the groove, and the handle is separated from the gun barrel without limitation.

3. The glue gun assembly as recited in claim 1 wherein the handle comprises:

the first air valve is arranged at the bottom end of the handle and is connected with the air source through a first air pipe;

one end of the second air pipe extends into the handle, and the other end of the second air pipe extends to the air source;

and the triggering part is connected with the first air valve and the second air pipe and receives external control to control the air inlet states of the first air pipe and the second air pipe.

4. The glue gun assembly as recited in claim 1 wherein the barrel comprises:

the switch valve is arranged in the gun barrel and is connected with the air source through a third air pipe, and the switch valve partially protrudes and receives external pushing operation to control the on-off of the third air pipe;

the flow valve is arranged on a path of a third air pipe in the gun pipe so as to control the air inlet state of the third air pipe;

and the injection valve is arranged at the head part of the gun barrel and is connected with the third air pipe and the glue spraying pipe so as to utilize air pressure to spray glue outwards from the glue spraying pipe.

5. The paste gun assembly of claim 4 wherein said flow valve comprises:

a flow control end cap exposed to the exterior of the barrel;

the air inlet end is connected with the third air pipe, and the air outlet end is connected to the injection valve through a fourth air pipe;

the flow control end cover receives external operation to adjust the flow of the fourth air pipe so as to control the injection speed and the injection angle of the injection valve.

6. The glue gun assembly as recited in claim 1 wherein the barrel comprises:

the accommodating part is arranged at the top of the gun barrel, and the middle of the accommodating part is communicated for the glue spraying pipe to penetrate through;

the length of the accommodating part is gradually reduced along the direction from the fixed end to the free end, and the top surface of the accommodating part is provided with at least one window unit.

7. The glue gun assembly of claim 1, wherein the glue bottle holder further comprises:

the portable handle is fixedly arranged on the bearing plate and extends towards the direction far away from the control cavity, so that an extending space is formed between the portable handle and the bearing plate;

the universal wheel is fixed below the bearing plate, so that the rubber bottle component moves in a working scene;

one end of the extension plate is fixed on the side edge of the bearing plate, on which the glue spraying pipe is arranged, the other end of the extension plate extends in the direction far away from the glue bottle shell, a notch is formed in the free end of the extension plate, and the glue spraying pipe is placed in the notch;

the side plate is vertically fixed on the side edge of the bearing plate, on which the glue spraying tube is arranged, so as to limit the position of the glue bottle shell on the bearing plate;

the extension plate is fixed on the side plate and is flush with the glue spraying pipe.

8. The glue gun assembly as recited in claim 1 wherein the glue bottle assembly further comprises:

the first positioning element is fixedly arranged on the bearing plate at a position corresponding to the rubber bottle and is used for bearing the rubber bottle shell;

the second positioning element is fixedly arranged on the bearing plate at a position corresponding to the glue bottle shell and is used for bearing the glue bottle shell;

and the fixing ring is arranged outside the rubber bottle shell in a surrounding manner and is fixed on the second positioning element, so that the fixing ring has no gap in the rubber bottle shell.

9. The glue gun assembly as recited in claim 1, further comprising within the control chamber:

a switching assembly including a slide valve connected with an air source to control an intake air flow rate of the air source, the switching assembly further including:

the reset switch is communicated with the sliding valve to receive inlet air and is externally connected with the first air pipe and/or the third air pipe;

the pushing element is communicated with the reset switch and receives air inflow from the reset switch so as to push the rubber bottle arranged in the pushing element;

the stop switch is communicated with the pushing element and is externally connected with a second air pipe and a rubber outlet pipe;

when the reset switch is triggered, the reset switch opens a passage for conveying gas to the pushing element, the first gas pipe and/or the third gas pipe;

when the stop switch is triggered, the stop switch cuts off a passage for conveying gas to the rubber bottle from the pushing element, receives the gas circulated by the reset switch from the pushing element, and conveys the gas to the second gas pipe and the rubber outlet pipe.

10. The glue gun assembly as recited in claim 9,

the reset switch comprises a first air inlet end, a first air outlet end and a second air outlet end;

the first air inlet end is connected with the sliding valve;

the first air outlet end is connected to the first air pipe and/or the third air pipe, and the second air outlet end is connected to the first input end of the pushing element;

the first air inlet end receives air from an air source and conveys the air to the first air pipe and/or the third air pipe and the pushing element through the first air outlet end and the second air outlet end;

the stop switch comprises a second air inlet end, a third air outlet end and a fourth air outlet end;

the second air inlet end is connected with the second input end of the pushing element;

the third air outlet end is connected to the second air pipe, and the fourth air outlet end is connected to the air outlet pipe;

the second air inlet end receives the air conveyed from the second air outlet end from the pushing element and conveys the air to the second air pipe and the rubber outlet pipe through the third air outlet end and the fourth air outlet end.

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