CN211597611U - Environment-friendly double-cylinder seam beautifying agent device - Google Patents

Abstract

The utility model belongs to the technical field of joint sealing agents, and discloses an environment-friendly double-cylinder joint sealing agent device, which comprises a storage cylinder, a connecting sleeve and an extrusion pipe which are sequentially connected along the joint sealing agent extrusion direction, wherein the storage cylinder is of a double-cylinder structure, a mounting groove is transversely formed in the connecting sleeve, and a sealing valve plate is slidably mounted in the mounting groove so as to realize the conduction or the sealing of the connecting sleeve; the sealing valve plate is internally provided with an air guide assembly, and the air guide assembly realizes the conduction or sealing between the mounting groove and the extrusion pipe; the auxiliary extrusion assembly is arranged on the connecting sleeve and is matched with the air guide assembly based on the mounting groove, so that positive pressure driving or negative pressure driving in the extrusion pipe is realized; to sum up, both can make whole device cooperation beautiful seam rifle normal use, can use alone when not connecing the beautiful seam rifle again to after the use, can also effectively derive the intraductal remaining beautiful seam agent of extrusion, effectively avoided the problem of extrusion pipe jam.

Description

Environment-friendly double-cylinder seam beautifying agent device

Technical Field

The utility model belongs to the technical field of beautiful seam agent, concretely relates to beautiful seam agent device of environment-friendly binocular.

Background

The crack beautifying agent is a commonly used material in the current building decoration, is used for filling in gaps of ceramic tiles, and effectively solves the problems of unattractive crack, dirty and black appearance and the like of the ceramic tiles. When the seam beautifying agent is used or stored for filling seams, corresponding devices are needed;

most of the existing crack-beautifying agents are formed by mixing oily epoxy resin and a curing agent, and in order to ensure the effective storage of the two-component raw materials, a storage device corresponding to the crack-beautifying agent is of a double-cylinder structure.

Although the double-cylinder type seam beautifying agent device is convenient to use, certain problems still exist: (1) when the raw materials of the components are extruded and mixed, the mixing degree is not uniform enough; (2) the seam beautifying operation can be realized only by a corresponding double-barrel type using device (such as a seam beautifying gun), and if the using device is forgotten to be carried, the seam beautifying operation cannot be performed; (3) when the seam beautifying agent is used specifically, the component raw materials of the seam beautifying agent are extruded by using the device, so that the component raw materials are mixed and extruded in the extrusion pipe, when seam beautifying is finished, part of the seam beautifying agent which is mixed but not extruded exists in the extrusion pipe, and once the part of the seam beautifying agent is dried, the extrusion pipe is blocked, so that subsequent use is influenced.

SUMMERY OF THE UTILITY MODEL

In order to effectively solve the problem, the utility model provides an environment-friendly binocular seam beautifying agent device.

The utility model discloses a concrete technical scheme as follows: an environment-friendly dual-barrel crack sealer device comprises a storage barrel, a connecting sleeve and an extrusion pipe which are sequentially connected along the crack sealer extrusion direction, wherein the storage barrel is of a dual-barrel structure and is used for storing two component raw materials of a crack sealer, a mounting groove is transversely formed in the connecting sleeve, a sealing valve plate is slidably mounted in the mounting groove, two discharge holes are longitudinally formed in the connecting sleeve, and the two discharge holes penetrate through the mounting groove and are respectively communicated with dual barrels of the storage barrel; two material guide holes are formed in the sealing valve plate in a penetrating mode and are respectively matched with the two discharge holes, and the material storage barrel is connected with the extrusion pipe in a conducting mode;

the sealing valve plate is internally provided with an air guide assembly, the air guide assembly comprises an air guide channel and two air outlet holes, the two air outlet holes are respectively positioned at one side of the two material guide holes and are matched with the extrusion pipe after the sealing valve plate slides and is sealed, and the air guide channel realizes the conduction connection between the mounting groove and the air outlet holes;

still extrude the subassembly including supplementary, supplementary assembly installation of extruding is sheathe in the link to based on mounting groove and air guide subassembly adaptation, realize extruding the interior malleation drive or the negative pressure drive of pipe.

Preferably, the auxiliary extrusion assembly comprises an elastic air bag, an air pipe, an air valve and a spring, wherein the elastic air bag is of an annular structure and is fixed on the outer wall of the connecting sleeve through a bolt, the air pipe is embedded in the connecting sleeve and is connected with the elastic air bag and the mounting groove, and the air valve is mounted on the elastic air bag.

Preferably, the auxiliary extrusion assembly further comprises a spring, and the spring is fixed inside the elastic air bag to realize quick rebound of the elastic air bag.

Preferably, a mixing component is arranged inside the extrusion pipe, and the mixing component realizes multi-strand cross mixing of two component raw materials in the storage barrel.

Preferably, the mixing component comprises an upper plate, guide pipes and a lower plate, wherein the upper plate is of a T-shaped structure, the upper space of the upper plate is divided into two sub-cavities, the two sub-cavities correspond to the two discharge holes respectively, the bottom of each sub-cavity is at least connected with three groups of guide pipes, six groups of guide pipes are connected between the upper plate and the lower plate, and outlet ends of the six groups of guide pipes are arranged at intervals.

Preferably, the mixing component comprises an inverted Y-shaped guide plate, two sub-cavities are formed in the upper portion of the Y-shaped guide plate, and a plurality of inclined holes are symmetrically formed in the bottoms of the two sub-cavities, so that cross convection of component raw materials in the sub-cavities is realized.

The utility model discloses an useful part:

(1) the utility model is provided with the connecting sleeve with the sealing valve plate, thereby realizing the conduction or the cut-off between the material storage cylinder and the extrusion pipe; specifically, the method comprises the following steps: when the device is conducted, the whole device is matched with a beauty seam gun to be normally used; when the pipe is cut off, the auxiliary extrusion assembly arranged on the connecting sleeve is matched, the mixed seam beautifying agent in the extrusion pipe is extruded through positive pressure pushing, and then the mixed seam beautifying agent is prevented from remaining in the extrusion pipe, so that the problem of blockage of the extrusion pipe is effectively avoided.

(2) To above-mentioned supplementary extrusion subassembly, when plugging up the export of extrusion pipe, can be based on the flexible intraductal adjustment of extruding of elasticity gasbag to negative pressure state, then realize the initiative absorption to the storage cylinder based on this negative pressure, guarantee from this to also can realize the initiative crowded material of integrated device and use under the condition that does not have the beautiful seam rifle.

(3) In extruding the pipe, set up the compounding subassembly for two sets of powder raw materials of beautiful seam agent form the stranded alternately when extruding and extrude, and then guarantee the homogeneity and the sufficiency of compounding.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 2 is a schematic structural view of the middle sealing valve plate of the present invention;

fig. 3 is a schematic view of a first embodiment of the present invention;

fig. 4 is a schematic structural diagram of a second embodiment of the present invention.

In the figure: the material mixing device comprises a material storage barrel 1 part, a connecting sleeve 2 part, a mounting groove 21 part, a discharge hole 22 part, an extrusion pipe 3 part, a material mixing component 4 part, an upper plate 41 part, a guide pipe 42 part, a lower plate 43 part, an auxiliary extrusion component 5 part, an elastic air bag 51 part, an air pipe 52 part, an air valve 53 part, a spring 54 part, a sealing valve plate 6 part, a material guide hole 61 part, an air outlet 62 part and an air guide channel 63 part.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

On the contrary, the invention is intended to cover alternatives, modifications, equivalents and alternatives which may be included within the spirit and scope of the invention as defined by the appended claims. Furthermore, in order to provide a better understanding of the present invention to the public, certain specific details are set forth in the following detailed description of the invention. It will be apparent to those skilled in the art that the present invention may be practiced without these specific details.

Referring to fig. 1-4, the present invention provides the following technical solutions: an environment-friendly double-barrel crack sealer device comprises a storage barrel 1, a connecting sleeve 2 and an extrusion pipe 3 which are sequentially connected along the crack sealer extrusion direction, wherein the storage barrel 1 is of a double-barrel structure, storage of two component raw materials of a crack sealer is achieved, a mounting groove 21 is transversely formed in the connecting sleeve 2, a sealing valve plate 6 is arranged in the mounting groove 21 in a sliding mode, specifically, as shown in figures 1, 3 and 4, the sealing valve plate 6 does not always separate from the mounting groove 21 when sliding, the accuracy of correspondence between a follow-up material guide hole 61 and an air outlet hole 62 can be guaranteed based on limitation of the width of a notch of the mounting groove 21 and the thickness of the sealing valve plate 6, two discharge holes 22 are longitudinally formed in the connecting sleeve 2, and the two discharge holes 22 penetrate through the mounting groove 21 and are respectively communicated with double barrels of; two material guide holes 61 are formed in the sealing valve plate 6 in a penetrating mode, the two material guide holes 61 are respectively matched with the two material discharge holes 22, and the material storage barrel 1 is connected with the extrusion pipe 3 in a conduction mode;

an air guide assembly is further arranged in the sealing valve plate 6 and comprises an air guide channel 63 and two air outlet holes 62, the two air outlet holes 62 are respectively positioned at one side of the two material guide holes 61 and are matched with the extrusion pipe 3 after the sealing valve plate 6 slides and seals, and the air guide channel 63 realizes the conduction connection between the installation groove 21 and the air outlet holes 62;

still include supplementary extrusion assembly 5, supplementary extrusion assembly 5 installs on adapter sleeve 2 to based on mounting groove 21 and air guide assembly adaptation, realize the positive pressure drive or the negative pressure drive in the extrusion pipe 3.

Preferably, the auxiliary extrusion assembly 5 comprises an elastic air bag 51, an air pipe 52, a valve 53 and a spring 54, wherein the elastic air bag 51 is of a ring structure and is fixed on the outer wall of the connecting sleeve 2 through bolts, the air pipe 52 is embedded in the connecting sleeve 2 and is connected with the elastic air bag 51 and the mounting groove 21, and the valve 53 is mounted on the elastic air bag 51.

Preferably, the auxiliary extrusion assembly 5 further comprises a spring 54, and the spring 54 is fixed inside the elastic air bag 51 to realize the quick rebound of the elastic air bag 51.

Preferably, the inside of the extrusion pipe 3 is provided with a mixing component 4, and the mixing component 4 realizes multi-strand cross mixing of two component raw materials in the storage cylinder 1.

To sum up, when the utility model discloses a use, its principle is as follows:

(1) the seam beautifying gun is matched with the seam beautifying gun for normal use, two component raw materials of the seam beautifying agent stored in the storage barrel 1 are pushed out based on the seam beautifying gun (as shown in figure 1, the two component raw materials are a/b), the a/b raw materials fall into two sub-cavities of the a/b of the storage barrel 1 after passing through the two discharge holes 22 and the material guide hole 61, and then are extruded into the material mixing component 4 through the sub-cavities, so that uniform mixing is formed below the material mixing component 4, and finally the mixed seam beautifying agent is extruded based on an outlet of the extrusion pipe 3;

(2) when finishing the extrusion of the seam beautifying agent, part of the mixed seam beautifying agent is remained in the extrusion pipe 3, at this time, the sealing valve plate 6 is pulled outwards to form a structure shown in fig. 3, then the valve 53 is closed and the elastic air bag 51 is extruded, so that the air in the elastic air bag 51 flows into the installation groove 21 through the air pipe 52, then enters the air guide channel 63 through the installation groove 21, and finally is discharged into the two sub-cavities through the two air outlet holes 62, and the seam beautifying agent remained in the extrusion pipe 3 is extruded out by positive pressure pushing; after the elastic air bag 51 is squashed, the valve 53 is opened, so that on one hand, air suction is realized when the elastic air bag 51 rebounds, and on the other hand, backflow of the seam beautifying agent in the extrusion pipe 3 caused by air suction is avoided; closing the valve 53 again after the elastic bladder 51 rebounds, so as to circulate the above operation until the residual jointing compound in the extruded tube 3 is completely extruded;

(3) when the beauty gun is not carried, firstly, the sealing valve plate 6 is positioned in the state shown in fig. 1, the elastic air bag 51 is squeezed at the moment so as to exhaust the air in the elastic air bag 51, then the outlet of the extrusion tube 3 is blocked by fingers, the elastic air bag 51 is released, the elastic air bag 51 generates quick rebound under the assistance of the spring 54, the air in the extrusion tube 3 is sucked into the elastic air bag 51, so that a negative pressure state is formed in the extrusion tube 3, and under the negative pressure state, the a/b raw material in the material storage barrel 1 is negatively sucked through the material guide hole 61 and the material discharge hole 22, so that the a/b raw material can effectively enter the extrusion tube 3 to be mixed; after the elastic air bag 51 rebounds, the valve 53 is opened, the elastic air bag 51 is compressed at the same time so as to discharge the gas in the elastic air bag 51, after the valve 53 is closed, the elastic air bag 51 is released so as to realize the negative suction cycle until the extrusion pipe 3 is filled with the seam beautifying agent; and then, extruding the seam beautifying agent according to the principle in the step (2), thereby ensuring that the whole device can be effectively used when not matched with a seam beautifying gun.

To above-mentioned compounding subassembly 4, include:

example one

In this embodiment, specific structural form and raw material circulation principle thereof can be seen from fig. 1 and fig. 3, preferably, the mixing assembly 4 includes an upper plate 41, a conduit 42 and a lower plate 43, wherein the upper plate 41 is a T-shaped structure, and divides the upper space thereof into two sub-chambers, the two sub-chambers respectively correspond to the two discharge holes 22, the bottom of each sub-chamber is connected with at least three sets of conduits 42, the six sets of conduits 42 are connected between the upper plate 41 and the lower plate 43, and outlet ends of the six sets of conduits 42 are arranged at intervals.

Example two

In this embodiment, the specific structural form and the raw material circulation principle of the mixing assembly 4 can be shown in fig. 4, preferably, the mixing assembly 4 includes an inverted Y-shaped material guide plate, two sub-cavities are formed on the upper portion of the Y-shaped material guide plate, and a plurality of inclined holes are symmetrically formed in the bottoms of the two sub-cavities, so that cross convection of the component raw materials in the sub-cavities is realized.

For those skilled in the art, based on the teachings of the present invention, changes, modifications, substitutions and alterations to the embodiments will still fall within the scope of the invention.

Claims (6)

1. The utility model provides an environment-friendly binocular joint sealing agent device, includes storage cylinder (1), adapter sleeve (2) and extrusion tube (3) that connect gradually along joint sealing agent extrusion direction, and storage cylinder (1) is binocular structure, realizes the storage of two kinds of component raw materials of joint sealing agent, its characterized in that: the connecting sleeve (2) is transversely provided with a mounting groove (21), a sealing valve plate (6) is slidably mounted in the mounting groove (21), the connecting sleeve (2) is longitudinally provided with two discharge holes (22), and the two discharge holes (22) penetrate through the mounting groove (21) and are respectively communicated with the two cylinders of the storage cylinder (1); two material guide holes (61) are formed in the sealing valve plate (6) in a penetrating mode, the two material guide holes (61) are respectively matched with the two discharge holes (22), and the material storage barrel (1) is in conducting connection with the extrusion pipe (3);

an air guide assembly is further arranged in the sealing valve plate (6), the air guide assembly comprises an air guide channel (63) and two air outlet holes (62), the two air outlet holes (62) are respectively positioned at one side of the two material guide holes (61), the sealing valve plate (6) is matched with the extrusion pipe (3) after sliding and sealing, and the air guide channel (63) realizes the conduction connection between the installation groove (21) and the air outlet holes (62);

still including supplementary extrusion subassembly (5), supplementary extrusion subassembly (5) are installed on adapter sleeve (2) to based on mounting groove (21) and air guide assembly adaptation, realize the positive pressure drive or the negative pressure drive in extruding pipe (3).

2. The environment-friendly dual-cylinder jointing agent device according to claim 1, wherein: the auxiliary extrusion assembly (5) comprises an elastic air bag (51), an air pipe (52), an air valve (53) and a spring (54), wherein the elastic air bag (51) is of an annular structure and is fixed on the outer wall of the connecting sleeve (2) through bolts, the air pipe (52) is embedded in the connecting sleeve (2) and is connected with the elastic air bag (51) and the mounting groove (21), and the air valve (53) is mounted on the elastic air bag (51).

3. The environment-friendly dual-cylinder jointing agent device according to claim 2, wherein: the auxiliary extrusion assembly (5) further comprises a spring (54), and the spring (54) is fixed inside the elastic air bag (51) to realize quick rebound of the elastic air bag (51).

4. The environment-friendly dual-cylinder jointing agent device according to claim 1, wherein: the inside mounting of extrusion pipe (3) has compounding subassembly (4), compounding subassembly (4) realize in storage barrel (1) the stranded cross mixture of two kinds of component raw materials.

5. The environment-friendly dual-barrel jointing agent device according to claim 4, wherein: the mixing assembly (4) comprises an upper plate (41), guide pipes (42) and a lower plate (43), wherein the upper plate (41) is of a T-shaped structure, the upper space of the upper plate is divided into two sub-cavities, the two sub-cavities correspond to the two discharge holes (22), the bottom of each sub-cavity is at least connected with three groups of guide pipes (42), six groups of guide pipes (42) are connected between the upper plate (41) and the lower plate (43), and the outlet ends of the six groups of guide pipes (42) are arranged at intervals.

6. The environment-friendly dual-barrel jointing agent device according to claim 4, wherein: the material mixing component (4) comprises an inverted Y-shaped material guide plate, two sub-cavities are formed in the upper portion of the Y-shaped material guide plate, a plurality of inclined holes are symmetrically formed in the bottoms of the two sub-cavities, and cross convection of component raw materials in the sub-cavities is achieved.

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