Patent Grant
11318488
The present disclosure relates to the technical field of spray pots, and particularly relates to a spray pot with an inner liner and a paint spraying system.
At present, spray pots on the market have a single function. The spray pots need to be washed after use or when a paint needs to be changed, thereby greatly reducing working efficiency and also wasting a lot of paint cleaning solvents. No-clean paint spray pots in a related art adopt a principle of compression, so that paint may be used incompletely to cause waste of the paint.
A purpose of the present disclosure is to provide a spray pot. Paint can be completely sprayed from the spray pot to achieve a purpose of saving paint. In addition, a body can be repeatedly used to increase working efficiency, and it is ensured that the fluid does not leak when fluid such as paint, coating and the like is injected into the inner liner and the inner liner is not compressed when the fluid is discharged from the inner liner, so that the spray pot not only is simple in structure, but also is convenient to operate.
The spray pot includes:
The detachable inner liner is arranged in the body, so that the body can be used without direct contact with paint and achieves the purposes of reusability and no-clean, thereby realizing a technical effect of increasing working efficiency. The one-way ventilation valve is arranged at the bottom of the inner liner, and the clamping portions for fixing the one-way ventilation valve are arranged at the bottom of the body, so as to achieve technical effects that the fluid does not leak when the fluid is injected into the inner liner and the inner liner is not deformed and compressed when the fluid is discharged from the inner liner.
Optionally, the one-way ventilation valve allows external air to flow into the inner liner through the one-way ventilation valve when an air pressure in the inner liner is lower than an external pressure. The paint in the spray pot can be completely sprayed out during use by the one-way ventilation valve.
Optionally, a plurality of flanges are arranged on a circumferential side of the one-way ventilation valve; a through-hole is formed in the bottom of the body; a plurality of notches are formed in a circumferential side of the through-hole of the body, the flanges pass through the plurality of notches; and the body between the adjacent notches forms the clamping portions. During use, the inner liner is rotated firstly so that the flanges of the one-way ventilation valve correspond to positions of the notches, and the one-way ventilation valve penetrates through the body via the through-hole; and the inner liner is rotated again so that the flanges of the one-way ventilation valve are matched with the clamping portions to fix the one-way ventilation valve and the inner liner to the body and prevent the inner liner from moving up and down and/or rotating during operation.
Optionally, the one-way ventilation valve is bonded to the inner liner by hot-pressing or ultrasonic waves.
Optionally, a detachable first filter mesh is arranged on the cover; and the cover is provided with a lug boss for mounting the first filter mesh and a clamping buckle for fixing the first filter mesh. The detachable first filter mesh is configured to filter impurities in the fluid entering the inner liner, therefore the frequency of cleaning the body is effectively reduced, and the work of filtering the fluid such as the paint, and the like before use is also reduced, thereby reducing labor cost and increasing the working efficiency. Moreover, when the same kind fluid is used continuously, a user just need to replace the first filter mesh simply without replacing the inner liner, thereby reducing the frequency of replacing the inner liner and further reducing the waste of the fluid.
Optionally, an annular clamping groove is provided along a circumference of an upper portion of the body; and an elastic clamping hook matched with the annular clamping groove is arranged on the circumferential side of the cover.
Optionally, the cover is provided with a first connector for connecting with a spray gun or a plug for sealing the body. When the cover is used together with the spray gun, the cover is connected with the spray gun by the first connector. When the body is stilled filled with the fluid, but is not used temporarily and in short term, the body can be sealed by the plug so as to effectively protect the fluid in the body and prevent the fluid from being polluted by impurities in the air and volatilizing. In addition, after the body is filled with the paint, the body can be sealed by the plug firstly, then the body is inverted, the plug is removed after the paint in the body is shaken up, the cover is connected with the spray gun by the first connector, and then the body is inverted for use, thereby reducing a process that the fluid such as the paint and the like must be mixed separately before use every time, increasing the working efficiency and saving a container for mixing the paint.
Optionally, a filter head assembly is arranged between the cover and the spray gun; a first end of the filter head assembly is fixedly connected with the cover by threads; and a second end of the filter head assembly is fixedly connected with the spray gun by a second connector.
Optionally, the filter head assembly includes a first cover body connected with the cover and a second cover body connected with the second connector; and a detachable second filter mesh is arranged between the first cover body and the second cover body.
Optionally, the first cover body is fixedly connected with the second cover body by threads.
Optionally, the second filter mesh is fixed by compression of the first cover body and the second cover body.
The detachable inner liner is arranged in the body, so that the body can be repeatedly used and does not need to be cleaned frequently, thereby increasing the working efficiency. The one-way ventilation valve is arranged at the bottom of the inner liner, and the clamping portions for fixing the one-way ventilation valve are arranged at the bottom of the body, so that the fluid does not leak when the fluid is injected into the inner liner and the inner liner is not deformed and compressed when the fluid is discharged from the inner liner. In addition, the spray pot of the present disclosure is in the inverted state when being used, and is in the upright state when being filled with the paint, so as to avoid a problem that when the spray pot is in the inverted state during being filled with the paint an additional rack is required to support the body.
Exemplary embodiments of the present disclosure will be described below in detail with reference to drawings so that those ordinary skilled in the art may understand the above and other features of the present disclosure more clearly.
1 body; 11 through-hole; 12 opening; 13 clamping position; 14 annular clamping groove; 2 inner liner; 3 one-way ventilation valve; 31 flange; 32 lower cover; 33 base; 34 upper cover; 35 gasket; 36 groove; 37 spring; 4 cover; 41 lug boss; 42 clamping buckle; 43 elastic clamping hook; 5 first filter mesh; 6 first connector; 7 plug; 8 filter head assembly; 81 first cover body; 82 second cover body; 83 second filter mesh; and 9 second connector; 21 ventilation hole; 38 closing valve; 381 valve body; 382 valve plate; 383 valve hole; 15 annular lug stripe.
Technical solutions of the present disclosure are further described below in combination with
As shown in
By adopting a technical means that the detachable inner liner 2 is arranged in the body 1, the body 1 can be used without direct contact with the paint to achieve the purposes of reusability and no cleaning, and realize a technical effect of indirectly increasing working efficiency. A technical means that the one-way ventilation valve 3 is arranged at the bottom of the inner liner 2 is adopted to realize technical effects that the fluid does not leak when the fluid is injected into the inner liner 2 and the inner liner 2 is not deformed and compressed when the fluid is discharged from the inner liner 2. In addition, the spray pot provided by the present disclosure is in an inverted state when being used, and is in an upright state when being filled with the paint, so as to solve technical problems that the spray pot in the existing art is also in the inverted state when being filled with the paint and an additional rack is required to support the body 1 when the spray pot in the inverted state is filled with the paint.
In the present embodiment, the one-way ventilation valve 3 is configured as a valve body in which the outside air flows in one direction. When an air pressure in the inner liner 2 is lower than an external air pressure, the external air flows into the inner liner through the one-way ventilation valve 3. Optionally, the one-way ventilation valve 3 is bonded to the inner liner 2 by hot-pressing or ultrasonic waves. In the present embodiment, the one-way ventilation valve 3 is bonded to the inner liner 2 by hot-pressing. In other embodiments, the one-way ventilation valve 3 can also be bonded to the inner liner 2 in other manners such as ultrasonic waves and the like. The paint in the spray pot can be completely sprayed out during use by the one-way ventilation valve 3.
As shown in
As shown in
When the spray pot is placed uprightly and after liquid enters the body 1, the gasket 35 is completely fitted with the lower cover 32 so that the liquid cannot flow out of the body 1. When the spray pot is inverted, the surface of the upper cover 34 in contact with the gasket 35 is provided with the ridges, so when the air pressures inside and outside the body 1 are not consistent, the gasket 35 cannot be completely fitted with the upper cover due to the presence of the ridges, the air can enter the body, and the inner liner 2 is not extruded and deformed due to imbalance of the air pressures, so as to realize one-way ventilation.
In the present embodiment, a plurality of flanges 31 are arranged on a circumferential side of the one-way ventilation valve 3. A through-hole 11 is formed at the bottom of the body 1. A plurality of notches 12 are formed in a circumferential side of the through-hole 11 of the body 1, and the plurality of flanges 31 pass through the plurality of notches 12. Bottom walls of the body 1 between the adjacent notches 12 form the clamping portions 13. When the inner liner 2 is placed in the body 1, the inner liner 2 is rotated firstly so that the flanges 31 of the one-way ventilation valve 3 correspond to positions of the notches 12, and the one-way ventilation valve 3 passes through the body 1 through the through-hole 11; and the inner liner 2 is rotated again so that the flanges 13 of the one-way ventilation valve 3 are matched with the clamping portions 13 to fix the one-way ventilation valve 3 and the inner liner 2 to the body 1 and prevent the inner liner 2 from moving up and down and/or rotating during operation.
Optionally, the number of the flanges 31 is three, and the number of the notches 12 is also three. By rotating a structure of the clamping portion 13, the inner liner 2 is replaced more conveniently and it is ensured that the inner liner 2 is not compressed and deformed due to influence of the air pressure during use. Optionally, limiting protrusions (not shown) for limiting the flanges 31 are also arranged at the bottom of the body 1.
In the present embodiment, a detachable first filter mesh 5 is arranged on the cover 4. The cover 4 is provided with a lug boss 41 for mounting the first filter mesh 5 and clamping buckles 42 for fixing the first filter mesh 5. By arranging the detachable first filter mesh 5 on the cover 4, impurities in the fluid entering the inner liner 2 are filtered, the frequency of cleaning the body 1 is effectively reduced, and also work of filtering the fluid such as the paint and the like before use relative to the existing art is reduced, thereby reducing labor cost and increasing the working efficiency. Moreover, when the same kind fluid is used continuously, a user can just simply replaces the first filter mesh 5 without replacing the inner liner 2, thereby reducing the frequency of replacing the inner liner 2 and further reducing the waste of the fluid. However, when the same fluid is used for a relatively long term or the fluid needs to be replaced with another fluid timely, the inner liner 2, the first filter mesh 5 and the cover 4 need to be replaced at the same time. Optionally, a mesh size of the first filter mesh 5 can be selected as needed. Optionally, the first filter mesh 5 is formed by bonding a rubber ring to a mesh by hot-pressing.
In the present embodiment, an annular clamping groove 14 is provided along a circumference of an upper portion of the body 1; and an elastic clamping hook 43 matched with the annular clamping groove 14 is arranged on the circumferential side of the cover 4. A first connector 6 for connecting with the spray gun is arranged on the cover 4. When the cover is used together with the spray gun, the cover 4 is connected with the spray gun by the first connector 6. The type of the first connector 6 can be selected according to the type of the spray gun to be matched.
In the present embodiment, scales are arranged on the body 1, so that the amount of the fluid can be measured as needed when the body is used.
The present embodiment is based on the embodiment 1. The present embodiment and the embodiment 1 are different in that:
The present embodiment is based on the embodiment 1. The present embodiment and the embodiment 1 are different in that:
In the present embodiment, the filter head assembly 8 includes a first cover body 81 connected with the cover 4 and a second cover body 82 connected with the second connector 9. A detachable second filter mesh 83 is arranged between the first cover body 81 and the second cover body 82. The second filter mesh 83 is tightly fitted with the first cover body 81 and the second cover body 82. The first cover body 81 is fixedly connected with the second cover body 82 by threads. Optionally, the second filter mesh 83 is fixed by compression of the first cover body 81 and the second cover body 82. The second filter mesh 83 is replaceable. A mesh size of the second filter mesh 83 can be selected as needed. Optionally, the second filter mesh 83 is formed by bonding a rubber ring to a mesh by hot-pressing.
A technical means that the filter head assembly 8 is arranged between the cover 4 and the spray gun is adopted to achieve the purpose of filtering impurities in the fluid, effectively reduce the frequency of cleaning the body 1, and increase the working efficiency. Moreover, when the same fluid is used, a user just need replace the filter head assembly 8 without replacing the inner liner 2 immediately, thereby reducing the frequency of replacing the inner liner 2 and further reducing the waste of the fluid. However, when the same fluid is used for a relatively long time or the fluid needs to be replaced with another fluid timely, the inner liner 2, the cover 4 and the filter head assembly 8 need to be replaced timely.
In addition, the filter head assembly 8 provided by the present disclosure can also be used together with an ordinary cup and a spray gun to achieve the purpose of filtering the impurities in the fluid.
Based on the above embodiments, as shown in
When the closing valve 38 provided by the present embodiment is used, the closing valve 38 is firstly closed before the fluid is injected into the spray pot. When the fluid (for example, the paint is ejected outwards) is ejected out of the spray pot from the inner liner 2, the closing valve 38 is opened after the body is inverted or tilted, which is convenient for the air to enter from the ventilation hole 21 when the fluid flows out of the cover. When the fluid is stored by the spray pot, the closing valve 38 can completely prevent the fluid from leaking from the ventilation hole 21. The closing valve 38 may be made of a rubber or the like, for example, the closing valve 38 may be a rubber plug. Of course, the closing valve may be made of other materials as long as the ventilation hole is tightly sealed.
The ventilation hole 21 may be located on the bottom of the inner liner 2, or located on other area of the inner liner 2 such as a side portion.
In one embodiment, the closing valve 38 includes a valve body 381 and a valve plate 382. The valve body 381 is connected to the inner liner 2. And the valve body 381 may be connected to the inner liner 2 by ultrasonic welding, or hot pressing, or the like, which is not limited by the present embodiment. The valve body 381 is provided with a valve hole 383. The valve hole 383 is communicated with the ventilation hole 21. One end of the valve plate 382 is hingedly connected to the valve body 381, and the valve plate 382 is capable of closing the valve hole 383. A protrusion portion is arranged protruding from an inner end surface of the valve plate 382. When the valve plate 382 is rotated towards the valve hole 383, the protrusion portion of the valve plate 382 may be inserted into the valve hole 383 and block the valve hole 383. Another end of the valve plate 382 may be tilted upwardly, which is convenient for the user of the spray pot to open or close the valve hole 383 from the another end of the valve plate 382.
In summary, whether the closing valve or the one-way ventilation valve is adopted or both the closing valve and the one-way ventilation valve are provided, a closing member capable of closing the ventilation hole 21 is arrange on the inner liner 2. After the ventilation hole 21 is closed by the closing member, the fluid can be prevented from leaking when the fluid is injected into the inner liner 2 from the opening of the body 1. When fluid needs to flow out (flowing out from a side of the cover), the closing member is in an opening state, to make sure that the air may pass through the ventilation hole 21 and prevent the inner liner 2 from being deformed. The closing member is connected to the inner liner 2. And the closing member is connected to the inner liner 2 by ultrasonic welding, or hot pressing, or the like, which is not limited by the present embodiment.
In the present embodiment and the above embodiments, the ventilation hole 21 is located on the bottom of the inner liner 2. Similar to the above embodiments, a plurality of flanges 31 are arranged protruding from the closing member. As shown in
Accordingly, for the spray pot provided by the present embodiment, whether only the closing valve is adopted or both the closing valve and the one-way ventilation valve are adopted, other structures may be combined with the above embodiments in the event of consistency. For example, the structures of the cover and the body and the connection relationship therebetween may be arranged by reference to the corresponding structures of the above embodiments. In addition, for the spray pot provided by the present embodiment, the detachable first filter mesh may be arranged on the cover, or the plug for sealing the body may be arranged on the cover, or the filter head assembly may be arranged between the cover and the spray gun, or both the first filter mesh and the filter head assembly may be provided, or the like. For example, both the first filter mesh and the filter head assembly are provided in the spray pot as shown in
In the present embodiment, an elastic clamping hook 43 cooperated with an annular clamping groove is arranged on a circumferential side of the cover. Four elastic clamping hook 43 may be provided and distributed on the circumferential side of the cover.
In the present embodiment, the connector may be adjusted according to the different spray gun. The connector may be connected to an outer wall of the connector in a fastening manner, that is, a thread is arranged on the cover, and an inner wall groove is arranged on the connector. As shown in
In the present embodiment, an annular lug stripe is arranged protruding from the bottom of the body. In the case that a small amount of the paint flows out of the ventilation hole 21, the annular lug stripe may prevent the paint from flowing outwards.
A paint spraying system is further provided by the present embodiment, configured to spray paint. The spray painting system may include the spray gun and the spray pot provided by the present embodiment and the above embodiments. The spray gun is communicated with the cover and configured to spray the paint. For the paint spraying system using the above spray pot, the inner liner can be disassembled quickly during the paint spraying operation, so that the body can be reused without cleaning and the efficiency of the paint spraying is improved.
Liquid (such as paint) can flow out of the spray pot of the present disclosure at a constant speed. The liquid can substantially completely flow out of the spray pot with fewer residues and the inner liner is not deformed. The above contents are only preferred embodiments of the present disclosure. Those ordinary skilled in the art can change the specific embodiments and an application scope based on concepts of the present disclosure. The contents of the description should not be understood as limits to the present disclosure.
The detachable inner liner is arranged in the body of the spray pot of the present disclosure, the closing member is arranged at the bottom of the inner liner, and the clamping portions for fixing the closing member are arranged at the bottom of the body, so that the body achieve the purposes of reusability and no cleaning, thereby increasing the working efficiency.
This application is a Continuing-in-part Application of co-pending international patent application number PCT/CN2017/101783, filed on Sep. 14, 2017 which claims priority to Chinese patent application No. 201720607912.4 filed on May 27, 2017, disclosures of both of which are incorporated herein by reference in their entireties.
| Number | Name | Date | Kind |
|---|---|---|---|
| 3934746 | Lilja | Jan 1976 | A |
| 6435426 | Corp | Aug 2002 | B1 |
| 6953155 | Joseph | Oct 2005 | B2 |
| 7036752 | Hsiang | May 2006 | B1 |
| 7766250 | Kosmyna | Aug 2010 | B2 |
| 20040164182 | Joseph et al. | Aug 2004 | A1 |
| 20040217201 | Ruda | Nov 2004 | A1 |
| 20060196891 | Gerson et al. | Sep 2006 | A1 |
| 20130168468 | Biagio et al. | Jul 2013 | A1 |
| Number | Date | Country |
|---|---|---|
| 2114634 | Sep 1992 | CN |
| 1244141 | Feb 2000 | CN |
| 1723088 | Jan 2006 | CN |
| 201020437 | Feb 2008 | CN |
| 202506553 | Oct 2012 | CN |
| 204710607 | Oct 2015 | CN |
| 106423612 | Feb 2017 | CN |
| 0064695 | Nov 1982 | EP |
| 2001508698 | Jul 2001 | JP |
| 2008202624 | Sep 2008 | JP |
| 2010017716 | Jan 2010 | JP |
| 2015148173 | Aug 2015 | JP |
| 2016508870 | Mar 2016 | JP |
| 2003045575 | Jun 2003 | WO |
| 2005077543 | Aug 2005 | WO |
| 2006065850 | Jun 2006 | WO |
| Entry |
|---|
| International Search Report and Written Opinion from International Application No. PCT/CN2017/101783, dated Feb. 26, 2018. |
| Number | Date | Country | |
|---|---|---|---|
| 20200094276 A1 | Mar 2020 | US |
| Number | Date | Country | |
|---|---|---|---|
| Parent | PCT/CN2017/101783 | Sep 2017 | US |
| Child | 16697702 | US |
