JP6627158B1 - Steam filter - Google Patents

Abstract

A turbine steam filter is disclosed. A lower cylindrical housing, an upper cylindrical housing, a filter element unit, an upwardly opened storage cavity installed in the lower cylindrical housing, and a downwardly opened rotating cavity in the upper cylindrical housing, A gear cavity is installed at the top of the rotating cavity, a pump chamber is installed on the right side of the rotating cavity, and an edge extending outward is installed at an opening of the lower cylindrical housing and the upper cylindrical housing. In the lower cylindrical housing and the upper cylindrical housing are provided four through-holes symmetrical with respect to the center of the center thereof, and the lower cylindrical housing and the upper cylindrical housing are each provided with a concave groove at an end face at an opening thereof. An annular weatherstrip is installed and clamped between the grooves. [Selection diagram] Fig. 1

Description

The present invention addresses the field of filters, and in particular, is a steam filter.

In today's society, where science and technology is growing rapidly, at the same time that people use filters, there is a variety of different degrees of need, especially the cleaning work is the most obvious, and people use filters for commonly used filters. The work requires disassembly, removal of the filter element unit and cleaning one by one, and this process takes time and labor and affects the work efficiency, so that the steam filter was invented, and it was necessary to dismantle and clean. It can be washed automatically without any need, greatly increasing the work efficiency and high practicality.

Chinese Patent Application No. 102454439

It is an object of the present invention to provide a steam filter, which can solve the above problems in the current art.

The present invention is realized through the following technical plan: a steam filter of the present invention comprises a lower cylindrical housing, an upper cylindrical housing, a filter element unit, an upwardly open storage cavity installed in the lower cylindrical housing, and the upper cylinder. A rotating cavity that opens downward in the housing, a gear cavity located above the rotating cavity is installed in the upper cylindrical housing 128, and a pump chamber is installed on the right side of the rotating cavity; An edge extending outward is installed in each of the openings of the lower cylinder housing and the upper cylinder housing, and six connection holes symmetrical about the center of the lower cylinder housing and the upper cylinder housing penetrate the edge. Installed on the end surface at the opening of the lower cylindrical housing and the upper cylindrical housing. A concave groove is also installed, a ring gasket is clamped between the concave grooves, an exhaust pipe extending left and right extends through the left end wall of the lower cylindrical housing, and a steam pipe joint is provided at the left end of the exhaust pipe. Is fixedly connected, a first annular groove is annularly installed in the inner wall of the storage cavity located at the lower right of the exhaust pipe, and a trapezoidal ring is slidably fitted in the first annular groove. Connected, a header tank is screwed into the bottom of the lower cylindrical housing, a water collecting cavity is installed in the header tank, and the water collecting cavity passes through the left end wall of the water collecting cavity and drain pipe which extends is installed so as to communicate with the first valve is installed in the drain pipe, communicating with filter passages extending vertically between said housing cavity and said water collecting cavity The filter network is screwed into the connection between the bottom end of the filter passage and the header tank, and an intake pipe extending vertically extends through the top wall of the upper cylindrical housing. A joint similar to the function and structure of the steam pipe joint is fixedly connected to an upper end of the intake pipe, a second valve is installed in the intake pipe, and a top wall of the upper cylindrical housing has A motor located at the right end is fixedly connected, an output end of the motor penetrates a top wall of the upper cylindrical housing, and a first spur gear located in the gear cavity is fixed at an output end of the motor. A first rotating shaft and a second rotating shaft extending vertically are rotatably mounted in a wall between the gear cavity and the rotating cavity, and a top end of the first rotating shaft. The first A second spur gear that can mesh with the spur gear is fixedly connected, and a rotating device located in the rotating cavity is fixedly connected to a bottom end of the first rotating shaft, and the second rotating shaft is A third spur gear that can mesh with the first spur gear is fixedly connected to the top, and a first bevel gear located in the rotating cavity is fixedly connected to a bottom end of the second rotating shaft. A third rotating shaft extending left and right is rotatably connected between the rotating cavity and the pump chamber, and a left end of the third rotating shaft can mesh with the first bevel gear. A double bevel gear is fixedly connected, a pump body located in the pump chamber is fixedly connected to a right end of the third rotation shaft, and a right inner wall of the pump chamber is provided in the pump chamber. Penetrate and right Water inlet pipe extending is installed so as to communicate, drain pipe between the rotary cavity and said pump chamber is installed communicating, sprinkler head located in said rotating cavity and the other end of the drainage tube is fixed And a second annular groove located at a lower end of the pump chamber is provided on an inner wall of the rotating cavity.

As a preferred technical plan , the rotating device includes a rotating disk fixedly connected to the bottom of the first rotating shaft, and outside the edge of the rotating disk is symmetric about the rotating disk and extends outward. four rotating rod is fixedly connected to said the other end of the rotating rod connecting rod which extends vertically is fixedly connected, on the outer end surface of the connecting rod rotatable with the second annular groove trapezoidal shaped blocks that can Rukoto is connected is fixedly connected to the filter element unit is installed between the keystone ring and the trapezoidal block, useful thereby driving the filter element unit rotate when washing It is.

As a selected technical plan , the filter element unit includes a ring installed vertically between the trapezoidal block and the trapezoidal ring, and six support rods are fixedly provided between the upper and lower two rings. A third annular groove is annularly installed on the outer circle of the two upper and lower rings, and an annular rubber strip is installed in the third annular groove. The trapezoidal block and the trapezoidal ring are in contact with each other by the annular rubber strips installed, and a thin filter net is surrounded and installed outside the support rod, and a thick filter net is surrounded inside the support rod. And a steam passage is installed inside the thick filter network, which is convenient for filtering impurities of different sizes in the steam.

As a selected technical plan, a heat insulating layer is fixedly connected to the inner walls of the storage cavity and the rotating cavity, thereby reducing liquefaction during steam filtration.

The beneficial effects of the present invention are as follows: the structure of the present invention is simple, convenient to use, the whole device has a function of automatically cleaning in addition to the filtering function, and by the cooperation of each mechanism, The different operations required are realized, saving a lot of time in cleaning the whole equipment in every use process and greatly improving the work efficiency of the equipment, and at the same time, the thermal insulation layer installed greatly enhances the function of the equipment Enhance.

For ease of explanation, the present invention will be described in detail with reference to the following specific examples and attached drawings.

FIG. 1 is a schematic diagram of the overall configuration of the steam filter of the present invention. FIG. 2 is a schematic diagram of the configuration of "A-A" in FIG. FIG. 3 is a schematic diagram of the configuration of “BB” in FIG. FIG. 4 is a local enlarged schematic diagram of “C” in FIG.

As shown in FIGS. 1 to 4, for the sake of convenience, the following directions are defined as follows: the up, down, left, right, front and rear directions described below coincide with the up, down, right, left, front and back directions of FIG. The steam filter of the present invention includes a lower cylindrical housing 100, an upper cylindrical housing 128, a filter element unit and an upwardly opened storage cavity 135 installed in the lower cylindrical housing 100, and a lower cavity in the upper cylindrical housing 128. The upper cylindrical housing 128 is provided with a gear cavity 121 located above the rotating cavity 137, a pump chamber 145 is provided on the right side of the rotating cavity 137, both the opening of the cylindrical housing 100 and the upper cylindrical housing 128 is installed edge 118 that extends outwardly, six of the said edges 118 symmetrically about the circle center of the upper cylindrical housing 128 and the lower cylindrical housing 100 One of the connection hole 117 is installed through the bottom A groove 116 is provided on each of the end surfaces of the column housing 100 and the upper column housing 128 at the openings, and a ring gasket 119 is clamped between the grooves 116 so as to be formed on the left end wall of the lower column housing 100. An exhaust pipe 102 extending left and right is installed therethrough. A steam pipe joint 138 is fixedly connected to the left end of the exhaust pipe 102, and the inside of the storage cavity 135 located at the lower right of the exhaust pipe 102 The first annular groove 101 is annularly installed, a trapezoidal ring 103 is slidably connected in the first annular groove 101, a header tank 107 is screwed to the bottom of the lower cylindrical housing 100, and the header collecting cavity 108 is placed in the tank 107, the left of the current water cavity 108 into the water collecting cavity 108 And through the wall drain pipe 106 extending to the left it is installed so as to communicate with the first valve 105 is installed in the drain pipe 106, up and down between the housing cavity 135 and the water collecting cavity 108 An extending filter passage 110 is provided for communication, a filter net 109 screwed into a connection between the bottom end of the filter passage 110 and the header tank 107 is fitted inside, and a top wall of the upper cylindrical housing 128 is vertically mounted. A fitting 150 having the same function and structure as the steam pipe joint 138 is fixedly connected to the upper end of the suction pipe 126. A second valve 127 is connected to the suction pipe 126. A motor 124 located at the right end of the intake pipe 126 is fixedly connected to the top wall of the upper cylindrical housing 128. An output end of the motor 124 penetrates a top wall of the upper cylindrical housing 128, and a first spur gear 123 located in the gear cavity 121 is fixedly connected to an output end of the motor 124. A first rotating shaft 129 and a second rotating shaft 141 extending vertically are rotatably mounted in a wall body between the rotating shaft 121 and the rotating cavity 137. A second spur gear 125 that can mesh with the first spur gear 123 is fixedly connected, and a rotating device located in the rotating cavity 137 is fixedly connected to a bottom end of the first rotating shaft 129, A third spur gear 122, which can mesh with the first spur gear 123, is fixedly connected to the top of the second rotating shaft 141. A first bevel gear 140 located in the rotating cavity 137 is fixedly connected to the bottom end of the shaft 141, and a third rotating shaft extending left and right extends between the rotating cavity 137 and the pump chamber 145. 142 is rotatably connected, wherein the left end of the third rotating shaft 142 second bevel gear 139 can be meshed with the first bevel gear 140 is fixedly connected, the right end of the third rotating shaft 142 , A pump body 146 located in the pump chamber 145 is fixedly connected thereto, and a water inlet pipe 144 penetrating through the right inner wall of the pump chamber 145 and extending to the right communicates with the pump chamber 145. are installed such, drain pipe 120 between the pump chamber 145 and the rotating cavity 137 is installed communication, the other end of the drain pipe 120 into the rotating cavity 137 Sprinkler head 131 location is fixedly connected, on the inner wall of the rotating cavity 137 second annular groove 147 is located at the lower end of the pump chamber 145 is installed.

Advantageously , said rotating device comprises a turntable 132 fixedly connected to the bottom of said first rotary shaft 129, outside the edge of said turntable 132 is symmetric about said turntable 132 and Four rotating rods 133 extending outward are fixedly connected, a connecting rod 130 extending vertically is fixedly connected to the other end of the rotating rod 133, and an outer end face of the connecting rod 130 is connected to the second end. two annular grooves 147 and is rotatably connected trapezoidal block 148 that may Rukoto is fixedly connected, said filter element unit is installed between the keystone ring 103 and the trapezoidal block 148, when the washing It is convenient to drive and rotate the filter element unit.

Advantageously, said filter element unit includes a ring 113 that is installed between the trapezoidal block 148 vertically symmetrically with the trapezoidal ring 103 and the support bar 114 between the upper and lower two of the ring 113 is six The third annular concave groove 104 is annularly installed in the outer circle of the upper and lower two rings 113, and an annular rubber strip 112 is installed in the third annular concave groove 104. The upper and lower rings 113 are in contact with the trapezoidal block 148 and the trapezoidal ring 103 by the annular rubber strips 112 provided respectively, and a thin filter network 115 is surrounded outside the support rod 114. A thick filter net 136 is installed inside the support rod 114, and a steam filter is installed inside the thick filter net 136. Passage 149 is installed, it is convenient to filtering the different sizes of the impurities are in the vapor.

Beneficially, a heat retaining layer 111 is fixedly connected to the inner walls of the storage cavity 135 and the rotating cavity 137, respectively, to reduce liquefaction during steam filtration.

When the equipment of the present invention is in the initial state, the motor 124 is stopped, the first valve 105 and the second valve 127 are closed, and no steam is introduced into the steam passage 149, and No impurities are attached to the filter net 136, the thin filter net 115, and the filter net 109, the rotating device is in a stationary state, no water is contained in the water collecting cavity 108, and the entire inside of the device is basically In a vacuum environment.

When working with the equipment of the present invention, steam is introduced through the intake pipe 126 and after reaching the steam passage 149, the impurities therein are filtered by the thick filter net 136 and the thin filter net 115, Finally, the impurities discharged from the exhaust pipe 102 are filtered by the thick filter net 136 and the thin filter net 115, and adhere to the filter or fall into the filter passage 110 and adhere to the filter net 109. At the same time, the liquefied water also passes through the filter passage 110, is filtered by the filter network 109, flows into the water collecting cavity 108, and immediately before the water in the water collecting cavity 108 becomes full, the first valve 105 is opened, and water is returned from the drain pipe 106 to the steam chamber and reused.

When the work is completed and needs to be cleaned, start the apparatus, start the motor 124, the motor 124 drives and rotates the first spur gear 123, and drives and rotates the second spur gear 125, The second spur gear 125 drives and rotates the rotary disk 132 by the first rotary shaft 129, and the rotary disk 132 drives and rotates the connecting rod 130 by the rotary rod 133, and drives the trapezoid block 148. Rotating along the second annular groove 147, and driving and rotating the filter element unit, at the same time, the first spur gear 123 drives and rotates the third spur gear 122, and the second rotation The first bevel gear 140 is driven and rotated by the shaft 141, and the second bevel gear 139 is driven and rotated. The second bevel gear 139 drives and rotates the pump body 146 by the third rotating shaft 142, the pump body 146 pumps washing water from the inlet pipe 144 to the drain pipe 120, and the sprinkler head The water jetted from 131 is used for cleaning, and the water used for cleaning flows to the water collecting cavity 108 after being filtered by the filter passage 110, and the cleaning water in the water collecting cavity 108 is used for supplementary production of steam. Or used in other cases.

The beneficial effects of the present invention are as follows: the structure of the present invention is simple, convenient to use, the whole device has a function of automatically cleaning in addition to the filtering function, and by the cooperation of each mechanism, The different operations required are realized, saving a lot of time in cleaning the whole equipment in every use process and greatly improving the work efficiency of the equipment, and at the same time, the thermal insulation layer installed greatly enhances the function of the equipment Enhance.

What has been described above is merely specific embodiments of the present invention, but the scope of protection of the present invention is not limited thereto. Changes and replacements conceived without all creative work are covered by the protection scope of the present invention. Therefore, the scope of protection of the present invention is based on the scope of protection to which the claim is limited.

Claims (1)

An upper cylindrical housing including a lower cylindrical housing, an upper cylindrical housing, a filter element unit, an upwardly opened storage cavity installed in the lower cylindrical housing, and a downwardly opened rotating cavity in the upper cylindrical housing. In 128, a gear cavity located above the rotating cavity is installed, a pump chamber is installed on the right side of the rotating cavity, and both extend outward to openings of the lower cylindrical housing and the upper cylindrical housing. An edge is installed, and at the edge, six connection holes that are symmetrical about the centers of the lower cylindrical housing and the upper cylindrical housing are penetrated and installed, and an end face at an opening between the lower cylindrical housing and the upper cylindrical housing. Are provided with grooves, and a ring gasket is clamped between the grooves. An exhaust pipe extending left and right extends through the left end wall of the lower cylindrical housing, and a steam pipe joint is fixedly connected to the left end of the exhaust pipe. A first annular groove is annularly installed in the inner wall, a trapezoidal ring is slidably connected in the first annular groove, a header tank is screwed to the bottom of the lower cylindrical housing, and the header tank is A water collecting cavity is installed in the water collecting cavity, and a drain pipe that penetrates a left end wall of the water collecting cavity and extends to the left is installed in the water collecting cavity, and a first valve is connected to the water drain pipe. Is installed, and a filter passage extending vertically is provided between the water collecting cavity and the storage cavity, and a screw is provided at a connection between the bottom end of the filter passage and the header tank. A filter network is fitted inside, and an intake pipe extending vertically is penetrated through the top wall of the upper cylindrical housing, and a joint similar to the function and structure of the steam pipe joint is fixed to the upper end of the intake pipe. A second valve is installed in the intake pipe, a motor located at a right end of the intake pipe is fixedly connected to a top wall of the upper cylindrical housing, and an output end of the motor is connected to the upper end. A first spur gear located in the gear cavity is fixedly connected to the output end of the motor through the top wall of the cylindrical housing, and is provided in the wall between the gear cavity and the rotating cavity. A first rotating shaft and a second rotating shaft extending vertically are rotatably mounted, and a second spur gear that can mesh with the first spur gear is fixedly connected to a top end of the first rotating shaft. Sa A rotating device located in the rotating cavity is fixedly connected to a bottom end of the first rotating shaft, and a third portion capable of meshing with the first spur gear is fixed to a top of the second rotating shaft. A spur gear is fixedly connected, a first bevel gear located in the rotating cavity is fixedly connected to a bottom end of the second rotating shaft, and a left and right side is provided between the rotating cavity and the pump chamber. A third rotating shaft is rotatably connected to the third rotating shaft, and a second bevel gear that can mesh with the first bevel gear is fixedly connected to a left end of the third rotating shaft. A pump body located in the pump chamber is fixedly connected to the right end of the pump chamber, and a water inlet pipe extending through the right inner wall of the pump chamber and extending to the right communicates with the pump chamber. It is the rotation calibration and the pump chamber A drainpipe is communicated between the tee and a sprinkler head located in the rotary cavity is fixedly connected to the other end of the drainpipe, and an inner wall of the rotary cavity is connected to a lower end of the pump chamber. A second annular groove is located and the rotating device includes a rotating disk fixedly connected to a bottom of the first rotating shaft, and the outer periphery of the rotating disk is symmetric about the rotating disk. And four rotating rods extending to the outside are fixedly connected, a connecting rod extending vertically is fixedly connected to the other end of the rotating rod, and the second annular member is connected to an outer end surface of the connecting rod. trapezoidal shaped blocks that can Rukoto is rotatably connected to the groove is fixedly connected, said filter element unit is installed between the keystone ring and the trapezoidal block, said filter element unit is the vertically symmetrically Including a ring installed between the shaped block and the trapezoidal ring, six support rods are fixedly installed between the upper and lower two rings, and the outer circle of the upper and lower two rings is A third annular groove is annularly installed, and an annular rubber strip is installed in the third annular groove, and the rings on the upper and lower sides are respectively provided by the annular rubber strips installed in the trapezoidal block and the trapezoidal block. It is in contact with the trapezoidal ring, a thin filter net is installed outside the support rod, and a thick filter net is installed inside the support rod, and a steam passage is installed inside the thick filter net. A steam filter is provided, wherein a heat insulating layer is fixedly connected to inner walls of the storage cavity and the rotating cavity.

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