JP6589196B1 - Dust remover - Google Patents

Abstract

The present invention discloses a convenient dust collector. SOLUTION: Including a box, a square block is installed at the same time at the four corner bottoms of the box, a rotating wheel is installed at the bottom of all the corner blocks, and a separation housing is installed on the box, A symmetrical first housing is installed so as to communicate with the left and right inner walls of the separation housing, and a symmetrical second housing is installed so that the first housing communicates with an inner wall away from the center of the separation housing. The third housing is installed so as to communicate with the rear end of the separation housing. [Selection] Figure 4

Description

The present invention relates to the field of industrial dust collection technology, and specifically to a dust removing device.

A lot of industrial sewage is generated in industrial production. After strict treatment operation of these industrial sewage, the discharge standard is reached, and there are many particulate pollutants in the sewage treatment process. There is a serious impact, thus providing a dust removal device and initial arrangement of solid particles in sewage to make late treatment operations convenient.

Chinese Patent Application No.105040646 Specification

The present invention provides a dust removal device for the necessary technical problem to be solved, which can solve the above current technical problem.

The present invention employs the following technical scheme. The dust removing apparatus of the present invention includes a box, and a square block is installed at the same time at the four square bottoms of the box, a rotating wheel is installed at the bottom of all the square blocks, and a separation cavity is installed at the box. The first cavity that is symmetrically connected to the left and right inner walls of the separation cavity is installed, and the second cavity is provided on one side far from the separation cavity among the first cavities that are symmetrically installed on the left and right sides. A third cavity is installed to communicate with a rear end of the separation cavity, a first strainer is installed in the separation cavity, a second strainer is installed at a lower end of the first strainer, and the second strainer is installed. A flow guide box is fixedly connected to a lower end of the flow guide pipe, and a flow guide pipe is installed so as to communicate between a bottom portion of the flow guide box and the first cavity. A drainage groove is installed to communicate with the inner wall of the front end of the cavity, and the other end of the drainage groove passes through the front end surface of the box so that the first scraper can slide on the top end surface of the first strainer. The first swash plate that is engaged and connected and extends symmetrically to the left and right ends of the first strainer is fixedly connected so that the second scraper can slide on the top of the second strainer. The second swash plate is symmetrically installed on both left and right ends of the second strainer , and one side of the second swash plate that is far from the second strainer is inserted into the second cavity. The conductive block located at the rear end of the flow guide box is slidably engaged with and connected to the bottom end surface of the second strainer, and a first conductive groove extending vertically is installed in the conductive block. A second conductive lever that is positioned below the first conductive groove and extends to the left and right is slidably engaged with the conductive block, and the left and right ends of the second conductive lever are connected to the left and right ends of the separation cavity. An E-type sliding block located at the rear end of the first scraper is slidably engaged with and connected to the rear end inner wall of the separation cavity. The rear end of the second scraper and the conduction block are fixedly connected to the front end of the E-type sliding block, and a first driving device is installed on the top inner wall of the second cavity. The first rotating shaft extending downward is connected so as to be able to transmit power, and a blade to be crushed around the first rotating shaft is fixedly connected. Board installed The third swash plate is fixedly connected to the second cavity at one end where the third swash plate is separated from the center of the second cavity, and a squeezing roller located at the lower end of the third swash plate is symmetrical to the second cavity. A second rotary shaft that is installed and extends back and forth in the squeezing roller, and a rear end extends through the inner wall of the rear end of the second cavity and extends to the third cavity, and is fixedly connected to the second rotary shaft The front end of the second cavity is rotatably attached to the box through a bearing, and a second transmission groove is provided in communication with the bottom of the second cavity, and the collection box is slidable in the second conduction groove. And a second driving device is installed on the inner wall of the rear end of the third cavity, extends forward to the second driving device, passes through the inner wall of the third end of the third cavity, and enters the separation cavity. The 4th rotating shaft is moving Is connected so as to be able to transmit, the fourth rotating shaft is rotatably attached to the inner wall of the front end of the third cavity through a bearing, and a cam is fixedly connected to the front end of the fourth rotating shaft, A first transmission lever extending to the first transmission groove is installed in front of the convex portion of the cam, a turbine is engaged with and connected to the fourth rotation shaft, and a third rotation shaft extending to the left and right is fixed to the turbine. And both left and right ends of the third rotating shaft are rotatably attached to the box through bearings, and a double-sided conical pulley is fixedly connected to the third rotating shaft symmetrically, and the double-sided cone A first conical pulley is engaged and connected to the shaped pulley, and the first conical pulley is fixedly connected to the rear end of the second rotating shaft.

As a preferred technical solution, a screw is installed at a site where the fourth rotating shaft contacts the turbine.

As a preferred technical solution, the first filtration hole of the first strainer is larger than the second filtration hole of the second strainer.

The beneficial effect of the present invention is that when the equipment according to the present invention is in an initial state, the first scraper is positioned at the leftmost end of the first strainer, and the second scraper is positioned at the leftmost end of the second strainer. The cam is in a horizontal state, the first conduction lever is located at the center of the first conduction groove, the rear end face of the collection box is closely attached to the box, and the drainage groove is closed Is in a state.

When used, the apparatus is connected to a sewage pipe, the drainage groove is opened, the second drive is started, and in conjunction with the first scraper, the second scraper is connected to the first and second strainers, respectively. And reciprocating, starting the first drive and rotating in conjunction with the crushing blade, starting the second drive and rotating in conjunction with the squeezing roller.

After use, it is convenient to control the first driving machine and the second driving machine to stop the rotation, collect the solid particles in the collection box, and put them together.

The structure of the equipment according to the present invention is simple, the operation is convenient, it is convenient to effectively filter solid particles in industrial sewage, and it is convenient to treat industrial sewage effectively in the latter period, which increases the processing efficiency. Increase.

The beneficial effect of the present invention is that when the equipment according to the present invention is in an initial state, the first scraper is positioned at the leftmost end of the first strainer, and the second scraper is positioned at the leftmost end of the second strainer. The cam is in a horizontal state, the first conduction lever is located at the center of the first conduction groove, the rear end face of the collection box is closely attached to the box, and the drainage groove is closed Is in a state.

When used, the apparatus is connected to a sewage pipe, the drainage groove is opened, the second drive is started, and in conjunction with the first scraper, the second scraper is connected to the first and second strainers, respectively. And reciprocating, starting the first drive and rotating in conjunction with the crushing blade, starting the second drive and rotating in conjunction with the squeezing roller.

After use, it is convenient to control the first driving machine and the second driving machine to stop the rotation, collect the solid particles in the collection box, and put them together.

The structure of the facility according to the present invention is simple, the operation is convenient, it is convenient to effectively filter the solid particles in industrial sewage, and the industrial sewage is effectively treated in the latter period, which increases the processing efficiency. Increase.

FIG. 1 is a schematic diagram of the overall structure of the dust removing apparatus of the present invention. FIG. 2 is a cross-sectional view in the AA direction in FIG. FIG. 3 is a cross-sectional view in the BB direction in FIG. FIG. 4 is a bottom view of FIG.

As shown in FIGS. 1 to 4, the dust removing apparatus of the present invention includes a box body 100, and corner blocks 188 are simultaneously installed at the four corner bottoms of the box body 100, and rotating wheels are installed at the bottoms of all the corner blocks 188. 189 is installed, a separation cavity 110 is installed in the box body 100, a first cavity 111 that is symmetrical so as to communicate with the left and right inner walls of the separation cavity 110 is installed, and the left and right sides are symmetrically installed. A second cavity 112 is installed on one side of the first cavity 111 far from the separation cavity 110, and a third cavity 113 is installed so as to communicate with the rear end of the separation cavity 110. One strainer 135 is installed, a second strainer 136 is installed at the lower end of the first strainer 135, a flow guide box 137 is fixedly connected to the lower end of the second strainer 136, and the bottom of the flow guide box 137 The flow guide pipe 143 is installed so as to communicate between the first cavities 111, the drainage groove 101 is installed so as to communicate with the inner wall of the front end of the first cavity 111, and the other end of the drainage groove 101 is connected to the box. The first scraper 131 is slidably engaged with and connected to the top end surface of the first strainer 135 through the front end surface of the body 100, and the first strainer 135 is symmetrically connected to the left and right ends of the first strainer 135. A first swash plate 133 extending into the cavity 111 is fixedly connected, and a second scraper 132 is slidably engaged with and connected to the top of the second strainer 136, and both left and right ends of the second strainer 136 are connected. The second swash plate 134 is installed symmetrically, and one side of the second swash plate 134 that is far from the second strainer 136 is inserted into the second cavity 112, and the second strainer 136 has the bottom end surface thereof at the bottom end surface. Located at the rear end of the flow guide box 137 The conductive block 140 is slidably engaged and connected, and a first conductive groove 142 extending vertically is installed in the conductive block 140, and the conductive block 140 is positioned below the first conductive groove 142. The second conductive lever 141 extending from side to side is slidably engaged and connected. The left and right ends of the second conductive lever 141 are fixedly connected to the inner walls of the left and right ends of the separation cavity 110, and the separation is performed. An E-type sliding block 201 positioned at the rear end of the first scraper 131 is slidably engaged with and connected to the inner wall of the rear end of the cavity 110 so that the first scraper 131 and the second scraper 132 are slidably engaged. The rear end of the conduction block 140 is fixedly connected to the front end of the E-type sliding block 201, and a first driver 121 is installed on the top inner wall of the second cavity 112, and the first driver 121 is Power can be transmitted to the first rotating shaft 151 extending downward The blade 152 to be crushed around the first rotating shaft 151 is fixedly connected, and a third swash plate 144 extending downward symmetrically is installed at the lower end of the blade 152 to be crushed, One end of the swash plate 144 away from the center of the second cavity 112 is fixedly connected to the second cavity 112, and the squeeze roller is located at the lower end of the third swash plate 144 and symmetrical to the second cavity 112. 153 is installed, and is fixedly connected to the second rotating shaft 300 that extends back and forth in the squeezing roller 153 and whose rear end passes through the rear end inner wall of the second cavity 112 and extends to the third cavity 113. A front end of the second rotary shaft 300 is rotatably attached to the box body 100 through a bearing, and a second transmission groove 112 is provided in communication with the bottom of the second cavity 112, and the second The collection box 154 can slide in the conductive groove 145. And a second driving machine 122 is installed on the inner wall of the rear end of the third cavity 113, extends forward to the second driving machine 122, passes through the inner wall of the third cavity 113, and passes through the inner wall of the third cavity 113. A fourth rotary shaft 202 extending to the separation cavity 110 is connected so that power can be transmitted, and the fourth rotary shaft 202 is rotatably attached to the inner wall of the front end of the third cavity 113 through a bearing. A cam 138 is fixedly connected to the front end of the rotating shaft 202, and a first transmission lever 139 extending in front of the first transmission groove 142 is installed on the convex portion of the cam 138, and a turbine is connected to the fourth rotating shaft 202. 203 is engaged and connected, and a third rotary shaft 303 extending left and right is fixedly connected to the turbine 203, and left and right ends of the third rotary shaft 303 are attached to the box 100 through bearings so as to be rotatable. Symmetric to the third rotating shaft 303 A conical pulley 302 is fixedly connected, a first conical pulley 301 is engaged with and connected to the double-sided conical pulley 302, and the first conical pulley 301 is connected to a rear end of the second rotating shaft 300. Connect permanently.

Preferably, a screw is installed at a site where the fourth rotating shaft 202 contacts the turbine 203.

Preferably, the first filtration hole of the first strainer 135 is larger than the second filtration hole of the second strainer 136, and it is convenient to treat sewage.

When the equipment according to the present invention is in an initial state, the first scraper 131 is located at the leftmost end of the first strainer 135, the second scraper 131 is located at the leftmost end of the second strainer 136, The cam 223 is in a horizontal state, the first conduction lever 139 is positioned at the center of the first conduction groove 142, and the rear end surface of the collection box 154 is closely attached to the box body 100, so that the drainage groove 101 Is in a closed state.

When in use, the apparatus is connected to a sewage pipe, the drainage groove 101 is opened, the second driving device 122 is activated, and in conjunction with the first scraper 131, the second scraper 132 is respectively connected to the first strainer. 135, reciprocating with the second strainer 136, starting the first drive 121 and rotating in conjunction with the crushing blade 152, starting the second drive 122 and rotating in conjunction with the squeezing roller 153 To do.

After use, it is convenient to control the first driving machine 121 and the second driving machine 122 to stop the rotation, collect the solid particles in the collection box 154, and clean them up in a unified manner.

What has been described above are merely preferred embodiments of the present invention and are not used to limit the present invention. All modifications, equivalent replacements and improvements made under the meaning and principle of the present invention are included in the protection scope of the present invention.

Claims (1)

A dust removing device including a box, wherein a square block is installed at the same time at the four corner bottoms of the box, a rotating wheel is installed at the bottom of all the square blocks, and a separation cavity is installed at the box. The first cavity that is symmetrically connected to the left and right inner walls of the separation cavity is installed, and the second cavity is provided on one side far from the separation cavity among the first cavities that are symmetrically installed on the left and right sides. The second cavity and the first cavity are installed in communication with each other, a third cavity is installed so as to communicate with a rear end of the separation cavity, a first strainer is installed in the separation cavity, A second strainer is installed at the lower end of one strainer, a flow guide box is fixedly connected to the lower end of the second strainer, and the bottom of the flow guide box and the A flow guide pipe is installed so as to communicate between the cavities, a drainage groove is installed so as to communicate with the inner wall of the front end of the first cavity, and the other end of the drainage groove passes through the front end face of the box. The first scraper is slidably engaged with and connected to the top end surface of the first strainer, and the first swash plate extending into the first cavity symmetrically is fixed to the left and right ends of the first strainer. A second scraper is slidably engaged with and connected to the top of the second strainer , and second swash plates are symmetrically installed at both left and right ends of the second strainer , One side of the plate that is far from the second strainer is inserted into the second cavity, and a conductive block located at the rear end of the flow guide box is slidably engaged with the bottom end surface of the second strainer. Contact A first conductive groove extending up and down is installed in the conductive block, and a second conductive lever that is positioned below the first conductive groove and extends left and right is slidably engaged with and connected to the conductive block. The left and right ends of the second conduction lever are fixedly connected to the inner walls of the left and right ends of the separation cavity, and an E-type sliding block located at the rear end of the first scraper on the right and left sides of the rear end inner wall of the separation cavity. The rear ends of the first scraper, the second scraper, and the conduction block are fixedly connected to the front end of the E-type sliding block, and are connected to the second cavity. A first driving machine is installed on the inner wall of the top, and the first driving machine is connected so as to be able to transmit power to a first rotating shaft that extends downward, and a blade that is crushed around the first rotating shaft is fixedly connected. And said hit A third swash plate extending symmetrically downward is installed at the lower end of the crushing blade, and the third swash plate is fixedly connected to the second cavity at one end where the third swash plate is separated from the center of the second cavity. The third swash plate is positioned at the lower end of the third swash plate and symmetrical to the left and right, extends back and forth in the squeezing roller, and the rear end passes through the inner wall of the rear end of the second cavity and the third cavity. A second rotation shaft extending in a fixed manner is connected, and a front end of the second rotation shaft is rotatably attached to the box through a bearing, and a second transmission groove communicates with the bottom of the second cavity. The collection box is slidably engaged with and connected to the second conduction groove, and a second driving machine is installed on the inner wall of the rear end of the third cavity. The front end of the third cavity extending forward A fourth rotating shaft extending through the inner wall and extending to the separation cavity is connected so that power can be transmitted, and the fourth rotating shaft is rotatably attached to the inner wall of the front end of the third cavity through a bearing. A cam is fixedly connected to the front end of the four rotation shaft, a first transmission lever extending in front of the first transmission groove is installed on the convex portion of the cam, and a turbine is engaged with and connected to the fourth rotation shaft. A third rotary shaft extending to the left and right is fixedly connected to the turbine, and both left and right ends of the third rotary shaft are rotatably attached to the box through bearings, and symmetrical to the third rotary shaft. A double-sided conical pulley is fixedly connected to the double-sided conical pulley, and a first conical pulley is engaged and connected to the double-sided conical pulley, and the first conical pulley is fixedly connected to the rear end of the second rotating shaft. And Serial fourth rotary shaft screw is disposed in a zone that is in contact with the turbine, dust removing apparatus first filter holes of the first strainer being greater than the second filter holes of the second strainer.