JP2019181438A - Sewage treatment apparatus - Google Patents

Abstract

To provide a program controller installation.SOLUTION: A sewage treatment apparatus includes a storage box. Therein, separation casing is installed on the storage box, symmetrical first storage casing are installed so as to be communicated with right and left inner walls of the separation casing, symmetrical second storage casing are installed such that the first storage casing is communicated with the inner walls separated from a center of the separation casing, a crushing blade is installed on the separation casing, a crushed ring is installed on a lower end of the crushing blade, a collection box is installed on a lower end of the crushed ring and a third storage casing is installed so as to be communicated with a rear end of the separation casing.SELECTED DRAWING: Figure 4

Description

The present invention relates to the technical field of control component equipment, and more particularly to program controller equipment.

The controller is the most important control component, the core component that controls the operation of various facilities, used in sewage purification equipment, but cannot edit the control program of the controller of traditional sewage purification equipment, and thus the sewage It is necessary to provide equipment that can not be used repeatedly twice after treatment, and wastes water resources greatly, thus providing program controller equipment, controlling sewage equipment, filtering solid particles, and using sewage twice. is there.

Chinese Patent Application No. 105334807

The present invention provides a program controller facility for the necessary technical problems to be solved, which can solve the current technical problems mentioned above.

The present invention is realized through the following technical scheme. The program controller facility of the present invention includes a storage box, a separation housing is installed in the storage box, a symmetric first housing housing is installed so as to communicate with the left and right inner walls of the separation housing, and the first housing A symmetrical second housing case is installed so that the housing communicates with an inner wall away from the center of the separation housing, and a third housing case is installed so as to communicate with the rear end of the separation housing, A first filter is installed in the separation housing, a second filter is installed at the lower end of the first filter, a liquid box is fixedly connected to the lower end of the second filter, and the bottom of the liquid box and the first filter A catheter is installed so as to communicate between the housings, a drainage groove is installed so as to communicate with the inner wall of the front end of the first housing, and the other end of the drainage groove passes through the front end surface of the housing box. The top end surface of the first filter A first scraper is slidably engaged and connected, and first diagonal plates extending symmetrically to the first housing are symmetrically connected to the left and right ends of the first filter, and the second A second scraper is slidably engaged and connected to the top of the filter, and a second oblique plate extending symmetrically to the second housing case is fixedly connected to the left and right ends of the second filter. A conductive block located at the rear end of the liquid box is slidably engaged with and connected to the bottom end surface of the second filter, and a first conductive groove extending vertically is installed in the conductive block. A second conduction lever that is positioned below the first conduction groove and extends to the left and right is slidably engaged with the conduction block and connected to the left and right ends of the second casing. Fixedly connected to the inner walls at both ends, the rear end of the separation casing An E-type sliding connection block located at the rear end of the first scraper is slidably engaged with the wall and connected to the wall, and the rear ends of the first scraper, the second scraper, and the sliding connection block Is fixedly connected to the front end of the E-type sliding connection block, a first motor is installed on the top inner wall of the second housing case, a saddle load component is installed outside the first motor, The load part includes a shock absorbing composite plate and a cooling iron piece, and the first motor is connected to a first rotating shaft extending downward so that power can be transmitted, and a blade that is crushed around the first rotating shaft is fixed. A third oblique plate that is connected and extends symmetrically downwards at the lower end of the crushing blade, and one end of the third oblique plate that is separated from the center of the second housing case is connected to the second housing case. Fixedly connected, the second housing case Is disposed at the lower end of the third swash plate and symmetrical to the left and right, extends back and forth in the fracture ring, and the rear end passes through the inner wall of the rear end of the second housing case. A second rotating shaft extending to the third housing case is fixedly connected, and a front end of the second rotating shaft is rotatably attached to the housing box through a bearing, and is attached to the bottom of the second housing case. A second conduction groove having a mouth away from the center of the second housing case is installed, and a collection box is slidably engaged with and connected to the second conduction groove. A second motor is installed on the inner wall of the rear end so that the first rotating shaft extending forward to the second motor and passing through the inner wall of the third housing case and extending to the separation housing can transmit power. Connected, the first rotating shaft can rotate to the inner wall of the front end of the third housing through the bearing The cam is fixedly connected to the front end of the first rotary shaft, and the first conductive lever extending in front of the first conductive groove is installed on the convex portion of the cam. A turbine is engaged and connected to the turbine, a third rotating shaft extending in the left and right direction is fixedly connected to the turbine, and left and right ends of the third rotating shaft are rotatably attached to the receiving box through bearings, A double-sided pyramid is fixedly connected to the third rotating shaft in a symmetrical manner, and a first conical ring is engaged with and connected to the double-sided pyramid, and the first conical ring is fixed to the rear end of the second rotating shaft. Connected to the storage box on the right side of the separation casing, a controller is installed in the mounting casing, and the lid is unfixed through a hinge on the outer wall of the mounting casing. It is attached and a locking device is installed on the lid.

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

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

As a preferred technical solution, the shock absorbing composite plates are installed at the upper and lower ends of the first motor and fixedly connected to the first motor, and the cooling iron pieces are installed at the front and rear ends of the first motor. The motor is fixedly connected to a shell, the upper and lower ends of the motor are fixedly connected to the shock absorbing composite plate, and one or more pieces of the cooling iron pieces are respectively connected to the front end and the rear end of the first motor. Installed.

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 filter, and the second scraper is positioned at the leftmost end of the second filter. 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 storage box, and the excretion groove is Closed.

When used, the apparatus is connected to a necessary sewage groove to be treated, the excretory groove is opened, the second motor is controlled through the controller, and the second scraper is linked to the first scraper, respectively. The first and second filters are reciprocated, the first motor is controlled through the controller and rotated in conjunction with the crushing blade, the second motor is activated and rotated in conjunction with the crushing wheel.

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

The structure of the equipment according to the present invention is simple, the operation is convenient, the first motor and the second motor are controlled through the controller to realize the joint work of the apparatus, and the solid particles in the sewage are filtered and the sewage is filtered. Realize repeated use twice, greatly reducing waste of water resources.

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 filter, and the second scraper is positioned at the leftmost end of the second filter. 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 storage box, and the excretion groove is Closed.

FIG. 1 is a schematic diagram of the overall structure of the program controller facility 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. 4 is a right view of the lid in FIG.

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

As shown in FIG. 1-4, the program controller facility of the present invention includes a storage box 100, a separation housing 110 is installed in the storage box 100, and is symmetrical so as to communicate with the left and right inner walls of the separation housing 110. A first housing case 111 is installed, and a second housing case 112 that is symmetrical so that the first housing case 111 communicates with an inner wall away from the center of the separation housing 110 is installed, and the separation housing 110 A third housing case 113 is installed so as to communicate with the rear end, a first filter 135 is installed in the separation housing 110, a second filter 136 is installed at the lower end of the first filter 135, A liquid box 137 is fixedly connected to the lower end of the second filter 136, and a catheter 143 is installed so as to communicate between the bottom of the liquid box 137 and the first housing case 111. Excretion groove 101 is installed so as to communicate with the inner wall of the front end of the The first scraper 131 is slidably engaged with and connected to the top end surface of the first filter 135 through the front end surface of the storage box 100, and symmetrically on the left and right ends of the first filter 135. A first oblique plate 133 extending to the first housing case 111 is fixedly connected, and a second scraper 132 is slidably engaged with and connected to the top of the second filter 136, and the second A second oblique plate 134 extending symmetrically to the second housing case 112 is fixedly connected to the left and right ends of the filter 136, and is located at the rear end of the liquid box 137 on the bottom end face of the second filter 136. A 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 contacted. 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 casing 110, and are positioned at the rear end of the first scraper 131 on the left and right sides of the rear end inner wall of the separation casing 110. The E-type sliding connection block 201 is slidably engaged and connected, and the rear ends of the first scraper 131, the second scraper 132, and the sliding connection block 140 are connected to the E-type sliding connection block 201. Fixedly connected to the front terminal, a first motor 121 is installed on the top inner wall of the second housing case 112, a soot load component is installed outside the first motor 121, and the soot load component absorbs shocks. A composite plate 1214 and a cooling iron piece 1215 are included, the first motor 121 is connected to a first rotating shaft 151 extending downward so that power can be transmitted, and a blade 152 that is crushed around the first rotating shaft 151 is fixed. Connected to the left at the lower end of the crushing blade 152 A third oblique plate 144 extending symmetrically downward is installed, and one end of the third oblique plate 144 away from the center of the second housing case 112 is fixedly connected to the second housing case 112, A crushing ring 153 that is positioned at the lower end of the third oblique plate 144 and that is symmetrical to the left and right is installed in the second housing case 112, extends in the crushing ring 153 in the front-rear direction, and a rear end is the second housing. A second rotating shaft 300 extending through the inner wall of the rear end of the housing 112 and extending to the third housing housing 113 is fixedly connected, and a front end of the second rotating shaft 300 can rotate to the housing box 100 through a bearing. A second conduction groove 145 is installed at the bottom of the second housing case 112 and the mouth is separated from the center of the second housing case 112, and a collection box 154 is provided in the second conduction groove 145. A second motor 122 is installed on the inner wall of the rear end of the third housing case 113 so as to be slidably engaged. A first rotary shaft 202 extending to the separation housing 110 through the front end inner wall of the third housing case 113 is connected to transmit power, and the first rotary shaft 202 is connected to the first rotary shaft 202 through a bearing. Three cams 138 are rotatably attached to the inner wall of the front end of the housing case 113, and a cam 138 is fixedly connected to the front end of the first rotating shaft 202, and the first conductive groove is forward of the convex portion of the cam 138. A first transmission lever 139 extending to 142 is installed, a turbine 203 is engaged and connected to the first rotating shaft 202, and a third rotating shaft 303 extending to the left and right is fixedly connected to the turbine 203, and the third rotating shaft Both right and left ends of the rotating shaft 303 are attached to the receiving box 100 through bearings so as to be rotatable. A double-sided conical ring 302 is fixedly connected to the third rotating shaft 303 symmetrically. One conical ring 301 is engaged and connected, and the first conical ring 301 is connected to the second rotating shaft 3. 00 is fixedly connected to the rear terminal, a mounting housing is installed in the storage box 100 on the right side of the separation housing 110, a controller 188 is installed in the mounting housing, and an outer wall of the mounting housing is installed. A lid 189 is non-fixedly attached through a hinge, and a locking tool 190 is installed on the lid 189.

Preferably, a screw is installed at a portion where the first rotary shaft 202 contacts the turbine 203, and it is convenient that the first rotary shaft 202 and the turbine rotate simultaneously.

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

Preferably, the shock absorbing composite plate 1214 is installed at the upper and lower ends of the first motor 121 and fixedly connected to the first motor 121, and the cooling iron pieces 1215 are installed at the front and rear ends of the first motor 121. Fixedly connected to the shell of the first motor 121, and the upper and lower ends of the motor 121 are fixedly connected to the shock absorbing composite plate 1214, one on each of the front end and the rear end of the first motor 121. When the cooling iron piece 1215 is installed, the cooling iron piece 1215 absorbs and dissipates heat generated when the first motor 121 operates, and the shock absorbing composite plate 1214 operates when the first motor 121 operates. Reduce the generated vibration force to prevent the vibration force from being too large and affecting the normal operation of the device.

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 filter 135, the second scraper 131 is located at the leftmost end of the second filter 136, The cam 223 is in a horizontal state, the first conductive lever 139 is located at the center of the first conductive groove 142, and the rear end surface of the collection box 154 is closely attached to the storage box 100, so that the excretory groove 101 is in a closed state.

When used, the apparatus is connected to a necessary sewage groove for processing, the excretion groove 101 is opened, the second motor 122 is controlled through the controller 188, and the second scraper 131 is interlocked with the second scraper 131. 132 reciprocates with the first filter 135 and the second filter 136, respectively, controls the first motor 121 through the controller 188, rotates in conjunction with the crushing blade 152, and activates the second motor 122. It rotates in conjunction with the breaking wheel.

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

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 filter, and the second scraper is positioned at the leftmost end of the second filter. 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 storage box, and the excretion groove is Closed.

When used, the apparatus is connected to a necessary sewage groove to be treated, the excretory groove is opened, the second motor is controlled through the controller, and the second scraper is linked to the first scraper, respectively. The first and second filters are reciprocated, the first motor is controlled through the controller and rotated in conjunction with the crushing blade, the second motor is activated and rotated in conjunction with the crushing wheel.

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

The structure of the equipment according to the present invention is simple, the operation is convenient, the first motor and the second motor are controlled through the controller to realize the joint work of the apparatus, and the solid particles in the sewage are filtered and the sewage is filtered. Realize repeated use twice, greatly reducing waste of water resources.

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.

The present invention relates to the technical field of control component equipment, and more particularly to a sewage treatment apparatus .

The controller is the most important control component, the core component that controls the operation of various facilities, used in sewage purification equipment, but cannot edit the control program of the controller of traditional sewage purification equipment, and thus the sewage It is necessary to provide equipment that can not be used twice repeatedly after treatment, and wastes water resources greatly, thus providing sewage treatment equipment, controlling sewage equipment, filtering solid particles, and using sewage twice. is there.

Chinese Patent Application No. 105334807

The present invention provides a sewage treatment apparatus for the necessary technical problems to be solved, which can solve the above-mentioned current technical problems.

The present invention is realized through the following technical scheme. The sewage treatment apparatus of the present invention includes a storage box, a separation housing is installed in the storage box, a symmetric first storage housing is installed so as to communicate with the left and right inner walls of the separation housing, and the first storage A symmetrical second housing case is installed so that the housing communicates with an inner wall away from the center of the separation housing, and a third housing case is installed so as to communicate with the rear end of the separation housing, A first filter is installed in the separation housing, a second filter is installed at the lower end of the first filter, a liquid box is fixedly connected to the lower end of the second filter, and the bottom of the liquid box and the first filter A catheter is installed so as to communicate between the housings, a drainage groove is installed so as to communicate with the inner wall of the front end of the first housing, and the other end of the drainage groove passes through the front end face of the housing box. The first scraper on the top end surface of the first filter. Are connected so as to be slidable, and first diagonal plates extending symmetrically to the first housing are symmetrically connected to the left and right ends of the first filter, and the second filter A second scraper is slidably engaged with and connected to the top, and a second oblique plate extending symmetrically to the second housing case is fixedly connected to the left and right ends of the second filter, A conductive block located at the rear end of the liquid box is slidably engaged with and connected to the bottom end surface of the second filter, 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 block, and the left and right ends of the second conductive lever are the inner walls of the left and right ends of the separation housing. fixedly connected to, said in an inner wall after said separating housing E-type sliding connection block which is located at the rear end one scraper is installed so that it can slide to the left and right, the first scraper, wherein the second scraper, before the trailing edge of the conduction block of the E-type slip connection block A first motor that is fixedly connected to the terminal and that is controlled by the controller is installed on the top inner wall of the second housing case, and a saddle load component is installed outside the first motor. Includes a shock absorbing composite plate and a cooling iron piece, and the first motor is connected to a first rotating shaft extending downward so that power can be transmitted, and a blade that is crushed around the first rotating shaft is fixedly connected. A third oblique plate extending symmetrically downward is installed at the lower end of the crushing blade, and one end of the third oblique plate away from the center of the second housing case is fixed to the second housing case. Close to A crushing ring that is located at the lower end of the third oblique plate and is symmetrical to the left and right is installed in the second housing casing, extends in the front and rear in the crushing wheel, and a rear end is the second housing casing. A second rotating shaft extending through the rear end inner wall to the third housing case is fixedly connected, and a front end of the second rotating shaft is rotatably attached to the housing box through a bearing, A second conduction groove having a mouth away from the center of the second housing case is installed at the bottom of the second housing case, and a collection box is slidably engaged with and connected to the second conduction groove. A second motor controlled by the controller is installed in the rear end inner wall of the third housing case, extends forward to the second motor and passes through the front end inner wall of the third housing case. worm power extending separating housing is connected so as to be transmitted, the worm is Mounted so as to be rotatable front inner wall of the third housing body through bearings, the cam before the terminal of the worm is fixedly connected, first extending the first conductive groove before the protrusion of the cam One conduction lever is installed, a turbine is engaged with and connected to the worm , a third rotating shaft that extends to the left and right is fixedly connected to the turbine, and left and right ends of the third rotating shaft are connected to the receiving box through bearings. A double-sided pyramid is fixedly connected to the third rotation shaft in a symmetrical manner, and a first pyramid is engaged with and connected to the double-sided cone, A fixed housing is connected to the rear end of the second rotating shaft, a mounting housing is installed in the storage box on the right side of the separation housing, a controller is installed in the mounting housing, and an outer wall of the mounting housing is installed. The lid is attached non-fixed through the hinge And a lock is placed on the lid.

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

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

As a preferred technical solution, the shock absorbing composite plates are installed at the upper and lower ends of the first motor and fixedly connected to the first motor, and the cooling iron pieces are installed at the front and rear ends of the first motor. fixedly connected to one motor shells, upper and lower ends of the motor is fixedly connected to the shock-absorbing composite plate, said first motor the cooling iron piece each or one at the front end and the rear end of the installation Is done.

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 filter, and the second scraper is positioned at the leftmost end of the second filter. 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 storage box, and the excretion groove is Closed.

When used, the apparatus is connected to a necessary sewage groove to be treated, the excretory groove is opened, the second motor is controlled through the controller, and the second scraper is linked to the first scraper, respectively. The first and second filters are reciprocated, the first motor is controlled through the controller and rotated in conjunction with the crushing blade, the second motor is activated and rotated in conjunction with the crushing wheel.

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

The structure of the equipment according to the present invention is simple, the operation is convenient, the first motor and the second motor are controlled through the controller to realize the joint work of the apparatus, and the solid particles in the sewage are filtered and the sewage is filtered. Realize repeated use twice, greatly reducing waste of water resources.

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 filter, and the second scraper is positioned at the leftmost end of the second filter. 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 storage box, and the excretion groove is Closed.

FIG. 1 is a schematic diagram of the overall structure of the sewage treatment 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. 4 is a right view of the lid in FIG.

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

As shown in FIG. 1-4, the sewage treatment apparatus of the present invention includes a storage box 100, a separation housing 110 is installed in the storage box 100, and is symmetrical so as to communicate with the left and right inner walls of the separation housing 110. A first housing case 111 is installed, and a second housing case 112 that is symmetrical so that the first housing case 111 communicates with an inner wall away from the center of the separation housing 110 is installed, and the separation housing 110 A third housing case 113 is installed so as to communicate with the rear end, a first filter 135 is installed in the separation housing 110, a second filter 136 is installed at the lower end of the first filter 135, A liquid box 137 is fixedly connected to the lower end of the second filter 136, and a catheter 143 is installed so as to communicate between the bottom of the liquid box 137 and the first housing case 111. An excretion groove 101 is installed so as to communicate with the inner wall of the front end of the container, and the other end of the excretion groove 101 is A first scraper 131 is slidably engaged with and connected to the top end surface of the first filter 135 through the end surface, and the first housing case is symmetrically connected to the left and right ends of the first filter 135. A first oblique plate 133 extending to 111 is fixedly connected, and a second scraper 132 is slidably engaged with and connected to the top of the second filter 136. Symmetrically symmetrically, a second oblique plate 134 extending to the second housing case 112 is fixedly connected, and a conductive block 140 located at the rear end of the liquid box 137 slides on the bottom end surface of the second filter 136. A first conductive groove 142 that is movably engaged and connected and extends up and down in the conductive block 140 is installed, and a second second groove that is positioned below the first conductive groove 142 and extends in the left and right direction in the conductive block 140 The conductive lever 141 is slidably engaged and connected, Left and right ends of the conductive lever 141 is fixedly connected to the left and right ends an inner wall of the separation housing 110, E-type in the inner wall after the separation housing 110 which is located at the rear end of the first scraper 131 The sliding connection block 201 is installed so that it can slide left and right, and the rear ends of the first scraper 131, the second scraper 132, and the conduction block 140 are fixedly connected to the front terminal of the E-type sliding connection block 201. A first motor 121 controlled by the controller is installed on the top inner wall of the second housing case 112, and a saddle load component is installed outside the first motor 121. A plate 1214 and a cooling iron piece 1215 are included, and the first motor 121 is connected so as to be able to transmit power to a first rotating shaft 151 that extends downward, and a blade 152 that crushes around the first rotating shaft 151 is fixed. Connected and crushing A third oblique plate 144 extending downward symmetrically is installed at the lower end of the raid 152, and one end of the third oblique plate 144 away from the center of the second housing case 112 is connected to the second housing case 112. A crushing ring 153 located at the lower end of the third oblique plate 144 and symmetrical to the left and right is installed in the second housing case 112 and fixed to the second housing case 112. A second rotary shaft 300 whose end passes through the rear inner wall of the second housing case 112 and extends to the third housing case 113 is fixedly connected, and the front end of the second rotary shaft 300 is connected to the front end through a bearing. A second conductive groove 145 that is rotatably attached to the storage box 100 and has a mouth that is separated from the center of the second storage housing 112 is installed at the bottom of the second storage housing 112. The collection box 154 is slidably engaged and connected to the inner wall of the rear end of the third housing case 113 by the controller. A second motor 122 to be controlled is installed , and the worm 202 extending forward to the second motor 122, passing through the inner wall of the front end of the third housing casing 113 and extending to the separation casing 110 can transmit power. The worm 202 is rotatably attached to the inner wall of the front end of the third housing case 113 through a bearing, and a cam 138 is fixedly connected to the front end of the worm 202 , and the convex of the cam 138 The first conduction lever 139 extending in the first conduction groove 142 is installed in front of the part, the turbine 203 is engaged with and connected to the worm 202 , and the third rotary shaft 303 extending to the left and right is fixedly connected to the turbine 203. Connected to the container 100 so that the left and right ends of the third rotating shaft 303 can be rotated through bearings, and a double-sided conical ring 302 is fixedly connected to the third rotating shaft 303 in a symmetrical manner, Double-sided cone 302 and first cone 3 01 is engaged and connected, the first conical ring 301 is fixedly connected to the rear end of the second rotating shaft 300, and a mounting housing is installed in the storage box 100 on the right side of the separation housing 110. A controller 188 is installed in the mounting housing, a lid 189 is non-fixedly attached to the outer wall of the mounting housing through a hinge, and a locking device 190 is installed in the lid 189.

Preferably, a screw is installed at a site where the worm 202 contacts the turbine 203, and it is convenient that the worm 202 and the turbine rotate simultaneously.

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

Preferably, the shock absorbing composite plate 1214 is installed at the upper and lower ends of the first motor 121 and fixedly connected to the first motor 121, and the cooling iron pieces 1215 are installed at the front and rear ends of the first motor 121. Fixedly connected to the shell of the first motor 121, and the upper and lower ends of the motor 121 are fixedly connected to the shock absorbing composite plate 1214, one on each of the front end and the rear end of the first motor 121. is installed the cool iron piece 1215 described above, occurs when the cooling iron piece 1215 absorbs heat generated when the first motor 121 is operated to diverge, the shock-absorbing composite plate 1214 operates said first motor 121 The vibration force to be reduced is reduced to prevent the vibration force from being too large and affecting the normal operation of the device.

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 filter 135, the second scraper 131 is located at the leftmost end of the second filter 136, The cam 223 is in a horizontal state, the first conductive lever 139 is located at the center of the first conductive groove 142, and the rear end surface of the collection box 154 is closely attached to the storage box 100, so that the excretory groove 101 is in a closed state.

When used, the apparatus is connected to a necessary sewage groove for processing, the excretion groove 101 is opened, the second motor 122 is controlled through the controller 188, and the second scraper 131 is interlocked with the second scraper 131. 132 reciprocates with the first filter 135 and the second filter 136, respectively, controls the first motor 121 through the controller 188, rotates in conjunction with the crushing blade 152, and activates the second motor 122. It rotates in conjunction with the breaking wheel.

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

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 filter, and the second scraper is positioned at the leftmost end of the second filter. 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 storage box, and the excretion groove is Closed.

When used, the apparatus is connected to a necessary sewage groove to be treated, the excretory groove is opened, the second motor is controlled through the controller, and the second scraper is linked to the first scraper, respectively. The first and second filters are reciprocated, the first motor is controlled through the controller and rotated in conjunction with the crushing blade, the second motor is activated and rotated in conjunction with the crushing wheel.

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

The structure of the equipment according to the present invention is simple, the operation is convenient, the first motor and the second motor are controlled through the controller to realize the joint work of the apparatus, and the solid particles in the sewage are filtered and the sewage is filtered. Realize repeated use twice, greatly reducing waste of water resources.

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.

The present invention relates to the technical field of control component equipment, and more particularly to a sewage treatment apparatus.

The controller is the most important control component, the core component that controls the operation of various facilities, used in sewage purification equipment, but cannot edit the control program of the controller of traditional sewage purification equipment, and thus the sewage It is necessary to provide equipment that can not be used twice repeatedly after treatment, and wastes water resources greatly, thus providing sewage treatment equipment, controlling sewage equipment, filtering solid particles, and using sewage twice. is there.

Chinese Patent Application No. 105334807

The present invention provides a sewage treatment apparatus for the necessary technical problems to be solved, which can solve the above-mentioned current technical problems.

The present invention is realized through the following technical scheme. The sewage treatment apparatus of the present invention includes a storage box, a separation housing is installed in the storage box, a symmetric first storage housing is installed so as to communicate with the left and right inner walls of the separation housing, and the first storage A symmetrical second housing case is installed so that the housing communicates with an inner wall away from the center of the separation housing, and a third housing case is installed so as to communicate with the rear end of the separation housing, A first filter is installed in the separation housing, a second filter is installed at the lower end of the first filter, a liquid box is fixedly connected to the lower end of the second filter, and the bottom of the liquid box and the first filter A catheter is installed so as to communicate between the housings, a drainage groove is installed so as to communicate with the inner wall of the front end of the first housing, and the other end of the drainage groove passes through the front end face of the housing box. The first scraper on the top end surface of the first filter. Are connected so as to be slidable, and first diagonal plates extending symmetrically to the first housing are symmetrically connected to the left and right ends of the first filter, and the second filter A second scraper is slidably engaged with and connected to the top, and a second oblique plate extending symmetrically to the second housing case is fixedly connected to the left and right ends of the second filter, A conductive block located at the rear end of the liquid box is slidably engaged with and connected to the bottom end surface of the second filter, 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 block, and the left and right ends of the second conductive lever are the inner walls of the left and right ends of the separation housing. In the rear inner wall of the separation housing An E-type sliding connection block located at the rear end of one scraper is installed so that it can slide left and right, and the rear ends of the first scraper, the second scraper, and the conduction block are in front of the E-type sliding connection block. A first motor that is fixedly connected to the terminal and is controlled by a controller is installed on the top inner wall of the second housing case, and a soot load component is installed outside the first motor, and the soot load component is Including a shock-absorbing composite plate and a cooling iron piece, the first motor is connected so as to be able to transmit power to a first rotating shaft extending downward, and a blade that is crushed around the first rotating shaft is fixedly connected; A third oblique plate that extends symmetrically downward is installed at the lower end of the crushing blade, and one end of the third oblique plate away from the center of the second housing case is fixed to the second housing case. connection A crushing ring that is positioned at the lower end of the third oblique plate and that is symmetrical to the left and right is installed in the second housing case, extends in the front and rear in the crushing wheel, and a rear end is behind the second housing case. A second rotating shaft extending through the inner end wall and extending to the third housing case is fixedly connected, and a front end of the second rotating shaft is rotatably attached to the housing box through a bearing; A second conductive groove whose mouth is separated from the center of the second housing case is installed at the bottom of the housing case, and a collection box is slidably engaged with and connected to the second conduction groove; A second motor controlled by the controller is installed in the rear end inner wall of the third housing case, extends forward to the second motor, passes through the front end inner wall of the third housing case, and is separated from the separation housing. The worm that extends to the body is connected so that power can be transmitted, and the worm is The cam is fixedly connected to a front end inner wall of the third housing case through a ring, a cam is fixedly connected to the front end of the worm, and a first extension groove extending forward to the convex portion of the cam. One conduction lever is installed, a turbine is engaged with and connected to the worm, a third rotating shaft that extends to the left and right is fixedly connected to the turbine, and left and right ends of the third rotating shaft are connected to the receiving box through bearings. A double-sided pyramid is fixedly connected to the third rotation shaft in a symmetrical manner, and a first pyramid is engaged with and connected to the double-sided cone, A fixed housing is connected to the rear end of the second rotating shaft, a mounting housing is installed in the storage box on the right side of the separation housing, a controller is installed in the mounting housing, and an outer wall of the mounting housing is installed. The lid is attached non-fixed through the hinge In addition, a locking device is installed on the lid.

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

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

As a preferred technical solution, the shock absorbing composite plates are installed at the upper and lower ends of the first motor and fixedly connected to the first motor, and the cooling iron pieces are installed at the front and rear ends of the first motor. The cooling iron piece is fixedly connected to the shell of one motor, the upper end and the lower end of the cooling iron piece are fixedly connected to the shock absorbing composite plate, and one or more cooling iron pieces are respectively attached to the front end and the rear end of the first motor. Installed.

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 filter, and the second scraper is positioned at the leftmost end of the second filter. 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 storage box, and the excretion groove is Closed.

When used, the apparatus is connected to a necessary sewage groove to be treated, the excretory groove is opened, the second motor is controlled through the controller, and the second scraper is linked to the first scraper, respectively. The first and second filters are reciprocated, the first motor is controlled through the controller and rotated in conjunction with the crushing blade, the second motor is activated and rotated in conjunction with the crushing wheel.

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

The structure of the equipment according to the present invention is simple, the operation is convenient, the first motor and the second motor are controlled through the controller to realize the joint work of the apparatus, and the solid particles in the sewage are filtered and the sewage is filtered. Realize repeated use twice, greatly reducing waste of water resources.

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 filter, and the second scraper is positioned at the leftmost end of the second filter. 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 storage box, and the excretion groove is Closed.

FIG. 1 is a schematic diagram of the overall structure of the sewage treatment 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. 4 is a right view of the lid in FIG.

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

As shown in FIG. 1-4, the sewage treatment apparatus of the present invention includes a storage box 100, a separation housing 110 is installed in the storage box 100, and is symmetrical so as to communicate with the left and right inner walls of the separation housing 110. A first housing case 111 is installed, and a second housing case 112 that is symmetrical so that the first housing case 111 communicates with an inner wall away from the center of the separation housing 110 is installed, and the separation housing 110 A third housing case 113 is installed so as to communicate with the rear end, a first filter 135 is installed in the separation housing 110, a second filter 136 is installed at the lower end of the first filter 135, A liquid box 137 is fixedly connected to the lower end of the second filter 136, and a catheter 143 is installed so as to communicate between the bottom of the liquid box 137 and the first housing case 111. An excretion groove 101 is installed so as to communicate with the inner wall of the front end of the container, and the other end of the excretion groove 101 is A first scraper 131 is slidably engaged with and connected to the top end surface of the first filter 135 through the end surface, and the first housing case is symmetrically connected to the left and right ends of the first filter 135. A first oblique plate 133 extending to 111 is fixedly connected, and a second scraper 132 is slidably engaged with and connected to the top of the second filter 136. Symmetrically symmetrically, a second oblique plate 134 extending to the second housing case 112 is fixedly connected, and a conductive block 140 located at the rear end of the liquid box 137 slides on the bottom end surface of the second filter 136. A first conductive groove 142 that is movably engaged and connected and extends up and down in the conductive block 140 is installed, and a second second groove that is positioned below the first conductive groove 142 and extends in the left and right direction in the conductive block 140 The conductive lever 141 is slidably engaged and connected, The left and right ends of the conductive lever 141 are fixedly connected to the inner walls of the left and right ends of the separation housing 110, and the rear inner wall of the separation housing 110 is located at the rear end of the first scraper 131. The sliding connection block 201 is installed so that it can slide left and right, and the rear ends of the first scraper 131, the second scraper 132, and the conduction block 140 are fixedly connected to the front terminal of the E-type sliding connection block 201. A first motor 121 controlled by a controller is installed on the inner wall of the top of the second housing case 112, a saddle load component is installed outside the first motor 121, and the saddle load component is a shock absorbing composite plate. 1214 and a cooling iron piece 1215, the first motor 121 is connected so as to be able to transmit power to a first rotating shaft 151 extending downward, and a blade 152 that is crushed around the first rotating shaft 151 is fixedly connected The crushing blur A third oblique plate 144 extending symmetrically downward is installed at the lower end of the second 152, and one end of the third oblique plate 144 away from the center of the second housing case 112 is connected to the second housing case 112. A crushing ring 153 located at the lower end of the third oblique plate 144 and symmetrical to the left and right is installed in the second housing case 112 and fixed to the second housing case 112. A second rotary shaft 300 whose end passes through the rear inner wall of the second housing case 112 and extends to the third housing case 113 is fixedly connected, and the front end of the second rotary shaft 300 is connected to the front end through a bearing. A second conductive groove 145 that is rotatably attached to the storage box 100 and has a mouth that is separated from the center of the second storage housing 112 is installed at the bottom of the second storage housing 112. The collection box 154 is slidably engaged and connected to the inner wall of the rear end of the third housing case 113 and is controlled by the controller. The second motor 122 is installed, and the worm 202 extending forward to the second motor 122 and passing through the inner wall of the third receiving housing 113 and extending to the separation housing 110 can transmit power. The worm 202 is rotatably attached to a front end inner wall of the third housing case 113 through a bearing, a cam 138 is fixedly connected to a front end of the worm 202, and a convex portion of the cam 138 The first conductive lever 139 extending in the first conductive groove 142 is installed in front, the turbine 203 is engaged with and connected to the worm 202, and the third rotating shaft 303 that extends to the left and right is fixedly connected to the turbine 203. The left and right ends of the third rotating shaft 303 are rotatably attached to the receiving box 100 through bearings, and a double-sided conical ring 302 is fixedly connected to the third rotating shaft 303 in a bilaterally symmetrical manner. The first cone 301 is connected to the cone 302. The first conical ring 301 is fixedly connected to the rear end of the second rotating shaft 300, and a mounting housing is installed in the storage box 100 on the right side of the separation housing 110, and the mounting A controller 188 is installed in the casing, a lid 189 is non-fixedly attached to the outer wall of the mounting casing through a hinge, and a locking tool 190 is installed in the lid 189.

Preferably, a screw is installed at a site where the worm 202 contacts the turbine 203, and it is convenient that the worm 202 and the turbine rotate simultaneously.

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

Preferably, the shock absorbing composite plate 1214 is installed at the upper and lower ends of the first motor 121 and fixedly connected to the first motor 121, and the cooling iron pieces 1215 are installed at the front and rear ends of the first motor 121. Fixedly connected to the shell of the first motor 121, and the upper and lower ends of the cooling iron piece 1215 are fixedly connected to the shock absorbing composite plate 1214, and are respectively connected to the front end and the rear end of the first motor 121. When the cooling iron piece 1215 is installed, the cooling iron piece 1215 absorbs and dissipates heat generated when the first motor 121 operates, and the shock absorbing composite plate 1214 operates when the first motor 121 operates. Reduce the generated vibration force to prevent the vibration force from being too large and affecting the normal operation of the device.

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 filter 135, the second scraper 131 is located at the leftmost end of the second filter 136, The cam 223 is in a horizontal state, the first conductive lever 139 is located at the center of the first conductive groove 142, and the rear end surface of the collection box 154 is closely attached to the storage box 100, so that the excretory groove 101 is in a closed state.

When used, the apparatus is connected to a necessary sewage groove for processing, the excretion groove 101 is opened, the second motor 122 is controlled through the controller 188, and the second scraper 131 is interlocked with the second scraper 131. 132 reciprocates with the first filter 135 and the second filter 136, respectively, controls the first motor 121 through the controller 188, rotates in conjunction with the crushing blade 152, and activates the second motor 122. It rotates in conjunction with the breaking wheel.

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

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 filter, and the second scraper is positioned at the leftmost end of the second filter. 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 storage box, and the excretion groove is Closed.

When used, the apparatus is connected to a necessary sewage groove to be treated, the excretory groove is opened, the second motor is controlled through the controller, and the second scraper is linked to the first scraper, respectively. The first and second filters are reciprocated, the first motor is controlled through the controller and rotated in conjunction with the crushing blade, the second motor is activated and rotated in conjunction with the crushing wheel.

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

The structure of the equipment according to the present invention is simple, the operation is convenient, the first motor and the second motor are controlled through the controller to realize the joint work of the apparatus, and the solid particles in the sewage are filtered and the sewage is filtered. Realize repeated use twice, greatly reducing waste of water resources.

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 program controller facility including a storage box, wherein a separation housing is installed in the storage box, and a first housing housing that is symmetrical so as to communicate with left and right inner walls of the separation housing is installed, and the first housing A symmetrical second housing case is installed so that the housing communicates with an inner wall away from the center of the separation housing, and a third housing case is installed so as to communicate with the rear end of the separation housing, A first filter is installed in the separation housing, a second filter is installed at the lower end of the first filter, a liquid box is fixedly connected to the lower end of the second filter, and the bottom of the liquid box and the first filter A catheter is installed so as to communicate between the housings, a drainage groove is installed so as to communicate with the inner wall of the front end of the first housing, and the other end of the drainage groove passes through the front end surface of the housing box. The top end surface of the first filter A first scraper is slidably engaged and connected, and first diagonal plates extending symmetrically to the first housing are symmetrically connected to the left and right ends of the first filter, and the second A second scraper is slidably engaged and connected to the top of the filter, and a second oblique plate extending symmetrically to the second housing case is fixedly connected to the left and right ends of the second filter. A conductive block located at the rear end of the liquid box is slidably engaged with and connected to the bottom end surface of the second filter, and a first conductive groove extending vertically is installed in the conductive block. A second conduction lever that is positioned below the first conduction groove and extends to the left and right is slidably engaged with the conduction block and connected to the left and right ends of the second casing. Fixedly connected to the inner walls at both ends, the rear end of the separation casing An E-type sliding connection block located at the rear end of the first scraper is slidably engaged with the wall and connected to the wall, and the rear ends of the first scraper, the second scraper, and the sliding connection block Is fixedly connected to the front end of the E-type sliding connection block, a first motor is installed on the top inner wall of the second housing case, a saddle load component is installed outside the first motor, The load part includes a shock absorbing composite plate and a cooling iron piece, and the first motor is connected to a first rotating shaft extending downward so that power can be transmitted, and a blade that is crushed around the first rotating shaft is fixed. A third oblique plate that is connected and extends symmetrically downwards at the lower end of the crushing blade, and one end of the third oblique plate that is separated from the center of the second housing case is connected to the second housing case. Fixedly connected, the second housing case Is disposed at the lower end of the third swash plate and symmetrical to the left and right, extends back and forth in the fracture ring, and the rear end passes through the inner wall of the rear end of the second housing case. A second rotating shaft extending to the third housing case is fixedly connected, and a front end of the second rotating shaft is rotatably attached to the housing box through a bearing, and is attached to the bottom of the second housing case. A second conduction groove having a mouth away from the center of the second housing case is installed, and a collection box is slidably engaged with and connected to the second conduction groove. A second motor is installed on the inner wall of the rear end so that the first rotating shaft extending forward to the second motor and passing through the inner wall of the third housing case and extending to the separation housing can transmit power. Connected, the first rotating shaft can rotate to the inner wall of the front end of the third housing through the bearing The cam is fixedly connected to the front end of the first rotating shaft, and a first conductive lever extending in front of the first conductive groove is installed on the convex portion of the cam, and the first rotating shaft A turbine is engaged and connected to the turbine, a third rotating shaft extending in the left and right direction is fixedly connected to the turbine, and left and right ends of the third rotating shaft are rotatably attached to the receiving box through bearings, A double-sided pyramid is fixedly connected to the third rotating shaft in a symmetrical manner, and a first conical ring is engaged with and connected to the double-sided pyramid, and the first conical ring is fixed to the rear end of the second rotating shaft. Connected to the storage box on the right side of the separation casing, a controller is installed in the mounting casing, and the lid is unfixed through a hinge on the outer wall of the mounting casing. Attached, and a locking device is installed on the lid, the first rotating shaft A screw is installed at a portion that contacts the turbine, the first filter hole of the first filter is larger than the second filter hole of the second filter, and the shock absorbing composite plates are at the upper and lower ends of the first motor. It is installed and fixedly connected to the first motor, and the cooling iron pieces are installed at the front and rear ends of the first motor and fixedly connected to the shell of the first motor, and the upper and lower ends of the motor are connected to the first motor. A program controller facility, wherein the program controller equipment is fixedly connected to an impact-absorbing composite plate, and at least one piece of the cooling iron piece is installed at each of a front end and a rear end of the first motor.