JP6613534B1 - Sewage filter - Google Patents

Abstract

The present invention discloses a sewage filter. A main filtration chamber is installed in the filter, a main filtration device is installed in the main filtration chamber, and a first series of grooves is formed at the top end of the main filtration chamber. The first slide groove communicates with the bottom end of the first series groove, and when the filter treats impurities on the upper side of the filtration net while the present invention is in operation, other sewage is removed by mechanical transmission. It can be diverted to the filtration chamber on the side of the filter, processing impurities at the same time without affecting the filtration, increasing the speed of the filtration process, improving work efficiency, and processing the impurities in the filtration net with scissors It is not necessary to treat impurities by operating the apparatus, greatly simplifying the process of treating impurities and increasing efficiency. [Selection] Figure 1

Description

The present invention covers the field of filtration, specifically a sewage filter.

Currently, filters have a significant impact on water purification, and more and more filters are used in daily life. At this stage, the filters stop working when they are filtered to process the remaining impurities. This means that the filtration efficiency is greatly affected, and during the processing of impurities, the filter must be disassembled before processing the impurities, which makes the operation complicated, increases the amount of work, Not good for processing.

Chinese Patent Application No. 108640404

The object of the present invention is to provide a sewage filter, which can solve the problems in the above current technology.

In order to solve the above problems, the present invention adopts the following technical plan: The sewage filter includes a filter, a main filtration chamber is installed in the filter, and the main filtration chamber is in the main filtration chamber. And a first slide groove is communicated with the top end of the main filtration chamber. A first slide groove is communicated with the bottom end of the first filtration groove. A filtration chamber is installed, a sub-filtration device is installed in the sub-filtration chamber, and a second communication groove is installed between the sub-filtration chamber and the first series of communication channels; A second slide groove is communicated with the top end of the filter, and a filtration network mechanism is installed between the main filtration chamber and the sub filtration chamber, and the filtration network mechanism includes a slide bar having a filtration network. A first empty chamber is installed between the main filtration chamber and the sub filtration chamber, a second empty chamber is installed at the rear end of the first empty chamber, and a second empty chamber is installed at the rear end of the main filtration chamber. A third empty chamber is provided, a fourth empty chamber is communicated between the third empty chamber and the second empty chamber, a fifth empty chamber is provided at the top of the third empty chamber, and the main A filtration switching device is installed at the rear end of the filtration chamber, a sewage discharge groove is communicated with the sub-filtration chamber and the bottom end of the main filtration chamber, and the sewage discharge groove at the bottom end of the main filtration chamber is connected to the sewage discharge groove. An outlet switching device is installed.

Priority to the main filtering unit includes the main filtration chamber, said in the first sliding groove first rack is disposed so as to be slide having a first through hole, the main filtration in the sub filtering chamber A dirt scooping plate is fixedly installed on both the end wall close to the chamber and the left and right end walls of the main filtration chamber, and is disposed between the first empty chamber and the second empty chamber. Is installed so that a first rotating shaft connected to the motor can transmit power, a second rack is fixedly installed on the slide bar, and the first rotating shaft has a first rack at the front end thereof. A first gear meshing with the two racks is installed symmetrically, a second gear is installed on the first rotating shaft in the second empty chamber, and the first gear is located at the left end of the main filtration chamber. A sixth empty chamber is installed at the front end of the fourth empty chamber, a second rotary shaft is installed in the sixth empty chamber, a wide gear meshing with the second gear and a second gear are connected to the second rotary shaft. One pulley is installed, and the first pulley and the second gear at the right end of the main filtration chamber are transmitted and connected.

Preferentially, the sub-filtration device includes the sub-filtration chamber, and a third slide groove is communicated with an end wall of the sub-filtration chamber so that a push block can slide in the third slide groove. A first spring is fixedly connected between the push block and the end wall of the third slide groove, and a first permanent magnet having a second through hole is formed in the second slide groove. A second spring is fixedly connected between the first permanent magnet and the end wall of the second slide groove, and a fourth slide groove vertically penetrates the second slide groove. And installed in the fourth slide groove so that the first slide block can slide, and a third spring is fixed between the first slide block and the end wall of the fourth slide groove. Connected to the first A magnetic conducting metal is installed in the slide block, and a second permanent magnet to be sucked to the first permanent magnet is fixedly installed at the left end of the magnetic conducting metal, the first slide block, the push block, A first steel wire is connected between the two.

Preferentially, the filtration switching device includes the first rotating shaft, a third gear is fixedly installed on the first rotating shaft, and the third rotating shaft can rotate in the fourth empty chamber. A fourth gear meshing with the third gear is fixedly installed on the third rotating shaft, and a second slide block is provided between the third empty chamber and the fourth empty chamber. A third rack that meshes with the fourth gear is fixedly installed at the left end of the second slide block so that the third slide block can slide in the third empty chamber. A concave groove is formed in the bottom wall of the third slide block and the third empty chamber, and a hinge connecting rod is symmetrically hinged between the concave groove and the second slide block. Concatenated with A fifth slide groove and a sixth slide groove that communicate with the third empty chamber are installed between the third empty chamber and the main filtration chamber, and the fifth slide groove communicates with the sixth slide groove. A fourth slide block located between the fifth slide groove and the sixth slide groove so that a fourth slide block connected to a fourth spring is slidable, and is located in the sixth slide groove. The first oblique block is fixedly installed, and the fourth slide block in the fifth slide groove is installed so that the third permanent magnet can slide, and the end wall of the fifth slide groove is provided on the end wall of the fifth slide groove. An electromagnet to be engaged with the third permanent magnet is fixedly installed, and is installed in the fifth empty chamber so that a fourth rotating shaft can rotate. The fourth rotating shaft meshes with the first rack. Do Five gears are fixedly installed, and a seventh slide groove is connected to the top wall of the fourth rotation shaft, and a fourth rack is installed in the seventh slide groove so that the fourth rack can slide. A fifth spring is fixedly connected between the fourth rack and the end wall of the seventh slide groove, the fourth rack meshes with the fifth gear, and the fourth rack and the third slide block. A second steel wire is connected between the two.

Preferentially, the outlet switching device includes the main filtration chamber, a seventh empty chamber is installed between the main filtration chamber and the sewage discharge groove, and a seventh empty chamber is disposed at the rear end of the seventh empty chamber. Eight empty chambers are installed in communication, and a fifth rotation shaft is installed between the eighth empty chamber and the seventh empty chamber so that the fifth rotation shaft can rotate, and the fifth rotation is in the seventh empty chamber. A partition plate is fixedly installed on the shaft, and eighth slide grooves are symmetrically connected to both ends of the seventh empty chamber, and a second oblique block can slide in the eighth slide groove. A sixth spring is fixedly connected between the second diagonal block and the end wall of the eighth slide groove, the second diagonal block is in contact with the partition plate, and the eighth In an empty chamber Wherein between the fifth rotation shaft and the fourth rotary shaft is engaged to allow power transmission by the second pulley and the third pulley.

Thus, the beneficial effect of the present invention: the apparatus is simple in structure, convenient to operate, and when the filter treats impurities on the upper side of the filter screen, the sewage is removed by mechanical transmission on the other side of the filtration chamber. It is possible to treat the impurities at the same time without affecting the filtration, increase the speed of the filtration treatment, improve the work efficiency, and treat the impurities in the filtration net with the scissors. There is no need to treat impurities, greatly simplifying the process of treating impurities and increasing efficiency.

In order to more clearly explain the technical solutions in the embodiments of the present invention and in the existing technology, the following is a brief introduction to the accompanying drawings that need to be used in the description of the embodiments and the existing technology. It should be understood that the accompanying drawings in the following description are only some embodiments of the present invention, and that other engineers based on these appended drawings are assumed based on the assumption that creative labor is not paid to ordinary engineers in this field. In order to explain the present invention in detail with reference to FIGS. 1 to 5 below, and to provide a convenient explanation, the following directions are defined as follows: The vertical and horizontal directions in FIG.

FIG. 1 is a front structural view of the entire cross section of the sewage filter of the present invention. 2 is a left sectional view of FIG. FIG. 3 is a left side enlarged schematic view of the entire cross section of the first empty chamber and the second empty chamber of the sewage filter of the present invention. FIG. 4 is a front enlarged structural schematic diagram of the entire section of the third empty chamber of the sewage filter of the present invention. FIG. 5 is a schematic diagram of an enlarged front view of a local section of a discharge port switching device for a sewage filter according to the present invention.

All features disclosed in the present invention, or all disclosed methods and steps in the process, may be combined in any manner other than features or steps that are mutually exclusive.

All features disclosed in this document may be replaced with other alternative features having equivalent or similar purposes unless otherwise specified. That is, unless otherwise stated, all features are just one example in a series of equivalent or similar features.

As shown in FIGS. 1-5, the embodiment provided by the present invention: a sewage filter includes a filter 1, and a main filtration chamber 28 is installed in the filter 1, and the main filtration chamber 28 includes A main filtration device is installed, a first series groove 29 is communicated with the top end of the main filtration chamber 28, and a first slide groove 27 is communicated with the bottom end of the first series groove 29. A sub-filtration chamber 12 is installed on both sides of the chamber 28, a sub-filtration device is installed in the sub-filtration chamber 12, and a second filter 29 is interposed between the sub-filtration chamber 12 and the first series passage groove 29. A communication groove 34 is communicated, the second slide groove 6 is communicated with the top end of the sub filtration chamber 12, and a filtration network mechanism is installed between the main filtration chamber 28 and the sub filtration chamber 12. The filtration net mechanism includes a slide bar 18 having a filtration net 19, and a first empty chamber 31 is installed between the main filtration chamber 28 and the sub filtration chamber 12. A second empty chamber 65 is installed at the end, a third empty chamber 41 is installed at the rear end of the main filtration chamber 28, and a second empty chamber 65 is interposed between the third empty chamber 41 and the second empty chamber 65. Four empty chambers 66 are communicated, a fifth empty chamber 37 is installed at the top end of the third empty chamber 41, and a filtration switching device is installed at the rear end of the main filtration chamber 28. A sewage discharge groove 20 communicates with the bottom end of the main filtration chamber 28, and a discharge port switching device is connected to the sewage discharge groove 20 at the bottom end of the main filtration chamber 28. There are installed.

Advantageously, said main filtration apparatus said comprising a main filtration chamber 28, in the first slide groove 27 is disposed so as to be the first rack 32 slides with a first through-hole 30, the sub-filtration A dirt scavenging plate 16 is fixedly installed on both the end wall of the chamber 12 on the side close to the main filtration chamber 28 and the left and right end walls of the main filtration chamber 28, and the first empty chamber 31. Between the first empty shaft 65 and the second empty chamber 65 so that the first rotating shaft 33 connected to the motor 64 so as to transmit power can be rotated. A second rack 91 is fixed to the slide bar 18. The first gear 25 that meshes with the second rack 91 is symmetrically installed at the front end of the first rotating shaft 33 and is in the second empty chamber 65. A second gear 69 is installed on the first rotary shaft 33, a sixth empty chamber 78 is installed at the front end of the fourth empty chamber 66 at the left end of the main filtration chamber 28, and the sixth empty chamber 78. A second rotating shaft 90 is installed in the second rotating shaft 90, and a wide gear 80 and a first pulley 77 that mesh with the second gear 69 are installed on the second rotating shaft 90. The second gear 69 at the right end of the chamber 28 is transmitted and connected.

Beneficially, the sub-filtration apparatus includes the sub-filtration chamber 12, and a third slide groove 14 is provided in communication with an end wall of the sub-filtration chamber 12, and a push block is provided in the third slide groove 14. 15 is slidable, and a first spring 13 is fixedly connected between the push block 15 and the end wall of the third slide groove 14, and the second slide groove 6 includes a first spring 13. The first permanent magnet 9 having two through holes 10 is installed so as to be slidable, and the second spring 2 is fixedly connected between the first permanent magnet 9 and the end wall of the second slide groove 6, A fourth slide groove 4 is vertically installed in the second slide groove 6, and a first slide block 5 is installed in the fourth slide groove 4 so that the first slide block 5 can slide. And the fourth A third spring 3 is fixedly connected to the end wall of the id groove 4, and a magnetic conductive metal 8 is installed in the first slide block 5. A first permanent magnet 9 and a second permanent magnet 7 to be sucked are fixedly installed, and a first steel wire 11 is connected between the first slide block 5 and the push block 15.

Beneficially, the filtration switching device includes the first rotating shaft 33, a third gear 67 is fixedly installed on the first rotating shaft 33, and a third gear 67 is disposed in the fourth empty chamber 66. A rotary shaft 70 is installed to be rotatable, and a fourth gear 68 that meshes with the third gear 67 is fixedly installed on the third rotary shaft 70, and the third empty chamber 41 and the fourth empty chamber are arranged. 66 is installed so that the second slide block 47 can slide, and a third rack 63 meshing with the fourth gear 68 is fixedly installed at the left end of the second slide block 47, and A third slide block 43 is installed in the three empty chambers 41 so as to be slidable. A concave groove 50 is provided in each of the third slide block 43 and the bottom wall of the third empty chamber 41, and the concave groove A hinge connecting rod 46 is symmetrically connected to the second slide block 47 by a hinge, and the third empty chamber 41 is connected between the third empty chamber 41 and the main filtration chamber 28. A fifth slide groove 81 and a sixth slide groove 56 that communicate with each other are installed. The fifth slide groove 81 communicates with the sixth slide groove 56, and the fifth slide groove 81 and the sixth slide groove 56 are connected to each other. A fourth slide block 58 connected to the fourth spring 57 is installed between the first slide block 58 and the fourth slide block 58 in the sixth slide groove 56. The fourth slide block 58 installed in the fifth slide groove 81 is installed so that the third permanent magnet 42 can slide, and the fifth slide groove 81 An electromagnet 60 to be engaged with the third permanent magnet 42 is fixedly installed on the wall, and a fourth rotary shaft 39 is installed in the fifth empty chamber 37 so as to be rotatable. 39, a fifth gear 62 that meshes with the first rack 32 is fixedly installed, and a seventh slide groove 82 is provided in communication with the top wall of the fourth rotary shaft 39. A fourth rack 36 is slidably installed therein, and a fifth spring 61 is fixedly connected between the fourth rack 36 and the end wall of the seventh slide groove 82, so that the fourth rack 36 meshes with the fifth gear 62, and a second steel wire 40 is connected between the fourth rack 36 and the third slide block 43.

Beneficially, the outlet switching device includes the main filtration chamber 28, a seventh empty chamber 23 is installed between the main filtration chamber 28 and the sewage discharge groove 20, and the seventh empty chamber 23. An eighth empty chamber 49 is installed in communication with the rear end, and a fifth rotary shaft 22 is installed between the eighth empty chamber 49 and the seventh empty chamber 23 so that it can rotate. A partition plate 21 is fixedly installed on the fifth rotating shaft 22 in the empty chamber 23, and eighth slide grooves 72 are symmetrically connected to both ends of the seventh empty chamber 23. A second diagonal block 75 is slidably installed in the eighth slide groove 72, and a sixth spring 73 is fixed between the second diagonal block 75 and the end wall of the eighth slide groove 72. Connected to The second diagonal block 75 is in contact with the partition plate 21, and the second pulley 38 and the fourth rotation shaft 39 are located between the fifth rotation shaft 22 and the fourth rotation shaft 39 in the eighth empty chamber 49. The three pulleys 48 are engaged so that they can be transmitted.

In the following, the method of using the sewage filter will be described in detail with reference to FIG. 1-5 and the specific configuration of the sewage filter described above: The first permanent magnet 9 is contacted, the filtration net 19 and the slide bar 18 are positioned in the main filtration chamber, the first through hole 30 is communicated with the first continuous groove 29, and the second The through hole 10 is not communicated with the second communication groove 34.

When it is necessary to filter, the main filtration device performs filtration, and sewage enters the main filtration chamber 28 through the first series groove 29 and is filtered by the filtration network 19 and then from the facility through the sewage discharge groove 20. Discharged.

If too much sewage is accumulated in the main filtration device, the motor 64 is activated, the sub-filtration device starts to share the sewage treatment pressure of the main filtration device, and the motor 64 drives the first rotary shaft 33. The first rotating shaft 33 drives and rotates the first gear 25 and the third gear 67, and the first gear 25 slides the filter screen into the sub-filtration chamber 12, The slide bar 18 pushes the push block 15, the push block 15 drives the magnetic conductive metal 8 by the first steel wire 11 and slides it downward to interrupt the magnetic conduction action, and the magnetic force of the first permanent magnet 9 And the second through hole 10 is communicated with the second communication groove under the action of the second spring 2, and sewage enters the sub-filtration chamber and is filtered. The fourth gear 68 is driven and rotated, and the fourth gear 68 drives and slides the second slide block 47 by the third rack 63, and the second slide block 47 is driven by the hinge connecting rod 46. The third slide block 43 is driven to slide down, the third slide block 43 drives the fourth rack 36 by the second steel wire 40 and slides down, and the third slide block 43 slides down. Subsequently, the second steel wire 40 is pressed against the third permanent magnet 42 by the first diagonal block 59, the fourth rack 36 is locked, and the fourth rack 36 drives and rotates the fifth gear 62, the fifth gear 62 is a first through-hole 30 by the first rack 32 so as not to communicate with the first communication Tsumizo 29, at the same time the fifth gear 2 drives and rotates the fourth rotating shaft 39, and the fourth rotating shaft 39 drives and rotates the fifth rotating shaft 22 by the second pulley 38 and the third pulley 48, thereby rotating the fifth rotating shaft 39. The shaft 22 rotates to switch the sewage discharge groove to the discharge port switching device.

When the sewage filtration pressure is not large, after the equipment is started and the motor 64 is reversed, the equipment returns to the initial state, and after the slide bar 18 returns to the initial state, the electromagnet 60 is opened. The third permanent magnet 42 is sucked, the lock of the fourth rack 36 is released, and the first through hole 30 is again communicated with the first series passage groove, so that the main filtration device continues to treat sewage.

Beneficial effects of the present invention: The apparatus is simple in structure, convenient to operate, and when the filter treats impurities on the upper side of the filter screen, mechanical transmission diverts sewage to the other side filtration chamber. Impurities are not affected at the same time, impurities are treated, speeding up the filtration process, working efficiency is improved, impurities in the filtration net can be treated with scissors, and impurities are handled by the operation of other equipment There is no need to do so, greatly simplifying the process of treating impurities and increasing efficiency.

What has been described above is merely a specific implementation method of the present invention, but the protection scope of the present invention is not limited thereto. Changes and replacements that are conceived not through all creative labor are covered by the protection scope of the present invention. Therefore, the protection scope of the present invention is based on the protection scope in which the rights request is limited.

Claims (1)

A main filtration chamber is installed in the filter, a main filtration device is installed in the main filtration chamber, and a first communication groove communicates with the top end of the main filtration chamber, A first slide groove communicates with the bottom end of the first communication groove, a sub-filtration chamber is installed on both sides of the main filtration chamber, a sub-filtration device is installed in the sub-filtration chamber, A second communication groove is connected between the filtration chamber and the first series of communication grooves, and a second slide groove is connected to the top end of the sub filtration chamber, and the main filtration chamber and the sub filtration chamber are connected to each other. A filtration network mechanism is installed in between, the filtration network mechanism includes a slide bar having a filtration network, and a first empty chamber is installed between the main filtration chamber and the sub filtration chamber. A second empty chamber is installed at the rear end of the first empty chamber, a third empty chamber is installed at the rear end of the main filtration chamber, and the third empty chamber and the second empty chamber A fourth empty chamber is communicated therebetween, a fifth empty chamber is installed at the top end of the third empty chamber, a filtration switching device is installed at the rear end of the main filtration chamber, and the sub filtration chamber and the A sewage discharge groove communicates with the bottom end of the main filtration chamber, and a discharge port switching device is installed in the sewage discharge groove at the bottom end of the main filtration chamber ,
The main filtration device includes the main filtration chamber, and a first rack having a first through hole is installed in the first slide groove so that the first rack can slide. The subfiltration chamber is adjacent to the main filtration chamber. A dirt scavenging plate is fixedly installed on both the end wall on the side of the main filtration chamber and the left and right end walls of the main filtration chamber, and a motor and power are provided between the first empty chamber and the second empty chamber. The first rotating shaft connected so that can be transmitted can be rotated, a second rack is fixedly installed on the slide bar, and the front end of the first rotating shaft meshes with the second rack. A first gear is symmetrically installed, a second gear is installed on the first rotating shaft in the second empty chamber, and the fourth empty is on the left end of the main filtration chamber. A sixth empty chamber is installed at the front end of the chamber, a second rotating shaft is installed in the sixth empty chamber, and a wide gear meshing with the second gear and a first pulley are connected to the second rotating shaft. Is installed, the first pulley and the second gear at the right end of the main filtration chamber are transmitted and connected ,
The sub-filtration device includes the sub-filtration chamber, a third slide groove is provided in communication with an end wall of the sub-filtration chamber, and a push block is installed in the third slide groove so that the push block can slide. A first spring is fixedly connected between the push block and the end wall of the third slide groove so that a first permanent magnet having a second through hole can slide in the second slide groove. Installed, a second spring is fixedly connected between the first permanent magnet and the end wall of the second slide groove, and a fourth slide groove is vertically penetrated through the second slide groove, In the fourth slide groove is installed so that the first slide block can slide, and a third spring is fixedly connected between the first slide block and the end wall of the fourth slide groove, The first slide A magnetic conductive metal is installed in the lock, and a first permanent magnet and a second permanent magnet to be sucked are fixedly installed at the left end of the magnetic conductive metal, and the first slide block and the push block Between the first steel wire ,
The filtration switching device includes the first rotation shaft, a third gear is fixedly installed on the first rotation shaft, and a third rotation shaft is installed in the fourth empty chamber so that the third rotation shaft can rotate. A fourth gear meshing with the third gear is fixedly installed on the third rotating shaft so that a second slide block can slide between the third empty chamber and the fourth empty chamber. Installed, a third rack meshing with the fourth gear is fixedly installed at the left end of the second slide block, and installed in the third empty chamber so that the third slide block can slide, A concave groove is installed in the bottom wall of the third slide block and the third empty chamber, and a hinge connecting rod is symmetrically connected by a hinge between the concave groove and the second slide block, Said third A fifth slide groove and a sixth slide groove communicating with the third empty chamber are installed between the main filtration chamber and the main filtration chamber, and the fifth slide groove is communicated with the sixth slide groove, A fourth slide block connected to a fourth spring is slidable between the fifth slide groove and the sixth slide groove, and the fourth slide block in the sixth slide groove has a second An oblique block is fixedly installed, and a third permanent magnet is installed on the fourth slide block in the fifth slide groove so that the third permanent magnet can slide. A third permanent magnet is installed on the end wall of the fifth slide groove. An electromagnet to be engaged with the magnet is fixedly installed, and a fourth rotary shaft is installed in the fifth empty chamber so that the fourth rotary shaft can rotate. The fifth rotary shaft meshes with the first rack. Gears The seventh slide groove is connected to the top wall of the fourth rotating shaft, and the fourth rack is installed in the seventh slide groove so that the fourth rack can slide. And a fifth spring is fixedly connected between the end wall of the seventh slide groove and the fourth rack meshes with the fifth gear, and between the fourth rack and the third slide block. Is connected with the second steel wire ,
The outlet switching device includes the main filtration chamber, a seventh empty chamber is installed between the main filtration chamber and the sewage discharge groove, and an eighth empty chamber is located at the rear end of the seventh empty chamber. A fifth rotary shaft is installed between the eighth empty chamber and the seventh empty chamber so that the fifth rotary shaft can rotate, and a partition is provided on the fifth rotary shaft in the seventh empty chamber. A plate is fixedly installed, an eighth slide groove is symmetrically installed at both ends of the seventh empty chamber, and a second oblique block is installed in the eighth slide groove so as to be slidable. A sixth spring is fixedly connected between the second oblique block and the end wall of the eighth slide groove, and the second oblique block is in contact with the partition plate, and is located in the eighth empty chamber. The fifth in Sewage filter, characterized in that between the rotating shaft and the fourth rotary shaft is engaged to allow power transmission by the second pulley and the third pulley.