CN114197611B - Sewage treatment operation and maintenance device based on BIM technology - Google Patents

Abstract

The invention discloses a sewage treatment operation and maintenance device based on BIM technology, which comprises an anti-blocking mechanism arranged in a sewage pipeline, wherein the anti-blocking mechanism comprises: the choke interception frame assembly at least comprises a concave structure so as to enable the water body to impact to form an arc-shaped water resistance; the rotary cutter assembly is arranged on the outer wall of the flow blocking interception frame assembly and driven by water flow to rotate, and comprises a plurality of blades which are obliquely arranged, and the edge parts of the blades are tangential to the side wall of the flow blocking interception frame assembly. According to the sewage treatment operation and maintenance device based on the BIM technology, larger water resistance can be provided through the water tank with the Y-shaped structure, enough water flows can pass through the water tank, the rotary cutter assembly is driven to rotate, and garbage on the water tank can be ejected out by the water resistance; through the tangent of buckled plate and abrasive disc, and the buckled plate is nearer to geometric framework, makes rubbish by the cooperation of buckled plate winding, with abrasive disc contact mill move, and is pushed by rivers through the cutting knife and keeps rotating, keeps grinding with the buckled plate tangent.

Description

Sewage treatment operation and maintenance device based on BIM technology

Technical Field

The invention relates to the technical field of sewage treatment operation and maintenance devices, in particular to a sewage treatment operation and maintenance device based on a BIM technology.

Background

People can produce a large amount of sewage in life today, and a large amount of sewage can concentrate and discharge through the blow off pipeline, if the blow off pipeline causes the jam, then cause very big puzzlement to people's daily life.

As in patent CN212680232U, publication (bulletin) day: 2021-03-12, the disclosed operation and maintenance device for sewage treatment, including filter, water pump and body, the equal fixedly connected with gyro wheel in corner position department of body bottom, one side of body bottom is provided with anti-blocking mechanism, one side activity of body articulates there is the lid, the central point department of body top is provided with rotary mechanism, rotary mechanism includes servo motor, slide bar, water diversion plate, shower nozzle and sliding tray, servo motor's bottom is provided with the water diversion plate, the sliding tray sets up on the inner wall on filter top, the both sides on water diversion plate bottom all are provided with the shower nozzle, the both sides on water diversion plate top all fixedly connected with slide bar, and the one end of slide bar extends to the inside of sliding tray, one side on body top is provided with the deodorant mechanism, the inside of body bottom is provided with the case of depositing, and one side fixedly connected with water pump on the top of case top, one side fixedly connected with outlet of depositing the case bottom, all fixedly connected with body on the inside wall at body both ends, the inside position of water diversion plate top is provided with the connecting pipe, and inside connection has the filter. The invention drives the water diversion plate to rotate under the action of the servo motor, however, in the rotating process of the water diversion plate, clear water in the storage box can be sent into the water diversion plate through the pipeline by the water pump, and then the water source is evenly distributed to the spray heads by the water diversion plate, and at the moment, the water diversion plate can carry the spray heads to carry out multidirectional cleaning on the transverse plate under the continuous rotation of the water diversion plate, so that the effect that the operation and maintenance device for sewage treatment is convenient for multidirectional cleaning is realized.

In the actual operation process, most of the sewage pipes are the living waste water, a plurality of linear garbage and garbage with larger volume are arranged in the sewage pipes to easily cause the sewage pipes to be blocked, and most of sewage treatment devices only cut, but the linear garbage is easily wound in the rotating shaft to be clamped due to the rotation and the cutting of the sewage treatment devices, so that the device is damaged, the inside of the sewage treatment device is soaked in sewage, and the motor is easily driven to cause the sewage to leak water, so that the damage is caused.

It can be seen that the above problems exist in the prior art, and improvements are needed.

Disclosure of Invention

The invention aims to provide a sewage treatment operation and maintenance device based on BIM technology, which is used for solving the problems that most of treatment devices cut larger garbage by a cutting device driven by a motor to prevent the garbage from being blocked, but the garbage is easily wound on a rotating shaft by linear garbage in the rotating process to cause the garbage to be damaged; and because the motor is positioned in the sewage for a long time, the inside of the sewage is easy to leak water, and the device is damaged.

In order to achieve the above object, the present invention provides the following technical solutions: the utility model provides a sewage treatment fortune dimension device based on BIM technique, is including setting up in the inside anti-blocking mechanism of blow off pipeline, anti-blocking mechanism includes:

the choke interception frame assembly at least comprises a concave structure so as to enable the water body to impact to form an arc-shaped water resistance;

the rotary cutter assembly is arranged on the outer wall of the flow blocking interception frame assembly and driven to rotate by water flow, and comprises a plurality of blades which are obliquely arranged, and the cutting edge parts of the blades are tangential to the side wall of the flow blocking interception frame assembly.

Preferably, the choke interception shelf assembly comprises a geometric framework, and the concave structure is positioned on the geometric framework to form a water choke.

Preferably, the inside of the geometric framework is a Y-shaped structure, and the concave structure is positioned inside the Y-shaped structure so as to maximize the formed water resistance area and the formed running water area.

Preferably, the back of the geometric framework on the choked flow interception frame assembly is provided with a protruding part, and the protruding part is tangential to the cutting edge part of the blade.

Preferably, at least one abrasive disc is arranged on the convex part, and the abrasive disc is tangential to the blade edge part.

Preferably, a corrugated plate is arranged on one side of the blade edge, a concave-convex portion is arranged on the surface of the corrugated plate, and the concave-convex portion is tangential to the grinding disc.

Preferably, the concave-convex part is in a W-shaped structure, so that the linear garbage can be wound in a clamping way.

Preferably, the blade is provided with a through groove, and a cutting knife is movably arranged in the through groove to cut the concave-convex part to wind the garbage.

Preferably, the cutting blade is embodied as a double-edged structure, and the circumferential rotation of the rotary cutting blade assembly drives the cutting blade to maintain reciprocating motion.

Preferably, the cutting blade is driven by water flow to keep rotating so as to be tangential to the concave-convex part of the corrugated plate.

In the technical scheme, the sewage treatment operation and maintenance device based on the BIM technology has the following beneficial effects:

1. through the setting of the basin of the inside Y type structure of geometry frame, can provide great water resistance on the one hand, thereby on the other hand can make great rivers pass through the rotation of the rotary-cut cutter subassembly in drive back, and the production of water resistance, can pop out the linear rubbish of winding on the basin, along the rivers outflow.

2. Through the tangent of buckled plate and abrasive disc, and the position of buckled plate is nearer than the position of blade from geometric framework for linear rubbish is at first twined by pivoted buckled plate cooperation, then through the contact with the abrasive disc, grinds, makes its disconnection, and through the setting of cutting knife, because the promotion of rivers, makes it can keep rotating, can carry out tangent with the rubbish of twining between the buckled plate, keeps grinding continually.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present application, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic diagram of a sewage treatment apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a flow blocking and intercepting assembly according to an embodiment of the present invention;

FIG. 3 is a schematic view of a rotary cutting tool assembly according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a cross section of a sewage treatment apparatus according to an embodiment of the present invention.

Reference numerals illustrate:

1. A rotary cutter assembly; 2. a choke interception rack assembly; 101. a rotating shaft; 102. spiral fan blades; 103. corrugated plates; 104. a blade slot; 105. a cutting knife; 106. a chute; 107. a rotating block; 108. a blade; 109. a concave-convex portion; 201. a geometric framework; 202. a water tank; 203. and (5) grinding the sheet.

Detailed Description

In order to make the technical scheme of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

As shown in fig. 1-4, a sewage treatment operation and maintenance device based on BIM technology, including setting up in the inside anti-blocking mechanism of blow off pipeline, anti-blocking mechanism includes:

the choke interception bracket component 2 at least comprises a concave structure so as to enable the water body to impact to form arc-shaped water resistance;

The rotary cutter assembly 1 is arranged on the outer wall of the flow blocking interception frame assembly 2 and driven by water flow to rotate, the rotary cutter assembly 1 comprises a plurality of blades 108 which are obliquely arranged, and the edge parts of the blades 108 are tangential to the side wall of the flow blocking interception frame assembly 2.

Specifically, the choke interception frame assembly 2 arranged inside the sewage drain provides the geometric framework 201 to be fixedly clamped inside to block and intercept garbage, and the inside is provided with the water tank 202 with a concave structure, so that the water tank can form an arc-shaped water resistance with an impacting water body, and garbage wound outside the geometric framework 201 is flushed away and flows out along sewage; the inner water tank 202 of the choke interception bracket assembly 2 can be of a convex structure, on one hand, water resistance can be generated, and linear garbage can be wound through the annular water tank 202; the inner water tank 202 of the choked flow interception frame assembly 2 can also be a filter screen structure, can still generate water resistance, and can also enable water flow to pass through the grooves of the inner water tank to drive the rotary cutting tool assembly 1 to rotate;

The rotary cutter assembly 1 is rotatably arranged on the other side of the flow blocking interception frame assembly 2, spiral blades 102 distributed in a circumferential array are arranged on the outer wall of the rotary cutter assembly, the spiral blades 102 are in spiral at a certain angle, the whole rotary cutter assembly 1 is driven to circumferentially rotate by the impact of water flow, blades 108 which are obliquely arranged are arranged on the outer wall of the spiral blades 102, the blades 108 can be matched with the inner wall of a sewage drainage pipe to cut internal garbage, and the edge parts of the blades 108 are tangential to the back of the flow blocking interception frame assembly 2.

In the above technical solution, through the arrangement of the water tank 202 with the Y-shaped structure inside the geometric framework 201, on one hand, larger water resistance can be provided, on the other hand, larger water flow can pass through to drive the rotation of the rear rotary cutter assembly 1, and the linear garbage wound on the water tank 202 can be ejected out due to the generation of the water resistance and flows out along the water flow; the corrugated plates 103 are tangent to the grinding plates 203, and the positions of the corrugated plates 103 are closer to the geometric framework 201 than the positions of the blades 108, so that linear garbage is firstly wound by the rotating corrugated plates 103 in a matching way, then is ground by contact with the grinding plates 203 to be disconnected, and can be kept to rotate by the arrangement of the cutting knives 105 due to the pushing of water flow, and can be tangent to the garbage wound between the corrugated plates 103 to continuously keep grinding.

As an embodiment of the present invention, the flow blocking interception frame assembly 2 includes a geometric framework 201, and a water tank 202 with a concave structure is located on the geometric framework 201 to form a water resistance, and the concave structure can be any structure which is well known to those skilled in the art of the family such as X-type, square or O-type and can form a water resistance, and the main function of the structure is to form a water resistance by sewage impact, and enable the water impact to drive the rotary cutter assembly 1 to keep rotating circumferentially and eject linear garbage wound outside the water tank 202.

As shown in fig. 1 and 2, the concave structure is a "Y" structure, and the inner center of the geometric framework 201 needs to be provided with a connecting block, so that the rotating shaft 101 at the connection position with the rotary cutter assembly 1 can be shielded, linear garbage is prevented from being wound in the rotating shaft 101, square or O-shaped garbage cannot be used, the concave structure of the "Y" structure has a large enough space to allow water flow to pass through, so that the rotary cutter assembly 1 on the back can be driven to rotate, the circular geometric framework 201 is equally divided into three parts, the linear garbage with winding risk on the rotating shaft 101 can be blocked, and enough water resistance can be generated to eject the garbage blocked on the water tank 202, and the garbage is carried out through water flow.

As another embodiment provided by the present invention, the back of the geometric framework 201 on the choke intercept bracket assembly 2 is provided with a convex portion, and the convex portion is tangential to the cutting edge portion of the blade 108.

As a further embodiment provided by the invention, at least one abrasive disc 203 is arranged on the surface of the protruding part, the abrasive disc 203 is tangential to the cutting edge part of the blade 108, the rotary-cut cutter assembly 1 can be driven to rotate through the impact of water flow, and the abrasive disc 203 and the blade 108 can be kept in friction, so that the linear garbage ejected by water resistance is clamped inside the abrasive disc 203 and the blade 108 through the rotation of the blade 108, and the linear garbage is cut through the rotation friction.

As still another embodiment of the present invention, a corrugated plate 103 is disposed on an outer wall of a side of a blade 108, concave-convex portions 109 are disposed on a surface of the corrugated plate 103, the concave-convex portions 109 are tangent to the grinding plate 203, the concave-convex portions 109 can be in a structure capable of being clamped to a linear clamping machine known to those skilled in the art of the family of wave, straight tooth or sharp tooth, each concave-convex portion 109 is used for being clamped to garbage ejected from the water tank 202 in a rotating fit manner, and when the garbage rotates, the linear garbage is straightened through cooperation between each concave-convex portion 109, and is ground with the grinding plate 203, so that the garbage is disconnected and prevented from being wound on the rotating shaft 101.

As shown in fig. 1, 2, 3 and 4, the concave-convex portion 109 is of a W-shaped structure to clamp and wind the linear garbage, and the protruding block of the W-shaped structure is narrower, so that the linear garbage ejected from the water tank 202 by the water resistance can be conveniently clamped and wound through the rotating concave-convex portion 109, the linear garbage can be conveniently kept in a straight state when the concave-convex portion 109 rotates, the concave-convex portion 109 is tangential to the grinding plate 203, and the grinding operation with the grinding plate 203 is convenient to break, so that the linear garbage is prevented from being wound on the rotating shaft 101, and the device is prevented from being damaged.

In still another embodiment of the present invention, the blade 108 is further provided with a blade groove 104, sliding grooves 106 are formed in inner walls of two opposite sides of the blade groove 104, and a cutting blade 105 is movably disposed in the blade groove 104, so that the cutting blade 105 cuts linear garbage wound between the concave-convex portions 109 and garbage flowing into the blade groove 104 from sewage.

As a further embodiment of the present invention, the cutting blade 105 has a double-edged structure, and the cutting efficiency can be improved by the bidirectional blade, which can be achieved by rotating the rotary cutter assembly 1 in the circumferential direction to keep the cutting blade 105 reciprocating in the blade slot 104.

Moreover, the cutting knife 105 also keeps rotating circumferentially by the pressure of the inward impact of the water flow, so that the cutting edge can be tangential to the linear garbage clamped on the concave-convex part 109, and the linear garbage can be jointly ground with the grinding sheet 203 to clamp the garbage on the concave-convex part 109, thereby accelerating the cutting speed and preventing the linear garbage from winding on the outer wall of the rotating shaft 101.

Working principle: the device is clamped in the sewage pipes through a geometric framework 201 with a circular outer wall of a flow blocking interception frame assembly 2, and the rotary cutter assembly 1 is rotatably arranged at the back of the flow blocking interception frame assembly 2 through the arrangement of a rotating shaft 101 and a rotating block 107;

Through the arrangement of the water tank 202 with the Y-shaped structure, sewage can flow through the water tank with larger water resistance and larger circulation space, so that the sewage can impact the spiral fan blade 102 in a spiral shape, the whole spiral fan blade 102 can keep rotating circumferentially, and the blades 108 on the outer wall of the spiral fan blade 102 are matched with the inner wall of the pipeline to cut garbage;

The water resistance generated by the water tank 202 can pop up the linear garbage wound on the water tank 202 to flow out along the water flow, and as the distance between the corrugated plate 103 and the water tank 202 is closer than the distance between the blade 108 and the water tank 202, the linear garbage which does not flow out along the water flow out can be clamped by the rotary concave-convex part 109;

Then the clamped linear garbage and the grinding disc 203 are subjected to rotational friction, so that the clamped linear garbage is ground to be broken, the rotating shaft 101 and the rotating block 107 cannot be wound, and the cutting blade 105 arranged inside the blade groove 104 can keep reciprocating motion inside the blade groove 104 for bidirectional cutting along with the rotation of the rotary cutting tool assembly 1, and the cutting blade 105 can keep circumferential rotation through the impact of water flow, so that the cutting edge of the cutting blade 105 can keep tangent with the concave-convex part 109, and the garbage clamped on the concave-convex part 109 is cut.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the invention, which is defined by the appended claims.

Claims (1)

1. Sewage treatment fortune dimension device based on BIM technique, its characterized in that is including setting up in the inside anti-blocking mechanism of blow off pipeline, anti-blocking mechanism includes:

the choke interception bracket assembly (2) at least comprises a concave structure so as to enable the water body to impact to form arc-shaped water resistance;

The rotary cutter assembly (1) is arranged on the outer wall of the flow blocking interception frame assembly (2) and driven by water flow to rotate, the rotary cutter assembly (1) comprises a plurality of blades (108) which are obliquely arranged, and the cutting edge parts of the blades (108) are tangential to the side wall of the flow blocking interception frame assembly (2); the choke interception bracket assembly (2) comprises a geometric framework (201), and the concave structure is positioned on the geometric framework (201) to form water resistance; the inside of the geometric framework (201) is of a Y-shaped structure, and the concave structure is positioned inside the Y-shaped structure so as to maximize the formed water resistance area and the formed running water area; the back of the geometric framework (201) on the flow blocking interception frame assembly (2) is provided with a protruding part, and the protruding part is tangent with the cutting edge part of the blade (108); at least one grinding disc (203) is arranged on the protruding part, and the grinding disc (203) is tangential to the cutting edge part of the blade (108); a corrugated plate (103) is arranged on one side of the cutting edge of the blade (108), a concave-convex part (109) is arranged on the surface of the corrugated plate (103), and the concave-convex part (109) is tangential to the grinding disc (203); the concave-convex part (109) is in a W-shaped structure to clamp and wind the linear garbage; a through groove is formed in the blade (108), and a cutting knife (105) is movably arranged in the through groove to cut the concave-convex part (109) to wind garbage; the cutting knife (105) is in a double-edge structure, and the circumferential rotation of the rotary cutting knife assembly (1) drives the cutting knife (105) to keep reciprocating; the cutting blade (105) is driven by water flow to keep rotating so as to be tangent to the concave-convex part (109) of the corrugated plate (103).