CN111995069A - Be used for urban river water treatment solid particle bacterial to throw feeder apparatus - Google Patents

Abstract

The invention discloses a solid particle strain adding device for urban river water treatment, and relates to the technical field of urban environmental protection; the discharging mechanism is arranged on the upper side of the discharging bin, discharging square pipes are embedded and fixed on the left side and the right side of the discharging bin and are communicated with the discharging bin, the discharging square pipes are arranged on the outer side of the fixing frame after penetrating through the fixing frame, a plurality of discharging pipes are embedded and fixed at the bottoms of the discharging square pipes, and the feeding mechanism is arranged on the upper side of the discharging pipes; can make the even in the river course that falls of bacterial to, can increase or reduce the quantity of bacterial according to the pollution degree of the water in the river course, alleviateed personnel's working strength, thereby improve water treatment's efficiency.

Description

Be used for urban river water treatment solid particle bacterial to throw feeder apparatus

Technical Field

The invention relates to the technical field of urban environmental protection, in particular to a solid particle strain adding device for urban riverway water treatment.

Background

With the development of urban scale and economic society, urban river channels are polluted to different degrees, and the current urban river channel pollution problem is more prominent; the water ecology and the urban landscape have been influenced, the quality of water in the river course is unstable, can take place the alga and flood, the water blacken and smelly, phenomenons such as mosquito and fly breed, seriously influence the environment of peripheral region, therefore, need to spend a large amount of time and economy and clear up the river course, common water treatment method is taking out earlier impurity in the river course, then spill into the granule bacterial in toward the river course, react to water, thereby improve the quality of water, but, because the river course is great, operating personnel is when carrying out manual operation, the inhomogeneous of granule bacterial input, make the input effect unsatisfactory, and, long-time personnel throw the material manually, intensity of labour has been increased.

Disclosure of Invention

Aiming at the defects and shortcomings of the prior art, the invention provides the solid particle strain adding device for the urban riverway water treatment, which has the advantages of simple structure, reasonable design and convenient use, can enable strains to uniformly fall in a riverway, can increase or reduce the number of the strains according to the pollution degree of water in the riverway, and lightens the working intensity of personnel, thereby improving the water treatment efficiency.

In order to achieve the purpose, the invention adopts the technical scheme that: the automatic discharging device comprises a fixing frame, a material placing frame and a material discharging bin, wherein the fixing frame is symmetrically fixed at the left and right of the bottom of the material placing frame, and the material discharging bin is embedded and fixed at the bottom of the material placing frame; the method is characterized in that: the feeding mechanism is arranged on the upper side of the discharging bin, the discharging square tubes are embedded and fixed on the left side and the right side of the discharging bin and are communicated with the discharging bin, the discharging square tubes are arranged on the outer side of the fixing frame after penetrating through the fixing frame, a plurality of discharging tubes are embedded and fixed at the bottoms of the discharging square tubes, and the feeding mechanism is arranged on the upper sides of the discharging tubes;

the discharging mechanism comprises a first operating box, a first motor, a first gear, a second gear, a rotating rod, a sliding frame and an inserting block, wherein supporting blocks are symmetrically fixed in the discharging frame left and right, the first operating box is fixed between the left supporting block and the right supporting block, the first motor is fixed on the rear side of the first operating box, a rotating shaft is fixed after an output shaft of the first motor passes through a rear side plate of the first operating box, the first gear is sleeved and fixed on the rotating shaft, the second gear is meshed and arranged on one side of the first gear, a rotating shaft is arranged in the second gear in a penetrating and fixed mode, the rear end of the rotating shaft is arranged on the inner wall of the rear side of the first operating box in a rotating mode through a bearing, supporting shafts are arranged on the front sides of the first gear and the second gear in a rotating mode through bearings in a rotating mode, the rotating rod is sleeved and fixed on the supporting shafts, a supporting rod is arranged at the bottom end of the rotating rod in a penetrating and fixed mode, and the, a fixed seat is fixed on the inner bottom surface of the first operation box, the fixed seat is arranged on the rear side of the sliding frame, a sliding groove is formed in the fixed seat, a sliding block is fixed on the rear side of the sliding frame, the sliding block is arranged in the sliding groove in an up-and-down sliding mode, a driving block is fixed on the rear side of the sliding block, an inserting block is fixed on the bottom of the driving block after the bottom of the driving block penetrates through a bottom plate of the first operation box, and the inserting block is inserted into the discharging;

the feeding mechanism comprises a second operation box, a second motor, a third gear, a gear block, a connecting rod and a limiting block, wherein a plurality of second operation boxes are fixed on a discharging pipe, the second motor is fixed on the front side of each second operation box in a bilateral symmetry manner, an output shaft of the second motor penetrates through a front side plate of each second operation box and is fixed with a rotating shaft, the third gear is sleeved and fixed on the rotating shaft, the gear block is arranged between the left gear and the right gear, racks are fixed on the left side and the right side of each gear block, the racks are meshed with the third gear on one side of each rack, a support block is arranged on the upper side of each gear block, the support block is fixed on the inner top surface of each second operation box, a slot is formed in the upper side of each gear block, the support block is inserted into the slot, guide grooves are formed in the gear blocks positioned on the front side and the rear side of the slot, guide rods are fixed on the front side and the rear side of each support block, the bottom end of the connecting rod sequentially penetrates through the bottom plate of the second operating box and the upper top plate of the discharging square pipe from top to bottom, and then a limiting block is fixed and inserted into the discharging pipe;

the discharging frame is fixedly provided with a control panel, the first motor, the second motor and the control panel are respectively connected with a power supply on the ship, and the first motor and the second motor are connected with the control panel.

Furthermore, a support rod is fixed on the right side of the fixing frame, a support sleeve is sleeved and fixed on the discharge square tube, a support is fixed on the support sleeve, and the support is connected and fixed with the support rod; the discharging square tube is supported by the supporting rod and the supporting sleeve.

Furthermore, a limiting mechanism is arranged at the discharging end of the discharging square tube and comprises a third operating box, a third motor, a screw rod, a sleeve and a stop block, the third operating box is fixed on the discharging square tube, the third motor is fixed in the third operating box, the screw rod is fixed on an output shaft of the third motor, the sleeve is arranged on the screw rod in a screwed connection mode through threads, the other end of the sleeve penetrates through the third operating box and is fixed with a top block, a limiting rod is fixed at the bottom of the top block, the stop block is fixed at the bottom end of the limiting rod, and the stop block is arranged in the discharging square tube after penetrating through the side wall of the discharging square tube; the third motor is respectively connected with the control panel and a power supply on the ship; the third motor is started to drive the screw rod to rotate, and the sleeve is driven to move through the threads, so that the ejector block moves, the stop block moves, and the stop block limits and stops strains in the discharging square tube.

Furthermore, the edges all around of stopper all be fixed with the leak protection pad, the leak protection pad makes the stopper and arranges the contact between the material pipe inseparabler.

Furthermore, a supporting seat is arranged at the lower side of the discharging bin, the left side and the right side of the supporting seat are respectively connected and fixed with the corresponding fixing frames, supporting frames are symmetrically fixed on the supporting seat in the left and right directions, and the discharging square tubes are arranged in the supporting frames; the square discharging pipe is supported and stabilized by the supporting frame in the discharging process.

The working principle of the invention is as follows:

the method comprises the following steps: installing and feeding: the device is installed on a ship, a power supply is connected, strains are put in a material placing frame, and when the ship starts in a river channel, the strains flow into the river channel along with a material discharging square pipe;

step two: controlling discharging: when the insert block moves downwards to the discharging bin, strains in the discharging bin are limited and cannot flow into the discharging bin, and when the insert block moves upwards and is far away from the discharging bin, the strains flow into the discharging bin and flow into the discharging direction pipe;

step three: feeding control: starting through No. two motors, drive No. three gear revolve, control two No. two motors and be positive and negative motor, when the rotation direction of controlling two No. two motors is opposite, make the rotation direction of two No. three gears opposite, thereby the meshing makes the tooth piece carry out ascending removal from top to bottom, the tooth piece is at the removal in-process, carry out the direction cooperation through guide arm and guide slot, the tooth piece removes the stopper that drives the downside and removes, when stopper rebound, keep away from row material pipe, the bacterial is then from arranging in the material intraductal flow to the river course, when the stopper rebound, set up in row when expecting intraductal, then carry on spacingly to the bacterial, make the bacterial can't flow to in the river course.

After adopting the structure, the invention has the beneficial effects that:

1. the insertion block is driven to move up and down, so that the strains in the material placing frame are limited, the discharge amount of the strains is controlled, when a large amount of strains need to be discharged, the insertion block only needs to be moved up, and when the strains need to be stopped being discharged in a river channel, the insertion block is moved down until the insertion block is inserted into a material discharging bin;

2. the plurality of discharging pipes arranged at the bottom of the discharging square pipe can control the discharging amount according to the actual requirements of a river channel, and the feeding amount of strains is controlled by driving the limiting block to move in the vertical direction;

3. arrange material side's pipe slope setting, make the bacterial can follow and arrange the material operation by the gravity factor to, arrange the material in-process, through arranging material side's pipe and supporting, improve the steadiness of arranging material side's pipe.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a top view of fig. 1.

Fig. 3 is a sectional view taken along line a-a in fig. 2.

Fig. 4 is an enlarged view of a portion B in fig. 3.

Fig. 5 is an enlarged view of the portion C in fig. 3.

Fig. 6 is an enlarged view of a portion D in fig. 3.

Fig. 7 is an enlarged view of a portion E in fig. 3.

Fig. 8 is a schematic view of the connection between the tooth block, the support block and the third gear in the invention.

Description of reference numerals:

the device comprises a fixed frame 1, a material placing frame 2, a material discharging bin 3, a material discharging mechanism 4, a first operation box 4-1, a first motor 4-2, a first gear 4-3, a second gear 4-4, a rotating rod 4-5, a sliding frame 4-6, an inserting block 4-7, a supporting block 4-8, a fulcrum shaft 4-9, a supporting rod 4-10, a fixed seat 4-11, a sliding groove 4-12, a sliding block 4-13, a driving block 4-14, a material discharging square tube 5, a material feeding mechanism 6, a second operation box 6-1, a second motor 6-2, a third gear 6-3, a guide rod 6-4, a tooth block 6-5, a slot 6-6, a guide groove 6-7, a connecting rod 6-8, a limiting block 6-9, a rack 6-10, a supporting block 6-11, a material discharging tube 7, a first motor, a, The device comprises a support rod 8, a support sleeve 9, a support 10, a limiting mechanism 11, a third operating box 11-1, a third motor 11-2, a screw rod 11-3, a sleeve 11-4, a stop block 11-5, a top block 11-6, a limiting rod 11-7, a leakage-proof pad 12, a support seat 13 and a support frame 14.

Detailed Description

The invention will be further described with reference to the accompanying drawings.

Referring to fig. 1 to 8, the technical solution adopted by the present embodiment is: the material discharging device comprises a fixed frame 1, a material discharging frame 2 and a material discharging bin 3, wherein the fixed frame 1 is welded and fixed at the bottom of the material discharging frame 2 in a bilateral symmetry mode, the material discharging bin 3 is embedded and welded and fixed at the bottom of the material discharging frame 2, a supporting seat 13 is arranged at the lower side of the material discharging bin 3, the left side and the right side of the supporting seat 13 are respectively welded and fixed with the corresponding fixed frame 1, supporting frames 14 are welded and fixed on the supporting seat 13 in a bilateral symmetry mode, and a material discharging square tube 5 is; the material feeding device comprises a discharging mechanism 4, a discharging square tube 5 and a feeding mechanism 6, wherein the discharging mechanism 4 is arranged on the upper side of a discharging bin 3, the discharging square tube 5 is embedded and welded on the left side and the right side of the discharging bin 3, the discharging square tube 5 is communicated with the discharging bin 3, the discharging square tube 5 is arranged on the outer side of a fixing frame 1 after passing through the fixing frame 1, a support rod 8 is welded and fixed on the right side of the fixing frame 1, a support sleeve 9 is sleeved and welded on the discharging square tube 5, a support 10 is welded and fixed on the support sleeve 9, the support 10 is welded and fixed with the support rod 8, two discharging tubes 7 are embedded and welded and fixed at the bottom of the discharging square tube 5, and the feeding mechanism 6 is arranged on the upper side;

the discharging mechanism 4 comprises a first operating box 4-1, a first motor 4-2, a first gear 4-3, a second gear 4-4, a rotating rod 4-5, a sliding frame 4-6 and an inserting block 4-7, wherein supporting blocks 4-8 are symmetrically welded and fixed in the discharging frame 2 from left to right, the first operating box 4-1 is welded and fixed between the left supporting block 4-8 and the right supporting block 4-1, the first motor 4-2 with the model of 60KTYZ is fixed at the rear side of the first operating box 4-1 by screws, a rotating shaft is welded and fixed after an output shaft of the first motor 4-2 passes through a rear side plate of the first operating box 4-1, the first gear 4-3 is sleeved and welded and fixed on the rotating shaft, the second gear 4-4 is meshed and arranged at one side of the first gear 4-3, and a rotating shaft is arranged in the second gear 4-4 in a penetrating and welded and fixed mode, the rear end of the rotating shaft is screwed on the inner wall of the rear side of the first operation box 4-1 through a bearing, the front sides of the first gear 4-3 and the second gear 4-4 are both screwed through a bearing and provided with a fulcrum shaft 4-9, the fulcrum shaft 4-9 is sleeved and welded with a rotating rod 4-5, the bottom end of the rotating rod 4-5 is penetrated and welded with a support rod 4-10, the rear end of the support rod 4-10 is screwed on the sliding frame 4-6 through a bearing, the inner bottom surface of the first operation box 4-1 is welded and fixed with a fixed seat 4-11, the fixed seat 4-11 is arranged on the rear side of the sliding frame 4-6, a sliding groove 4-12 is arranged in the fixed seat 4-11, the rear side of the sliding frame 4-6 is welded and fixed with a sliding block 4-13, the sliding block 4-13 is arranged in the sliding groove 4-12 in a vertical sliding manner, a driving block 4-14 is fixedly welded on the rear side of the sliding block 4-13, an inserting block 4-7 is fixedly welded on the bottom of the driving block 4-14 after the bottom of the driving block 4-14 passes through a bottom plate of the first operation box 4-1, and the inserting block 4-7 is inserted in the discharging bin 3;

the feeding mechanism 6 comprises a second operation box 6-1, a second motor 6-2, a third gear 6-3, a gear block 6-5, a connecting rod 6-8 and a limiting block 6-9, two second operation boxes 6-1 are fixedly welded on a discharging pipe 7, the second motor 6-2 with the model of 60KTYZ is symmetrically fixed at the front side of the second operation box 6-1 by screws, a rotating shaft is fixedly welded after an output shaft of the second motor 6-2 passes through the front side plate of the second operation box 6-1, the third gear 6-3 is sleeved and fixedly welded on the rotating shaft, the gear block 6-5 is arranged between the left and right third gears 6-3, racks 6-10 are fixedly welded at the left and right sides of the gear block 6-5, and the racks 6-10 are meshed with the third gear 6-3 at one side of the rack, the upper side of the tooth block 6-5 is provided with a support block 6-11, the support block 6-11 is welded and fixed on the inner top surface of the second operation box 6-1, the upper side of the tooth block 6-5 is provided with a slot 6-6, the support block 6-11 is inserted in the slot 6-6, the tooth block 6-5 positioned at the front side and the rear side of the slot 6-6 is provided with a guide slot 6-7 in a through way, the front side and the rear side of the support block 6-11 are both welded and fixed with guide rods 6-4, the guide rods 6-4 are arranged in the guide slot 6-7 in a sliding way, the bottom of the tooth block 6-5 is welded and fixed with a connecting rod 6-8, the bottom end of the connecting rod 6-8 sequentially passes through the bottom plate of the second operation box 6-1 and the upper top plate of the square tube 5 from top to bottom and is welded and fixed with a, the four edges of the limiting blocks 6-9 are fixedly glued with the leakage-proof pads 12 by using an adhesive;

a limiting mechanism 11 is arranged at the discharging end of the discharging square tube 5, the limiting mechanism 11 comprises a third operating box 11-1, a third motor 11-2, a screw 11-3, a sleeve 11-4 and a stop block 11-5, the third operating box 11-1 is fixedly welded on the discharging square tube 5, the third motor 11-2 with the model of 60KTYZ is fixed in the third operating box 11-1 by screws, the screw 11-3 is fixedly welded on an output shaft of the third motor 11-2, the sleeve 11-4 is arranged on the screw 11-3 in a screwing way through screw threads, after the other end of the sleeve 11-4 passes through the third operating box 11-1, a top block 11-6 is fixedly welded, a limiting rod 11-7 is fixedly welded at the bottom of the top block 11-6, and a stop block 11-5 is fixedly welded at the bottom end of the limiting rod 11-7, the stop block 11-5 is arranged in the discharging square tube 5 after penetrating through the side wall of the discharging square tube 5;

the control panel is fixed on the material placing frame 2 through screws, the first motor 4-2, the second motor 6-2, the third motor 11-2 and the control panel are respectively connected with a power supply on a ship through power lines, and the first motor 4-2, the second motor 6-2 and the third motor 11-2 are connected with the control panel through lead wires.

The working principle of the specific embodiment is as follows:

the method comprises the following steps: installing and feeding: the device is installed on a ship, a power supply is connected, strains are put in a material placing frame 2, and when the ship starts in a river channel, the strains flow into the river channel along with a material discharging square pipe 5;

step two: controlling discharging: the first gear 4-3 is driven to rotate by starting the first motor 4-2, the first gear 4-3 is meshed with the second gear 4-4 in a rotating way, when the first gear 4-3 and the second gear 4-4 rotate simultaneously, the rotating rod 4-5 is driven to rotate, the rotating rod 4-5 drives the sliding frame 4-6 to move in the up-and-down direction when rotating, the sliding frame 4-6 is guided by the sliding fit of the sliding block 4-13 and the sliding groove 4-12 when moving, meanwhile, the sliding block 4-13 drives the driving block 4-14 at the rear side to move, so that the inserting block 4-7 moves, when the inserting block 4-7 moves downwards into the discharging bin 3, strains in the discharging bin 2 are limited and cannot flow into the discharging bin 3, when the insert blocks 4-7 move upwards and are far away from the discharging bin 3, the strains flow into the discharging bin 3 and then flow into the discharging square pipe 5;

step three: feeding control: the second motor 6-2 is started to drive the third gear 6-3 to rotate, the left and right second motors 6-2 are positive and negative motors, when the rotating directions of the left and the right second motors 6-2 are opposite, the rotating directions of the two third gears 6-3 are opposite, so that the engagement causes the tooth block 6-5 to move in the up-and-down direction, and during the movement of the tooth block 6-5, through the guide matching of the guide rod 6-4 and the guide groove 6-7, the tooth block 6-5 moves to drive the limiting block 6-9 at the lower side to move, when the limiting blocks 6-9 move upwards and are far away from the material discharging pipe 7, the strains flow into the river channel from the material discharging pipe 7, when the limiting blocks 6-9 move downwards and are arranged in the discharge pipe 7, the strains are limited, so that the strains cannot flow into a river channel.

After adopting above-mentioned structure, this embodiment beneficial effect does:

1. the insertion blocks 4-7 are driven to move up and down, so that strains in the material placing frame 2 are limited, the discharge amount of the strains is controlled, when a large amount of strains need to be discharged, the insertion blocks 4-7 only need to be moved up, and when the strains need to be stopped being discharged in a river channel, the insertion blocks 4-7 are moved down until the insertion blocks are inserted into the material placing bin 3;

2. a plurality of discharging pipes 7 arranged at the bottom of the discharging square pipe 5 can control the discharging amount according to the actual requirements of a river channel, and the feeding amount of strains is controlled by driving the limiting blocks 6-9 to move in the vertical direction;

3. the stop block 11-5 is arranged at the tail end of the discharging square tube 5 to limit strains, so that the requirement of strain throwing in a river channel is met;

4. arrange material side's pipe 5 slope setting, make the bacterial can follow and arrange the material operation by the gravity factor to, arrange the material in-process, through arranging material side's pipe 5 and supporting, improve the steadiness of arranging material side's pipe 5.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent substitutions made by those skilled in the art to the technical solutions of the present invention should be covered within the scope of the claims of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (6)

1. A solid particle strain feeding device for urban riverway water treatment comprises a fixing frame (1), a material placing frame (2) and a material discharging bin (3), wherein the fixing frame (1) is symmetrically fixed at the left and right of the bottom of the material placing frame (2), and the material discharging bin (3) is embedded and fixed at the bottom of the material placing frame (2); the method is characterized in that: the automatic feeding device is characterized by further comprising a discharging mechanism (4), a discharging square pipe (5) and a feeding mechanism (6), wherein the discharging mechanism (4) is arranged on the upper side of the discharging bin (3), the discharging square pipe (5) is embedded and fixed on the left side and the right side of the discharging bin (3), the discharging square pipe (5) is communicated with the discharging bin (3), the discharging square pipe (5) is arranged on the outer side of the fixing frame (1) after penetrating through the fixing frame (1), a plurality of discharging pipes (7) are embedded and fixed at the bottom of the discharging square pipe (5), and the feeding mechanism (6) is arranged on the upper side of each discharging pipe (7);

the discharging mechanism (4) comprises a first operating box (4-1), a first motor (4-2), a first gear (4-3), a second gear (4-4), a rotating rod (4-5), a sliding frame (4-6) and an inserting block (4-7), supporting blocks (4-8) are symmetrically fixed in the discharging frame (2) left and right, the first operating box (4-1) is fixed between the left supporting block and the right supporting block (4-8), the first motor (4-2) is fixed on the rear side of the first operating box (4-1), a rotating shaft is fixed after an output shaft of the first motor (4-2) penetrates through a rear side plate of the first operating box (4-1), the first gear (4-3) is sleeved and fixed on the rotating shaft, the second gear (4-4) is arranged on one side of the first gear (4-3) in a meshing manner, a rotating shaft penetrates through and is fixed in the second gear (4-4), the rear end of the rotating shaft is screwed on the inner wall of the rear side of the first operating box (4-1) through a bearing, a fulcrum shaft (4-9) is screwed on the front sides of the first gear (4-3) and the second gear (4-4) through a bearing, a rotating rod (4-5) is sleeved and fixed on the fulcrum shaft (4-9), a support rod (4-10) is penetrated and fixed at the bottom end of the rotating rod (4-5), the rear end of the support rod (4-10) is screwed on the sliding frame (4-6) through a bearing, a fixed seat (4-11) is fixed on the inner bottom surface of the first operating box (4-1), the fixed seat (4-11) is arranged on the rear side of the sliding frame (4-6), a sliding groove (4-12) is formed in the fixed seat (4-11), a sliding block (4-13) is fixed on the rear side of the sliding frame (4-6), the sliding block (4-13) is arranged in a sliding groove (4-12) in a vertical sliding mode, a driving block (4-14) is fixed on the rear side of the sliding block (4-13), an inserting block (4-7) is fixed on the bottom of the driving block (4-14) after penetrating through a bottom plate of the first operating box (4-1), and the inserting block (4-7) is inserted into the discharging bin (3);

the feeding mechanism (6) comprises a second operation box (6-1), a second motor (6-2), a third gear (6-3), a gear block (6-5), a connecting rod (6-8) and a limiting block (6-9), a plurality of second operation boxes (6-1) are fixed on the discharging pipe (7), the second motor (6-2) is fixed on the front side of the second operation box (6-1) in a bilateral symmetry manner, a rotating shaft is fixed after an output shaft of the second motor (6-2) passes through a front side plate of the second operation box (6-1), the third gear (6-3) is sleeved and fixed on the rotating shaft, the gear block (6-5) is arranged between the left and right third gears (6-3), racks (6-10) are fixed on the left and right sides of the gear block (6-5), the rack (6-10) is meshed with the third gear (6-3) on one side of the rack, a support block (6-11) is arranged on the upper side of the tooth block (6-5), the support block (6-11) is fixed on the inner top surface of the second operation box (6-1), a slot (6-6) is formed in the upper side of the tooth block (6-5), the support block (6-11) is inserted into the slot (6-6), guide slots (6-7) are formed in the tooth blocks (6-5) on the front side and the rear side of the slot (6-6) in a penetrating mode, guide rods (6-4) are fixed on the front side and the rear side of the support block (6-11), the guide rods (6-4) are arranged in the guide slots (6-7) in a sliding mode, a connecting rod (6-8) is fixed at the bottom of the tooth block (6-5), and the bottom end of the connecting rod (6-8) sequentially penetrates through a bottom plate (6-1) And a limiting block (6-9) is fixed behind the upper top plate of the discharging square pipe (5), and the limiting block (6-9) is inserted in the discharging pipe (7);

the ship-mounted automatic control device is characterized in that a control panel is fixed on the material placing frame (2), a first motor (4-2), a second motor (6-2) and the control panel are respectively connected with a power supply on a ship, and the first motor (4-2) and the second motor (6-2) are connected with the control panel.

2. The solid particle strain feeding device for urban river water treatment according to claim 1, wherein the solid particle strain feeding device comprises: a support rod (8) is fixed on the right side of the fixing frame (1), a support sleeve (9) is sleeved and fixed on the discharging square tube (5), a support seat (10) is fixed on the support sleeve (9), and the support seat (10) is fixedly connected with the support rod (8); the discharging square pipe (5) is supported by a support rod (8) and a support sleeve (9).

3. The solid particle strain feeding device for urban river water treatment according to claim 1, wherein the solid particle strain feeding device comprises: the discharging end of the discharging square tube (5) is provided with a limiting mechanism (11), the limiting mechanism (11) comprises a third operating box (11-1), a third motor (11-2), a screw rod (11-3), a sleeve (11-4) and a stop block (11-5), the third operating box (11-1) is fixed on the discharging square tube (5), the third motor (11-2) is fixed in the third operating box (11-1), the screw rod (11-3) is fixed on an output shaft of the third motor (11-2), the sleeve (11-4) is arranged on the screw rod (11-3) in a screwed connection mode through threads, a top block (11-6) is fixed after the other end of the sleeve (11-4) penetrates through the third operating box (11-1), and a limiting rod (11-7) is fixed at the bottom of the top block (11-6), a stop block (11-5) is fixed at the bottom end of the limiting rod (11-7), and the stop block (11-5) is arranged in the discharging square tube (5) after penetrating through the side wall of the discharging square tube (5); the third motor (11-2) is respectively connected with the control panel and a power supply on the ship; and a third motor (11-2) is started to drive a screw rod (11-3) to rotate, and a sleeve (11-4) is driven to move through threads, so that the top block (11-6) moves, the stop block (11-5) moves, and the stop block (11-5) limits and stops strains in the discharging square pipe (5).

4. The solid particle strain feeding device for urban river water treatment according to claim 1, wherein the solid particle strain feeding device comprises: the periphery of the limiting blocks (6-9) is fixed with leakage-proof pads (12), and the leakage-proof pads (12) enable the limiting blocks (6-9) to be in closer contact with the discharge pipe (7).

5. The solid particle strain feeding device for urban river water treatment according to claim 1, wherein the solid particle strain feeding device comprises: a supporting seat (13) is arranged on the lower side of the discharging bin (3), the left side and the right side of the supporting seat (13) are respectively connected and fixed with the corresponding fixing frames (1), supporting frames (14) are symmetrically fixed on the supporting seat (13) in the left-right direction, and the discharging square pipes (5) are arranged in the supporting frames (14); the discharging square tubes (5) are supported and stabilized by the supporting frames (14) in the discharging process.

6. The solid particle strain feeding device for urban river water treatment according to claim 1, wherein the solid particle strain feeding device comprises: the working principle is as follows:

the method comprises the following steps: installing and feeding: the device is arranged on a ship, a power supply is connected, strains are put in a material placing frame (2), and when the ship starts in a river channel, the strains flow into the river channel along with a material placing square pipe (5);

step two: controlling discharging: the first gear (4-3) is driven to rotate by starting the first motor (4-2), the first gear (4-3) is meshed to drive the second gear (4-4) to rotate, when the first gear (4-3) and the second gear (4-4) rotate simultaneously, the rotating rod (4-5) is driven to rotate, the rotating rod (4-5) drives the sliding frame (4-6) to move up and down when rotating, the sliding frame (4-6) guides through the sliding fit of the sliding block (4-13) and the sliding groove (4-12) when moving, meanwhile, the sliding block (4-13) drives the driving block (4-14) on the rear side to move, so that the inserting block (4-7) moves, when the inserting block (4-7) moves downwards into the discharging bin (3), the strains in the material placing frame (2) are limited and cannot flow into the material discharging bin (3), and when the insert blocks (4-7) move upwards and are far away from the material discharging bin (3), the strains flow into the material discharging bin (3) and then flow into the material discharging square pipe (5);

step three: feeding control: the second motor (6-2) is started to drive the third gear (6-3) to rotate, the left and right second motors (6-2) are positive and negative motors, when the rotating directions of the left and right second motors (6-2) are opposite, the rotating directions of the two third gears (6-3) are opposite, so that the tooth blocks (6-5) are meshed to move in the vertical direction, the tooth blocks (6-5) are in guiding fit with the guide grooves (6-7) through the guide rods (6-4) in the moving process, the tooth blocks (6-5) move to drive the limiting blocks (6-9) on the lower side to move, when the limiting blocks (6-9) move upwards, the tooth blocks are far away from the discharging pipe (7), strains flow into a river channel from the discharging pipe (7), and when the limiting blocks (6-9) move downwards, when the device is arranged in the discharge pipe (7), the strain is limited, so that the strain cannot flow into a river channel.

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