CN115532774A - Pressing block size adjustable waste residue cleaning integrated equipment - Google Patents

Abstract

The invention discloses a piece size-adjustable waste residue cleaning and processing integrated device for pressing, and relates to the technical field of gray cast iron processing. This pressing becomes piece size adjustable waste residue cleaning process integration equipment, the mode that adopts the water pump to draw water washs the waste residue, and water can at first through the outside heat dissipation chamber of motor when introducing to washing the frame, then the leak through heat dissipation chamber bottom flows in during the washing frame, thereby can take away the heat that the motor during operation produced in the design that the synchronous water circulation of utilization flows carrying out the stirring formula to the waste residue and wasing, through the motor, the interact of pivot and puddler can stir the waste residue when the sparge water, be favorable to improving the cleaning performance to the waste residue.

Description

Pressing block size-adjustable waste residue cleaning integrated equipment

Technical Field

The invention relates to the technical field of gray cast iron processing, in particular to waste residue cleaning and processing integrated equipment with adjustable pressing block size.

Background

The gray iron casting is basically characterized in that: the clay content is high, and moisture is low, and the volume of adding of buggy is also lower, and the grey iron casting adds the processing waste residue that can appear in man-hour, needs to avoid the more current operational environment that influences of waste residue to the processing waste residue clearance of casting.

As in application No.: CN210230986U, the utility model discloses a scrap treatment device based on gray iron casting processing, which belongs to the gray iron casting field, and comprises a base, supporting legs and a treatment box, wherein one side of the top of the base is fixedly connected with the bottom of the side surface of the treatment box through the supporting legs, the middle part of the top end of the base is clamped with a material receiving box, one side of the top of the treatment box is fixedly sleeved with a material suction mechanism, and the middle part of the top end of the treatment box is movably sleeved with a stirring mechanism; through setting up the base, handle the case and inhale material mechanism, can handle the inside of handling the case with the sweeps direct adsorption that produces, avoided the tradition to collect the processing to the sweeps and need occupy the problem of certain space of placing, processing factory area space utilization has been improved, later stage workman's the amount of labour has been reduced, thereby the cost of production has been reduced, simultaneously through setting up the inner bag, hot plate and material receiving box, can directly melt the processing to the sweeps, make the sweeps can the cooling forming iron plate, thereby be convenient for the later stage utilize the sweeps.

Similar to the above applications, there are currently deficiencies:

the size of briquetting is inconvenient to be adjusted when current waste residue cleaning integrated equipment uses, has the use limitation, and the thickness of briquetting is inconvenient to be adjusted simultaneously.

Therefore, in view of the above, research and improvement are made for the existing structure and defects, and an integrated device for cleaning and processing waste residue with adjustable pressing block size is provided, so as to achieve the purpose of having more practical value.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides integrated equipment for cleaning and processing waste residues with adjustable pressing block sizes, which solves the problems in the background art.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a pressing into size adjustable waste residue cleaning integration equipment, is including wasing frame and linking pipe, the front end one side of wasing the frame is provided with the water tank, and the right-hand member of water tank installs the auxiliary frame, the inside of auxiliary frame is provided with the water pump, the left end of water pump is connected with the water inlet, and the upper end of water pump is connected with the delivery port, the linking pipe sets up in the top of delivery port, the outside of linking pipe is provided with the protection casing, the inside left end of washing frame is provided with and is used for the supplementary briquetting subassembly that suppresses the blocking, and the briquetting subassembly includes vertical electronic slide rail, vertical slider, horizontal electronic slide rail, horizontal slider, first hydraulic cylinder and briquetting, vertical electronic slide rail has horizontal electronic slide rail through vertical slider sliding connection, and horizontal electronic slide rail has first hydraulic cylinder through horizontal slider sliding connection, the briquetting is installed to the output of first hydraulic cylinder, the below of briquetting is provided with the frame, and the inside of shaping frame is provided with and is used for assisting the fashioned adjusting part of waste residue, the adjusting part includes hot melt board, heat insulating board and second hydraulic cylinder, and the bottom of hot melt board is provided with the second hydraulic cylinder, the bottom of wash frame right-hand member installs the second hydraulic cylinder, wash frame surface and be provided with the side frame in the middle part.

Furthermore, the hot melt plates and the second hydraulic cylinders are distributed in a one-to-one correspondence manner, and the second hydraulic cylinders are distributed equidistantly relative to the bottom surface of the forming frame.

Furthermore, the end part of the connecting pipe is rotatably provided with a motor outer cover, the outer surface of the motor outer cover is provided with a support frame, and the bottom of the support frame is clamped with a positioning clamping groove.

Further, the left side of shaping frame is provided with collects the frame, and collects the internally mounted of frame and be used for carrying out the auxiliary assembly who collects to the waste residue of briquetting, auxiliary assembly puts the gas pole including holding frame, auxiliary plate body and end, and the bottom of holding the frame is provided with end and puts the gas pole, auxiliary plate body is installed to the output that end put the gas pole.

Further, the inside heat dissipation chamber that is provided with of motor dustcoat, and the mid-mounting in heat dissipation chamber has the motor, the output of motor has the pivot through drive shaft connection, and the bottom of pivot is connected with the puddler.

Furthermore, the heat dissipation cavity is of a circular ring structure, the interior of the heat dissipation cavity is of a hollow structure, and a leakage opening is formed in the bottom of the heat dissipation cavity.

Further, install the below of puddler and be used for carrying out filterable filtering component to wasing water, and filtering component includes first filter, second filter, external piece, extension rod and runs through the axle, the lower extreme surface of first filter is provided with the second filter, and the one end middle part of second filter is connected with the extension rod, it is provided with external piece to wash frame right side lower surface, and the internal rotation of external piece installs and runs through the axle, the surface and the extension rod structure as an organic whole that run through the axle.

Furthermore, first filtration pore has been seted up to the inside equidistance of first filter, the second filtration pore has been seted up to the inside equidistance of second filter, first filtration pore and second filtration pore are dislocation formula and distribute.

Further, first filter one end surface is provided with the protection component who is used for carrying out the protection to the picture, and protection component includes built-in piece, guiding axle, guard plate and push pedal, the inside of built-in piece is rotated and is installed the guiding axle, and the surface of guiding axle is provided with the guard plate, the right side externally mounted of guard plate has the push pedal, and push pedal one end surface middle part is connected with the hydraulic pressure gas pole.

Further, the left side of shaping frame is provided with collects the frame, and collects the internally mounted of frame and be used for carrying out the auxiliary assembly who collects to the waste residue of briquetting, auxiliary assembly puts the gas pole including holding frame, auxiliary plate body and end, and the bottom of holding the frame is provided with end and puts the gas pole, auxiliary plate body is installed to the output that end put the gas pole.

The invention provides a piece size-adjustable waste residue cleaning and processing integrated device for pressing, which has the following beneficial effects:

adopt the mode of water pump diversion to wash the waste residue, and water can at first pass through in the outside heat dissipation chamber of motor when introducing the washing frame, then flow into the washing frame through the leak of heat dissipation chamber bottom, thereby can utilize the design of water circulation flow to take away the heat that the motor during operation produced in the stirring formula washing synchronization to the waste residue, and can utilize filter assembly's design to carry out double filtration and rivers separation to the water of washing usefulness, be convenient for improve filtration and cleaning performance to the waste residue, can flow into the inside to the water tank after filtering the end, realize the repetitious usage to wasing water, effectively save the water resource, and can also utilize the design of adjustment subassembly to carry out angle modulation to motor housing and the part of connecting in the motor housing, thereby can make pivot and puddler remove from washing frame inside, waste residue after being convenient for wash utilizes the design of hydraulic pressure gas pole and push pedal to make the waste residue propelling movement after the washing inside the shaping frame, can utilize the inside adjustment subassembly of shaping frame and the briquetting subassembly of shaping frame top to carry out the briquetting shaping after wasing, be convenient for utilize the design of collecting the inside supplementary subassembly of frame to collect the waste residue of briquetting.

1. According to the integrated equipment for cleaning and processing the waste residues with adjustable pressing block sizes, the waste residues are cleaned in a water pump diversion mode, water can firstly pass through a heat dissipation cavity outside a motor when being introduced into a cleaning frame and then flows into the cleaning frame through a leakage opening at the bottom of the heat dissipation cavity, so that the heat generated during the work of the motor can be taken away by using the design of water circulation flow while the waste residues are cleaned in a stirring mode, the waste residues can be stirred during washing water through the interaction of the motor, a rotating shaft and a stirring rod, and the cleaning effect on the waste residues is favorably improved;

2. the integrated equipment for cleaning and processing the waste residues with adjustable pressing block sizes can utilize the design of a first filter plate and a second filter plate in a filter assembly to carry out double filtration on water for cleaning, and can utilize an external block when cleaning water is blocked about the first filter plate region, and the interaction of an extension rod and a through shaft can be utilized to adjust the angle of the second filter plate, so that the second filter plate can be tightly attached to the lower surface of the first filter plate, meanwhile, the first filter hole and the second filter hole in the first filter plate and the second filter plate are staggered, so that the first filter plate can be blocked to a certain degree, the cleaning water is prevented from directly flowing downwards under the condition of no obstruction, water can stay in a stirring region, the cleaning effect can be further improved, when the water is not required to be blocked, the interaction of the external block and the extension rod and the through shaft can be utilized to adjust the angle of the second filter plate, so that the second filter plate is in an inclined state, so that the water can be filtered by utilizing the second filter plate after the filtering is finished, the water can flow into a water tank again, and the water can be effectively used for many times;

3. the integrated equipment for cleaning and processing the waste residues with adjustable pressing block sizes can drive a blocking plate to block a pressing block assembly and a cleaning area on the right side of a cleaning frame through the interaction of an electric sliding rail and a sliding block, so that the waste residues can be prevented from being transferred to the inside of the forming frame without being cleaned when the waste residues are put on the surface of a first filtering plate, an electric push rod can be utilized after cleaning and draining are finished, the interaction of a rotating connecting rod and a top block is synchronously matched with a transverse plate and a built-in shaft in a rotating connection mode, so that support frames on two sides of a motor outer cover connected with the transverse plate are stopped being clamped with a positioning clamping groove, and meanwhile, through continuous adjustment of the angle of the motor outer cover, the rotating shaft and a stirring rod can be moved out of the inside of the cleaning frame, and a barrier-free space is provided for the movement of the waste residues after cleaning;

4. according to the integrated equipment for cleaning and processing the waste residues with adjustable pressing sizes, the push plate can be driven to move relative to the outer surface of the first filter plate through the design of the hydraulic air rod in the side frame, the waste residues after cleaning can be pushed into the forming frame through the position movement of the push plate, and when the push plate is not required to be used, the push plate can be protected from the outside through the design of the protection plate, so that the problem that the push plate is greatly damaged due to friction when a motor is used for driving the rotating shaft and the stirring rod to perform stirring type auxiliary cleaning on the outer surface of the first filter plate is avoided;

5. this kind of pressing becomes piece size adjustable waste residue cleaning integrated equipment, the size that can utilize through the briquetting needs can utilize the design of second hydraulic cylinder and heat insulating board to drive the adjustment of height about the hot melt board carries out, can utilize the difference in height between the adjacent hot melt board to wasing depositing of back waste residue, simultaneously can utilize the design that second hydraulic cylinder can be utilized according to the suppression size to drive other hot melt boards and carry out synchronous altitude mixture control, with this can enlarge the waste residue and place the area, the altitude mixture control that drives the hot melt board through second hydraulic cylinder makes the thickness of suppression briquetting can hole, thereby can utilize the design of heating board to carry out the waste residue heating in the hot melt board, can utilize vertical electronic slide rail simultaneously, vertical slider, the design of horizontal electronic slide rail and horizontal slider can drive first hydraulic cylinder and briquetting and carry out vertical and horizontal position shifting, the design that is convenient for utilizing first hydraulic cylinder drives the waste residue on the hot melt board surface and carries out the shaping of exerting pressure.

Drawings

FIG. 1 is a schematic view of the external structure of the integrated waste residue cleaning and processing equipment with adjustable pressing block size according to the present invention;

FIG. 2 is a schematic view of the internal structure of a cleaning frame of the integrated waste residue cleaning and processing equipment with adjustable pressing block sizes, according to the present invention;

FIG. 3 is a schematic view of the internal structure of a forming frame of the integrated waste residue cleaning and processing equipment with adjustable pressing block size according to the present invention;

FIG. 4 is a schematic view of a first filter plate and a second filter plate of the integrated waste residue cleaning treatment apparatus with adjustable size of pressing blocks according to the present invention, illustrating a staggered structure in a top view;

FIG. 5 is a schematic view of the internal connection structure of the motor housing of the integrated waste residue cleaning and processing device with adjustable pressing block size according to the present invention;

FIG. 6 is a schematic view of the internal structure of a collecting frame of the integrated waste residue cleaning and processing equipment with adjustable pressing block size according to the present invention;

FIG. 7 is an enlarged schematic structural view of a part A in FIG. 2 of the integrated waste residue cleaning and processing apparatus with adjustable pressing block size of the present invention.

In the figure: 1. cleaning the frame; 2. a side frame; 3. an adjustment assembly; 301. a vertical plate; 302. an electric push rod; 303. Rotating the connecting rod; 304. a top block; 305. a transverse plate; 306. a built-in shaft; 307. a fixed block; 4. an auxiliary frame; 5. a water pump; 6. a water outlet; 7. a water inlet; 8. a water tank; 9. a barrier assembly; 901. an electric slide rail; 902. a slider; 903. a barrier plate; 10. a hydraulic gas lever; 11. a filter assembly; 1101. a first filter plate; 1102. a second filter plate; 1103. an external block; 1104. an extension rod; 1105. penetrating the shaft; 12. positioning the clamping groove; 13. a support frame; 14. a motor housing; 15. a rotating shaft; 16. a stirring rod; 17. A protective cover; 18. connecting the pipe; 19. a briquetting assembly; 1901. a longitudinal electric slide rail; 1902. a longitudinal slide block; 1903. a transverse electric slide rail; 1904. a transverse slide block; 1905. a first hydraulic cylinder; 1906. pressing into blocks; 20. forming a frame; 21. a collection frame; 22. an adjustment assembly; 2201. a hot melt plate; 2202. a heat insulation plate; 2203. a second hydraulic cylinder; 23. a first filtering hole; 24. a second filtering hole; 25. a motor; 26. A heat dissipation cavity; 27. a leakage opening; 28. an auxiliary component; 2801. an accommodating frame; 2802. an auxiliary plate body; 2803. A gas rod is arranged at the bottom; 29. a guard assembly; 2901. a built-in block; 2902. a guide shaft; 2903. a protection plate; 2904. and (3) pushing a plate.

Detailed Description

Embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Referring to fig. 1 to 7, the present invention provides a technical solution: a waste residue cleaning and processing integrated device with adjustable pressing block size comprises a cleaning frame 1 and a connection pipe 18, a water tank 8 is arranged on one side of the front end of the cleaning frame 1, an auxiliary frame 4 is installed at the right end of the water tank 8, a water pump 5 is arranged inside the auxiliary frame 4, a water inlet 7 is connected to the left end of the water pump 5, a water outlet 6 is connected to the upper end of the water pump 5, the connection pipe 18 is arranged at the top of the water outlet 6, a protective cover 17 is arranged outside the connection pipe 18, a briquetting assembly 19 for assisting in briquetting is arranged at the left end inside the cleaning frame 1, the briquetting assembly 19 comprises a longitudinal electric slide rail 1901, a longitudinal slider 1902, a transverse electric slide rail 1903, a transverse slider 1904, a first hydraulic cylinder 1905 and a briquetting 1906, the longitudinal electric slide rail 1901 is connected with the transverse electric slide rail 1903 through the longitudinal slider 1902 in a sliding manner, the transverse electric sliding rail 1903 is connected with a first hydraulic cylinder 1905 in a sliding mode through a transverse sliding block 1904, a briquetting 1906 is mounted at the output end of the first hydraulic cylinder 1905, a forming frame 20 is arranged below the briquetting 1906, an adjusting component 22 for assisting in forming waste slag is arranged inside the forming frame 20, the adjusting component 22 comprises a hot melting plate 2201, a heat insulation plate 2202 and a second hydraulic cylinder 2203, the bottom of the hot melting plate 2201 is provided with the heat insulation plate 2202, the bottom of the heat insulation plate 2202 is provided with the second hydraulic cylinder 2203, the hot melting plate 2201 and the second hydraulic cylinder 2203 are distributed in a one-to-one correspondence mode, the second hydraulic cylinder 2203 is distributed at equal intervals relative to the bottom surface of the forming frame 20, and a side frame 2 is arranged in the middle of the outer surface of the cleaning frame 1;

the operation is as follows, the design of the second hydraulic cylinder 2203 and the heat insulation plate 2202 can be used for driving the hot melting plate 2201 to adjust the vertical height according to the size of the pressed block, the height difference between the adjacent hot melting plates 2201 can be used for storing the waste residues after cleaning, meanwhile, the design of the second hydraulic cylinder 2203 can be used for driving other hot melting plates 2201 to perform synchronous height adjustment according to the pressed size, so that the placement area of the waste residues can be enlarged, meanwhile, the height adjustment of the hot melting plate 2201 driven by the second hydraulic cylinder 2203 enables the thickness of the pressed block to be adjustable, the design of the heating plate in the hot melting plate 2201 can be used for heating the waste residues, and meanwhile, the design of the longitudinal electric sliding rail 1901, the longitudinal sliding block 1902, the transverse electric sliding rail 1903 and the transverse sliding block 1904 can be used for driving the first hydraulic cylinder 1905 and the pressing block 1906 to perform longitudinal and transverse position movement, so that the design of the first hydraulic cylinder 1905 is used for driving the pressing block 1906 to perform auxiliary forming on the surface of the hot melting plate 2201.

As shown in fig. 1 and 5, a motor housing 14 is rotatably mounted at an end of a connecting pipe 18, a support frame 13 is disposed on an outer surface of the motor housing 14, a positioning clamping groove 12 is snap-mounted at a bottom of the support frame 13, a heat dissipation cavity 26 is disposed inside the motor housing 14, a motor 25 is mounted in the middle of the heat dissipation cavity 26, an output end of the motor 25 is connected with a rotating shaft 15 through a driving shaft, a stirring rod 16 is connected to a bottom of the rotating shaft 15, the heat dissipation cavity 26 is of a circular structure, the heat dissipation cavity 26 is of a hollow structure, a leakage 27 is disposed at the bottom of the heat dissipation cavity 26, an adjusting assembly 3 for angle adjustment is disposed outside a right side of the support frame 13, the adjusting assembly 3 includes a vertical plate 301, an electric push rod 302, a rotating connecting rod 303, a top block 304, a horizontal plate 305, a built-in shaft 306 and a fixed block 307, a fixed block 307 is disposed on an outer surface of the vertical plate 301, a built-in shaft 306 is rotatably disposed in the middle of the fixed block 307, a horizontal plate 305, a top block 304 is rotatably disposed at a lower end of the built-in shaft 306, a sliding block 902 for cleaning a sliding block assembly 901, and a sliding block assembly 901 is connected to a sliding block board 903 for blocking the sliding block 9 and blocking the sliding block via a sliding block 903;

the waste residue is cleaned by adopting a water pump 5 for water diversion, water can firstly pass through a heat dissipation cavity 26 outside a motor 25 when being introduced into a cleaning frame 1, and then flows into the cleaning frame 1 through a leak 27 at the bottom of the heat dissipation cavity 26, so that heat generated when the motor 25 works can be taken away by utilizing the design of water circulation flow when the waste residue is stirred and cleaned, the waste residue can be stirred when being washed by the interaction of the motor 25, a rotating shaft 15 and a stirring rod 16, the cleaning effect on the waste residue is improved, the barrier plate 903 can be driven to be blocked relative to a pressing block assembly 19 and a cleaning area on the right side of the cleaning frame 1 by the interaction of an electric sliding rail 901 and a sliding block 902, so that the waste residue can be prevented from being transferred to the inside of a forming frame 20 without being cleaned when being thrown on the surface of a first filter plate 1101, the design that the mutual interaction of the electric push rod 302, the rotating connecting rod 303 and a top block 304 is synchronously matched with a transverse plate 305 and a built-in a rotating connection with a built-in shaft 306 can be utilized after the cleaning is finished, the cleaning, the support frames 13 on two sides of a motor housing 14 connected with the transverse plate 305 are stopped and positioned to be continuously clamped with a clamping groove 12, and the motor housing 14, and the draining rod can be moved from the space after the waste residue is cleaned, and the waste residue is cleaned without the draining rod 16, and the draining space after the draining space is finished.

As shown in fig. 2 and 4, a filter assembly 11 for filtering cleaning water is installed below the agitator 16, and the filter assembly 11 includes a first filter plate 1101, a second filter plate 1102, an external block 1103, an extension bar 1104 and a through shaft 1105, the second filter plate 1102 is installed on the outer surface of the lower end of the first filter plate 1101, the extension bar 1104 is connected to the middle of one end of the second filter plate 1102, the external block 1103 is installed on the lower surface of the right side of the cleaning frame 1, the through shaft 1105 is rotatably installed inside the external block 1103, the outer surface of the through shaft 1105 and the extension bar 1104 are of an integrated structure, first filter holes 23 are equidistantly formed inside the first filter plate 1101, second filter holes 24 are equidistantly formed inside the second filter plate 1102, and the first filter holes 23 and the second filter holes 24 are distributed in a staggered manner;

the design that can utilize first filter 1101 and second filter 1102 in filter assembly 11 carries out the double filtration to the water of wasing usefulness, and can be when wasing the regional separation of water about first filter 1101, can utilize external piece 1103, extension pole 1104 and the interact that runs through axle 1105 carries out the adjustment of angle to second filter 1102, thereby second filter 1102 can closely laminate the lower surface at first filter 1101, simultaneously first filter 1101 and the inside first filtration pore 23 of second filter 1102 and the dislocation of second filtration pore 24 position, thereby can carry out the separation of certain degree to first filter 1101, avoid wasing water and directly flowing down under the circumstances of unobstructed, can make water stop in the stirring region, can further improve the cleaning performance, when need not when the water separation, usable external piece 1103, the interaction of extension pole 1104 and through axle 1105 carries out the adjustment of angle to second filter 1102, make second filter 1102 be in the tilt state, thereby can utilize the first filter to wash water after finishing to the filtration to water tank 1102 once more, the filtration water that the water that filters after finishing once more can realize saving to the water resource after 8.

As shown in fig. 2, 6 and 7, a protection assembly 29 for protecting a picture is disposed on one end surface of the first filter plate 1101, the protection assembly 29 includes a built-in block 2901, a guide shaft 2902, a protection plate 2903 and a push plate 2904, the guide shaft 2902 is rotatably mounted inside the built-in block 2901, the protection plate 2903 is disposed on an outer surface of the guide shaft 2902, the push plate 2904 is mounted on an outer portion of a right side of the protection plate 2903, a hydraulic air rod 10 is connected to a middle portion of one end surface of the push plate 2904, a collection frame 21 is disposed on a left side of the forming frame 20, an auxiliary assembly 28 for collecting waste residues pressed into a block is mounted inside the collection frame 21, the auxiliary assembly 28 includes a containing frame 2801, an auxiliary plate body 2802 and a bottom air rod 2803, the bottom air rod 2803 is disposed at a bottom of the containing frame 2801, and the auxiliary plate body 2802 is mounted at an output end of the bottom air rod 2803;

the design of the hydraulic air rod 10 in the side frame 2 can drive the push plate 2904 to move relative to the outer surface of the first filter plate 1101, the waste residues after cleaning can be pushed to the inside of the forming frame 20 through the position movement of the push plate 2904, and when the push plate 2904 is not required to be used, the push plate 2904 can be protected from the outside through the design of the protection plate 2903, the problem that the push plate 2904 is greatly damaged due to friction when the motor 25 is used for driving the rotating shaft 15 and the stirring rod 16 to perform stirring type auxiliary cleaning on the outer surface of the first filter plate 1101 is avoided, and when the waste residues are thrown into the forming frame 20, the height of the auxiliary plate body 2802 of the L-shaped structure can be driven to be adjusted in advance through the design of the bottom air rod 2803 in the accommodating frame 2801, the communicated area between the accommodating frame 2801 and the pressing assembly 19 can be blocked, the waste residues are prevented from falling into the accommodating frame 2801, so that a user can drive the hot melt plate 2201 to move to the outer side of the accommodating frame 2801 through the hydraulic air rod 2203 and the pressing plate 2202 after pressing is pressed, and the collecting frame 2801 can be conveniently pushed to the collecting device, and the collecting device can be pulled to the collecting device which is formed by the collecting device which is arranged outside of the collecting device which is arranged in the collecting frame 2904 and can be pushed to the collecting frame 2901.

In conclusion, in the integrated waste residue cleaning and processing equipment with the adjustable size of the pressed block, when in use, waste residues are firstly placed inside the cleaning frame 1, namely above the first filter plate 1101, the water tank 8 stores water, the water can be introduced into the cleaning frame 1 by utilizing the design of the water pump 5, the water outlet 6 and the water inlet 7, and the water can firstly pass through the heat dissipation cavity 26 outside the motor 25 when being introduced into the cleaning frame 1 and then flows into the cleaning frame 1 through the leakage opening 27 at the bottom of the heat dissipation cavity 26, so that heat generated during the operation of the motor 25 can be taken away by utilizing the design of water circulation flow while carrying out stirring type cleaning on the waste residues, the waste residues can be stirred during washing water through the interaction of the motor 25, the rotating shaft 15 and the stirring rod 16, the cleaning effect on the waste residues can be improved, the blocking plate 903 can be driven to block the cleaning area on the right side of the cleaning frame 1 and the blocking assembly 19 through the interaction of the electric sliding block 901 and the sliding block 902, therefore, when waste residues are thrown on the surface of the first filter plate 1101, the waste residues are prevented from being transferred to the inside of the forming frame 20 without being cleaned, the design that the transverse plate 305 and the built-in shaft 306 are in rotary connection can be synchronously matched by the interaction of the electric push rod 302, the rotary connecting rod 303 and the jacking block 304 after cleaning and draining are finished, the support frames 13 on the two sides of the motor housing 14 connected with the transverse plate 305 are stopped from being clamped with the positioning clamping grooves 12, meanwhile, the rotary shaft 15 and the stirring rod 16 can be moved out of the inside of the cleaning frame 1 by continuously adjusting the angle of the motor housing 14, a barrier-free space is provided for the movement of the waste residues after cleaning is finished, and then, double filtration of water for cleaning can be carried out by the design of the first filter plate 1101 and the second filter plate 1102 in the filter assembly 11, and when the cleaning water is blocked relative to the first filter plate 1101 area, the angle of the second filter plate 1102 can be adjusted by utilizing the interaction of the external block 1103, the extension bar 1104 and the penetrating shaft 1105, so that the second filter plate 1102 can be tightly attached to the lower surface of the first filter plate 1101, and the positions of the first filter holes 23 and the second filter holes 24 inside the first filter plate 1101 and the second filter plate 1102 are staggered, thereby the first filter plate 1101 can be blocked to a certain extent, the cleaning water is prevented from directly flowing downwards under the condition of no obstruction, the water can stay in the stirring area, the cleaning effect can be further improved, when the water is not required to be blocked, the angle of the second filter plate 1102 can be adjusted by utilizing the interaction of the external block 1103, the extension bar 1104 and the penetrating shaft 1105, so that the second filter plate 1102 is in an inclined state, therefore, after the first filter plate 1101 is used for filtering cleaning water, the water after the primary filtration can be filtered again by the second filter plate 1102, the water flows into the water tank 8 after the filtration is finished, the cleaning water can be used for multiple times, then the push plate 2904 can be driven to move relative to the outer surface of the first filter plate 1101 through the design of the hydraulic air rod 10 in the side frame 2, waste residues after the cleaning can be pushed into the forming frame 20 through the position movement of the push plate 2904, when the push plate 2904 is not required to be used, the push plate 2904 can be protected from the outside by the design of the protection plate 2903, the problem that the rotating shaft 15 and the stirring rod 16 are driven by the motor 25 to stir-type auxiliary cleaning on the outer surface of the first 1101, the push plate 2904 is greatly damaged due to friction is solved, and when the waste residues are thrown into the forming frame 20, the design of the bottom air rod 2803 in the accommodating frame 2801 can be used for driving the auxiliary plate body 2802 with an L-shaped structure to adjust the height by the design of the auxiliary plate 2802 in advance The communicated area of the accommodating frame 2801 and the briquetting assembly 19 can be blocked by adjusting the height of the auxiliary plate body 2802, so that waste slag is prevented from falling into the accommodating frame 2801, the design of the second hydraulic cylinder 2203 and the heat insulation plate 2202 can be used for driving the hot melting plate 2201 to adjust the upper and lower height as required by the size of the briquettes, the waste slag after cleaning can be stored by using the height difference between the adjacent hot melting plates 2201, meanwhile, the design of the second hydraulic cylinder 2203 can be utilized to drive other hot melting plates 2201 to carry out synchronous height adjustment according to the pressing size, so that the waste residue placing area can be enlarged, meanwhile, the height of the hot melt plate 2201 is driven by a second hydraulic cylinder 2203 to be adjusted so that the thickness of the pressed blocks can be adjusted, therefore, the waste slag can be heated by the design of a heating plate in the hot melt plate 2201, meanwhile, the first hydraulic cylinder 1905 and the pressing block 1906 can be driven to move longitudinally and transversely by the design of the longitudinal electric slide rail 1901, the longitudinal slide block 1902, the transverse electric slide rail 1903 and the transverse slide block 1904, the pressing block 1906 is driven by the design of the first hydraulic cylinder 1905 to press and assist in forming the waste slag on the surface of the hot melt plate 2201, finally, the hot melt plate 2201 can be driven to move in position by the design of the second hydraulic cylinder 2203 and the heat insulation plate 2202 after the pressing and forming are finished, so that the pressed block after molding protrudes outside the enclosed area formed by the adjacent melt plate 2201, then, the push plate 2904 can be driven to move left and right by the design of the hydraulic and pneumatic rod 10 again, the articles pressed into blocks can be pushed into the accommodating frame 2801 through the push plate 2904, the accommodating frame 2801 is in sliding connection with the collecting frame 21, and a user can conveniently pull the accommodating frame 2801 outwards to take out the articles pressed into blocks collected in the accommodating frame 2801.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (10)

1. The integrated equipment for cleaning and treating the waste residues with adjustable block sizes through pressing is characterized by comprising a cleaning frame (1) and a connecting pipe (18), wherein a water tank (8) is arranged on one side of the front end of the cleaning frame (1), an auxiliary frame (4) is installed at the right end of the water tank (8), a water pump (5) is arranged inside the auxiliary frame (4), a water inlet (7) is connected to the left end of the water pump (5), a water outlet (6) is connected to the upper end of the water pump (5), the connecting pipe (18) is arranged at the top of the water outlet (6), a protective cover (17) is arranged outside the connecting pipe (18), a briquetting assembly (19) used for assisting in briquetting is arranged at the left end inside the cleaning frame (1), the briquetting assembly (19) comprises a longitudinal electric sliding rail (1901), a longitudinal electric sliding block (1902), a transverse electric sliding rail (1903), a transverse sliding block (1904), a first hydraulic cylinder (1905) and a briquetting (1906), the longitudinal electric sliding rail (1901) is connected with a transverse electric sliding block (1903), and a hydraulic cylinder (1905) below the first hydraulic cylinder (1906) and a hydraulic cylinder (1905) is arranged at the lower end of the transverse electric sliding rail (1906), and the inside of shaping frame (20) is provided with and is used for assisting fashioned adjusting part (22) of waste residue, adjusting part (22) include hot melt board (2201), heat insulating board (2202) and second hydraulic cylinder (2203), and the bottom of hot melt board (2201) is provided with heat insulating board (2202), second hydraulic cylinder (2203) are installed to the bottom of heat insulating board (2202), it is provided with side frame (2) to wash frame (1) surface right-hand member middle part.

2. The integrated slag cleaning and processing equipment with the adjustable pressing size and the size as claimed in claim 1, wherein the thermal melting plates (2201) and the second hydraulic cylinders (2203) are distributed in a one-to-one correspondence, and the second hydraulic cylinders (2203) are distributed equidistantly with respect to the bottom surface of the forming frame (20).

3. The integrated equipment for cleaning and processing the waste residues with the adjustable sizes of the pressed pieces, according to claim 1, is characterized in that a motor outer cover (14) is rotatably installed at the end part of the connecting pipe (18), a supporting frame (13) is arranged on the outer surface of the motor outer cover (14), and a positioning clamping groove (12) is installed at the bottom of the supporting frame (13) in a clamping mode.

4. The integrated equipment for cleaning and processing the waste residues with the adjustable sizes of the pressed blocks as claimed in claim 3, wherein a collecting frame (21) is arranged on the left side of the forming frame (20), an auxiliary assembly (28) for collecting the waste residues pressed into the blocks is arranged inside the collecting frame (21), the auxiliary assembly (28) comprises an accommodating frame (2801), an auxiliary plate body (2802) and a bottom air-placing rod (2803), the bottom of the accommodating frame (2801) is provided with the bottom air-placing rod (2803), and the auxiliary plate body (2802) is arranged at the output end of the bottom air-placing rod (2803).

5. The integrated equipment for cleaning and processing the waste residues with the adjustable sizes of the pressed blocks as claimed in claim 3, wherein a heat dissipation cavity (26) is arranged inside the motor housing (14), a motor (25) is arranged in the middle of the heat dissipation cavity (26), the output end of the motor (25) is connected with the rotating shaft (15) through a driving shaft, and the bottom of the rotating shaft (15) is connected with the stirring rod (16).

6. The integrated cleaning and processing equipment for the waste residues with the adjustable sizes of the pressed blocks as claimed in claim 5, wherein the heat dissipation chamber (26) is of a circular structure, the interior of the heat dissipation chamber (26) is of a hollow structure, and the bottom of the heat dissipation chamber (26) is provided with a leakage opening (27).

7. The integrated equipment for cleaning and processing the waste residues with the adjustable size through pressing as claimed in claim 5, wherein a filtering assembly (11) for filtering the cleaning water is installed below the stirring rod (16), the filtering assembly (11) comprises a first filtering plate (1101), a second filtering plate (1102), an external block (1103), an extension rod (1104) and a through shaft (1105), the second filtering plate (1102) is arranged on the outer surface of the lower end of the first filtering plate (1101), the extension rod (1104) is connected to the middle of one end of the second filtering plate (1102), the external block (1103) is arranged on the lower surface of the right side of the cleaning frame (1), the through shaft (1105) is installed on the inner rotating part of the external block (1103), and the outer surface of the through shaft (1105) and the extension rod (1104) are of an integrated structure.

8. The integrated equipment for cleaning and processing the waste residues with the adjustable pressing block size as claimed in claim 7, wherein the first filter plate (1101) is provided with first filter holes (23) at equal intervals inside, the second filter plate (1102) is provided with second filter holes (24) at equal intervals inside, and the first filter holes (23) and the second filter holes (24) are distributed in a staggered manner.

9. The integrated equipment for cleaning and processing the waste residues with adjustable sizes of pressed blocks as claimed in claim 7, wherein one end surface of the first filter plate (1101) is provided with a protection component (29) for protecting pictures, the protection component (29) comprises a built-in block (2901), a guide shaft (2902), a protection plate (2903) and a push plate (2904), the guide shaft (2902) is rotatably mounted inside the built-in block (2901), the protection plate (2903) is arranged on the outer surface of the guide shaft (2902), the push plate (2904) is mounted on the outer portion of the right side of the protection plate (2903), and a hydraulic air rod (10) is connected to the middle of one end surface of the push plate (2904).

10. The integrated equipment for cleaning and processing the waste residues with adjustable sizes of the pressed pieces, according to claim 1, is characterized in that a collecting frame (21) is arranged on the left side of the forming frame (20), an auxiliary assembly (28) for collecting the waste residues pressed into the pieces is arranged inside the collecting frame (21), the auxiliary assembly (28) comprises a containing frame (2801), an auxiliary plate body (2802) and a bottom air rod (2803), the bottom of the containing frame (2801) is provided with the bottom air rod (2803), and the auxiliary plate body (2802) is arranged at the output end of the bottom air rod (2803).

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