CN113351297A - Mechanical automation equipment is with preventing blockking up feed mechanism - Google Patents

Abstract

The invention provides an anti-blocking feeding mechanism for mechanical automation equipment, which belongs to the technical field of feeding mechanisms and aims to solve the problems that when the feeding mechanism is used, blocked materials cannot be effectively and automatically cleaned, and the anti-blocking effect of the feeding mechanism is reduced; the upper end surface of the equipment body is provided with a box body; the lower end in the box body is provided with a shaking box, and the right side of the shaking box in the box body is provided with a driving part; two collision parts are arranged on the right side face in the box body and located on the front side and the rear side of the driving part, and the lower part of the front end face of the box body is fixedly provided with an insertion part. When rocking the box and rocking right, two vibration boards will collide with the circular collision piece in two collision part left ends after moving right to make rock the box and rock the otter board and produce the vibration, make the material of jam in rocking the otter board screen hole can drop automatically, thereby make and rock the otter board and need not the manual work and clear up, and then improved the jam-proof effect when this feed mechanism uses.

Description

Mechanical automation equipment is with preventing blockking up feed mechanism

Technical Field

The invention belongs to the technical field of feeding mechanisms, and particularly relates to an anti-blocking feeding mechanism for mechanical automation equipment.

Background

Mechanical automation technology is widely used in industry, agriculture, military, scientific research, transportation, commerce, medical treatment, service, and home. When the feeding is performed on the mechanical automation equipment, a feeding mechanism is generally used. The feeding machine is one of necessary supporting equipment for light and heavy industries of modern chemical industry, pharmacy, food, metallurgy, building materials, agricultural and sideline industries and the like, and provides working efficiency, accurate transportation, reliable quality, firmness and durability.

For example, chinese patent CN202011548572.5 discloses an anti-blocking feeding mechanism for mechanical automation equipment, which comprises an automation equipment body, wherein a first box body is fixedly installed at the top of the automation equipment body, a first through hole is formed in the outer surface of the first box body, a second through hole is formed in the outer surface of the first box body, a first base is fixedly installed at the bottom of the inner wall of the first box body, and a second box body is fixedly installed at the top of the first base, so that the problem that crushed materials cannot be screened, a blocking effect may be generated inside a feeding structure, the feeding may be uneven, the quality of finished products is affected, under a high-load working condition, the sieve plate may need to be frequently replaced, which is troublesome, and the box body needs to be disassembled to replace the sieve plate, and the sieve plate may be replaced manually due to the upper crushing structure, and frequent disassembly may reduce the useful life of the device.

When the feeding mechanism is used, although large-particle materials can be separated through the sieve plate, when the sieve plate in the feeding mechanism is used, because the sieve plate is always in a static state, the materials falling on the top of the sieve plate can not be quickly sieved, the material on the sieve plate is directly scraped out by the scraper plate, and the unscreened small-particle material is also scraped out together, thereby reducing the screening effect of the screen plate in the feeding mechanism, and the materials blocked in the screen holes on the screen plate can not be effectively and automatically cleaned, so that the screen holes on the screen plate need to be cleaned manually after being blocked, thereby reducing the anti-blocking effect when the feeding mechanism is used, and a large amount of materials are easy to adhere to the inner wall of the feeding pipe in the feeding mechanism, and when the clearance, need the manual work to strike the operation to the inlet pipe to bring unnecessary work burden for the staff.

Disclosure of Invention

The invention aims to provide an anti-blocking feeding mechanism for mechanical automation equipment, which aims to solve the problem that when a sieve plate in the feeding mechanism is used, because the sieve plate is always in a static state, the materials falling on the top of the sieve plate can not be quickly sieved, the material on the sieve plate is directly scraped out by the scraper plate, and the unscreened small-particle material is also scraped out together, thereby reducing the screening effect of the screen plate in the feeding mechanism, and the materials blocked in the screen holes on the screen plate can not be effectively and automatically cleaned, so that the screen holes on the screen plate need to be cleaned manually after being blocked, thereby reducing the anti-blocking effect when the feeding mechanism is used, and a large amount of materials are easy to adhere to the inner wall of the feeding pipe in the feeding mechanism, and when the clearance, need the manual work to strike the operation to the inlet pipe to bring unnecessary work burden's problem for the staff.

In order to achieve the aim, the invention provides an anti-blocking feeding mechanism for mechanical automation equipment, which comprises an equipment body; the upper end surface of the equipment body is provided with a box body; the box body comprises a top plate, a feeding hopper, a detachable vibrating plate, a transition bin and a connecting plate, wherein the top plate is fixedly arranged at the top of the box body, the middle part of the top plate is fixedly connected with a feeding pipe penetrating through the top plate, the upper end of the feeding pipe is fixedly provided with the feeding hopper, the left side of the feeding hopper is provided with the detachable vibrating plate, and the rear side of the box body is rotatably connected with an access door through a rotating shaft; the bottom end face of the box body is provided with a discharge port, the bottom end face inside the box body is positioned at the discharge port and provided with a transition bin, the upper part of the transition bin is provided with a shaking box, the bottom end face of the box body is fixed with a connecting plate, the bottom end face of the connecting plate is provided with a rectangular through port corresponding to the discharge port at the bottom of the box body, the left end face and the right end face of the connecting plate are provided with T-shaped sliding strips, and when the box body and the equipment body are in an installation state, the T-shaped sliding strips at the two sides of the connecting plate are respectively connected with two T-shaped sliding grooves at the inner side of the installation clamping rail in a sliding manner; the lower end in the box body is provided with a shaking box, and the right side of the shaking box in the box body is provided with a driving part; the right side surface of the interior of the box body is provided with two collision parts at the front side and the rear side of the driving part, the lower part of the front end surface of the box body is fixedly provided with an insertion part, the upper end of the interior of the box body is fixedly provided with a crushing box, and the left side of the crushing box is symmetrically provided with two knocking parts in a front-back manner; a material conveying part is arranged on the left side inside the box body, a rectangular through hole is formed in the left side of the front end face of the box body, and the front end of the material conveying part penetrates through the rectangular through hole in the front side of the box body; the material conveying part comprises second sliding cylinders, the material conveying part is of a rectangular box-shaped structure, a material outlet is formed in the front end of the material conveying part, two second sliding cylinders are fixed on the bottom end face of the material conveying part, the material outlet of the material conveying part is located right above the material collecting box, and the front end of the material conveying part is distributed in a downward inclined manner; two second guide rods fixed on the bottom end face in the box body slide in the two second sliding barrels, and springs are sleeved on the left sides of the second sliding barrels outside the two second guide rods.

Further, the driving part comprises a driving motor, a driving plate and a connecting rod, the driving motor is arranged on the right side surface inside the box body, and the driving motor is rotatably connected with the driving plate through a rotating shaft; the driving plate is of a circular plate-shaped structure, the edge of the upper end face of the driving plate is rotatably connected with a connecting rod through a rotating shaft, and the other end of the connecting rod is rotatably connected with the middle of the right end face of the shaking box through the rotating shaft;

further, the shaking box comprises first sliding barrels, rectangular bayonets, shaking screen plates, elastic buckles, limiting insertion columns, vibrating plates and knocking blocks, wherein the front end face and the rear end face of the shaking box are respectively provided with one first sliding barrel, each first sliding barrel is internally provided with a first guide rod fixed on the upper end face of the transition bin in a sliding manner, the bottom end face inside the shaking box is provided with a rectangular discharge port, the front side and the rear side of the bottom end face inside the shaking box are respectively provided with one rectangular bayonet, the left side of the shaking box is provided with a discharge port, the front end face of the shaking box is fixedly provided with the knocking block through an L-shaped support plate, the left end of the shaking box is distributed in a downward inclined manner, and the right end face of; the front side and the rear side of the upper end face of the rocking screen plate are respectively provided with a rectangular sliding opening, two elastic buckles which are symmetrically distributed are respectively slid in each rectangular sliding opening, a spring is arranged between the two elastic buckles in each rectangular sliding opening, four included angles of the bottom end face of the rocking screen plate are respectively provided with a limiting insertion column which is inserted with the bottom end face of the inner part of the rocking box, and when the rocking box is in a left moving state, the knocking block collides with the right end face of the material conveying part;

furthermore, the equipment body comprises an installation clamping rail, a material collecting box and an inserting block, the installation clamping rail is fixed on the upper end surface of the equipment body at the position of the material inlet and is of an Contraband-shaped structure, and the material collecting box is installed on the front end surface of the equipment body through a rectangular supporting plate; the left side surface and the right side surface of the inner side of the installation clamping rail are both provided with T-shaped chutes, the middle part of the front end surface of the installation clamping rail is fixed with an insertion block, the middle part of the upper end surface of the insertion block is provided with a rectangular socket, and the upper part of the inner side of the installation clamping rail is provided with a box body in a sliding manner;

furthermore, the inserting part comprises an inserting sliding shell, an inserting sliding block and a limiting guide rod, the inserting sliding shell is fixed on the lower portion of the front end face of the box body, the inserting sliding block slides in the inserting sliding shell, the front side edge of the lower end of the inserting sliding block is set to be a round angle, and a T-shaped pull rod is fixed on the front end face of the inserting sliding block; the upper end surface of the insertion sliding block is bilaterally symmetrically provided with two limiting guide rods penetrating through the top of the insertion sliding shell, the outside of each limiting guide rod is positioned inside the insertion sliding shell and is sleeved with a spring, and when the insertion part is in a limiting state, the lower end of the insertion sliding block is inserted into a rectangular insertion opening formed in the upper end surface of the insertion block;

further, the collision part comprises a supporting plate, the collision part is of a square plate-shaped structure, and a round collision block is arranged in the middle of the left end face of the collision part; a T-shaped slide bar is fixed at each of four included angles of the right end face of the collision part, a support plate fixed on the right side face of the interior of the box body slides through the four T-shaped slide bars on the right side of the collision part, the support plate is of an Contraband-shaped plate-shaped structure, and a spring is sleeved outside each T-shaped slide bar and positioned on the right side of the collision part;

further, the knocking part comprises a knocking rack, a rectangular support plate, a knocking plate and third sliding cylinders, two third sliding cylinders are fixed to the lower portion of the right end face of the knocking rack through the rectangular plate, a third guide rod fixed to the outer portion of the box body is arranged inside each of the two third sliding cylinders in a sliding mode, and a spring located at the lower portion of each third sliding cylinder is sleeved on the outer portion of each third guide rod in a sleeved mode; a rectangular support plate is fixed at the upper end of the knocking rack, four included angles of the bottom end face of the knocking plate are respectively provided with a T-shaped sliding rod which is connected with the rectangular support plate in a sliding mode, a spring is sleeved outside each T-shaped sliding rod, a cylindrical knocking block is arranged on the upper end face of the knocking plate, and when the knocking part is in a knocking state, the cylindrical knocking block on the upper end of the knocking plate collides with the bottom end face of the detachable vibrating plate;

furthermore, the crushing box comprises a crushing motor, a tooth-lacking gear, a worm wheel and crushing rollers, the two crushing rollers are rotatably connected inside the crushing box through a rotating shaft, the right ends of the two crushing rollers are respectively provided with a gear, the two gears are meshed with each other, the crushing motor is arranged on the front end face of the box body and is rotatably connected with the two tooth-lacking gears and the worm through the rotating shaft penetrating through the front end face of the box body, and the right sides of the two tooth-lacking gears are respectively provided with a knocking part; the pivot left end of a crushing roller of rear side is equipped with the worm wheel with worm meshing, and broken bottom of the case portion is equipped with leaks hopper-shaped feed opening, and broken roof portion is the opening structure to broken roof portion opening is located the inlet pipe lower extreme outside.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, through the matching of the shaking box, the driving part and the collision part, when the shaking box shakes rightwards, the two vibrating plates move rightwards and collide with the circular collision blocks at the left ends of the two collision parts, so that the shaking box and the shaking screen plate vibrate, the screening effect of the shaking screen plate is improved, and after the mesh on the shaking screen plate is blocked by materials, the materials blocked in the mesh holes of the shaking screen plate can automatically fall off under the vibration effect of the shaking screen plate, so that the shaking screen plate does not need to be cleaned manually, and the anti-blocking effect of the feeding mechanism when in use is improved.

2. According to the invention, through the arrangement of the knocking part, after the two gear-lacking gears are separated from the two knocking racks, the third sliding cylinders on the two knocking racks drive the two knocking racks to rapidly move upwards under the action of the spring outside the third guide rod, so that the cylindrical knocking blocks on the two knocking plates knock the bottom end surface of the detachable vibrating plate, and the knocking operation is carried out in a reciprocating manner, so that the feeding hopper and the feeding pipe vibrate, a large amount of materials are not easy to adhere to the inner wall of the feeding pipe, and the feeding pipe can automatically fall off without manual cleaning, thereby reducing the work burden on workers.

3. According to the invention, through the arrangement of the insertion part, when the box body needs to be detached from the equipment body for maintenance, the insertion sliding block is pulled upwards only to separate the lower end of the insertion sliding block from the rectangular insertion opening on the insertion block, and then the box body is slid backwards to be detached.

Drawings

Fig. 1 is a schematic view of a first perspective structure of an anti-blocking feeding mechanism for a mechanical automation device of the present invention.

Fig. 2 is a second view structural schematic diagram of the anti-blocking feeding mechanism for the mechanical automation equipment.

Fig. 3 is a schematic structural view of the anti-blocking feeding mechanism for the mechanical automation equipment in a disassembled state.

Fig. 4 is a schematic view of the structure of the top plate, the crushing box and the striking part of the present invention.

Fig. 5 is a partial sectional structural schematic view of the crushing box of the present invention.

FIG. 6 is a schematic view of the structure of the gear with missing teeth and the knocking portion of the present invention.

Fig. 7 is a schematic structural view of the shaking box, the driving part and the material conveying part of the present invention.

FIG. 8 is a schematic view of the structure of the rocking screen of the present invention.

Fig. 9 is a schematic structural view of the collision part and the feed delivery part of the present invention.

Fig. 10 is a schematic view of the structure of the plug part of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. an apparatus body; 101. installing a clamping rail; 102. a material collecting box; 103. an insertion block; 2. a box body; 201. a top plate; 202. a feed hopper; 203. a detachable vibrating plate; 204. a transition bin; 205. a connecting plate; 3. shaking the box; 301. a first slide drum; 302. a rectangular bayonet; 303. shaking the screen plate; 304. elastic buckle; 305. limiting and inserting the column; 306. a vibrating plate; 307. knocking the block; 4. a drive section; 401. a drive motor; 402. a drive plate; 403. a connecting rod; 5. a collision section; 501. a support plate; 6. a plug-in part; 601. inserting a sliding shell; 602. inserting a sliding block; 603. a limiting guide rod; 7. a crushing box; 701. a crushing motor; 702. a gear with missing teeth; 703. a worm; 704. a worm gear; 705. a crushing roller; 8. a material conveying part; 801. a second slide drum; 9. a knocking portion; 901. knocking the rack; 902. a rectangular support plate; 903. knocking the plate; 904. and a third slide cylinder.

Detailed Description

The 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.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 to 10, the present invention provides an anti-blocking feeding mechanism for a mechanical automation device, including: an apparatus body 1; the upper end surface of the equipment body 1 is provided with a box body 2; the equipment body 1 includes installation card rail 101, aggregate box 102 and grafting piece 103, and the equipment body 1 up end is located feed inlet department and is fixed with installation card rail 101, and installation card rail 101 be Contraband font structure, as shown in figure 3, the aggregate box 102 is installed through the rectangle backup pad to the terminal surface before the equipment body 1 for the collection to defeated material portion 8 output material. T-shaped sliding grooves are formed in the left side face and the right side face of the inner side of the installation clamping rail 101, an insertion block 103 is fixed in the middle of the front end face of the installation clamping rail 101, a rectangular insertion opening is formed in the middle of the upper end face of the insertion block 103 and used for being inserted into the lower end of an insertion sliding block 602, and a box body 2 slides on the upper portion of the inner side of the installation clamping rail 101.

The box 3 that rocks is equipped with to the inside lower extreme of box 2, as shown in figure 1, box 2 inside is located to rock the box 3 right side and is equipped with drive division 4. Rock box 3 and include first slide cartridge 301, rectangle bayonet 302, rock otter board 303, elasticity buckle 304, spacing post 305 of inserting, vibration board 306 and strike piece 307, rock box 3 front and back both ends face and all be equipped with a first slide cartridge 301, as shown in figure 7, and all slide in every first slide cartridge 301 and have a first guide arm of fixing at the transition bin 204 up end, thereby the messenger rocks box 3 and can obtain effective guide effect when rocking, improve the stationarity of rocking box 3 when rocking. Rock the inside bottom face of box 3 and seted up the rectangle feed opening, and rock the inside bottom face of box 3 front and back both sides and all seted up a rectangle bayonet 302, rock box 3 left side and be equipped with the discharge gate, and rock box 3 front end face and be fixed with through L type extension board and strike piece 307, rock box 3 left end and be the downward sloping form and distribute, rock box 3 right-hand member and personally submit the front and back symmetry form and be equipped with two vibration boards 306 for with the collision of two collision portions 5. Rock that a rectangle spout has all been seted up to both sides around otter board 303 up end, and all slide in every rectangle spout and have two elasticity buckles 304 that are the symmetric form and distribute, and be located between two elasticity buckles 304 in every rectangle spout and all be equipped with the spring, rock four contained angle departments of otter board 303 bottom face and all be equipped with and rock a spacing post 305 of inserting mutually of the inside bottom face of box 3, when rocking box 3 and be in the state of moving left, it will collide mutually with 8 right-hand members faces of defeated material portion to beat piece 307, thereby make defeated material portion 8 produce the vibration, thereby make the inside material of defeated material portion 8 can slide to the box 102 that gathers materials inside fast.

Two collision parts 5 are provided on the right side surface of the inside of the box body 2 at the front and rear sides of the driving part 4 for colliding with the right vibration plate 306 of the rocking box 3. The collision part 5 comprises a support plate 501, the collision part 5 is of a square plate-shaped structure, and a round collision block is arranged in the middle of the left end face of the collision part 5. Four contained angles departments of 5 right-hand members of collision portion all are fixed with a T type slide bar, as shown in figure 9, and 5 right sides of collision portion have a backup pad 501 of fixing at the inside right flank of box 2 through four T type slide bars slip, backup pad 501 is Contraband font platelike structure, every T type slide bar outside is located the 5 right sides of collision portion and has all cup jointed the spring, thereby make collision portion 5 when the collision, can have better cushioning effect, reliability when improving drive portion 4 operation. The lower part of the front end face of the box body 2 is fixed with a plug-in part 6, and the upper end inside the box body 2 is fixed with a crushing box 7. The crushing box 7 comprises a crushing motor 701, a tooth-lacking gear 702, a worm 703, a worm wheel 704 and crushing rollers 705, wherein the inside of the crushing box 7 is rotatably connected with two crushing rollers 705 through a rotating shaft, the right ends of the two crushing rollers 705 are respectively provided with a gear, and the two gears are meshed with each other, as shown in the attached drawing 5, so that when one crushing roller 705 rotates, the other crushing roller 705 can be driven to simultaneously rotate oppositely, the crushing treatment on materials is facilitated, the crushing motor 701 is arranged on the front end face of the box body 2, the crushing motor 701 is rotatably connected with the two tooth-lacking gears 702 and the worm 703 through the rotating shaft penetrating through the front end face of the box body 2, and the right sides of the two tooth-lacking gears 702 are respectively provided with a knocking part 9; the left end of the rotating shaft of the crushing roller 705 at the rear side is provided with a worm wheel 704 meshed with the worm 703, the bottom of the crushing box 7 is provided with a funnel-shaped feed opening, the top of the crushing box 7 is of an opening structure, and an opening at the top of the crushing box 7 is positioned outside the lower end of the feed pipe.

The inserting part 6 comprises an inserting sliding shell 601, an inserting sliding block 602 and a limiting guide rod 603, the inserting sliding shell 601 is fixed on the lower portion of the front end face of the box body 2, the inserting sliding block 602 slides inside the inserting sliding shell 601, as shown in fig. 10, the front side edge of the lower end of the inserting sliding block 602 is a round angle, and a T-shaped pull rod is fixed on the front end face of the inserting sliding block 602. The left and right symmetrical shape of grafting slider 602 upper end face is equipped with two spacing guide arms 603 that run through grafting sliding housing 601 top to make grafting slider 602 more steady when grafting sliding housing 601 is inside to slide, and every spacing guide arm 603 outside is located inside the sliding housing 601 of grafting and has all cup jointed the spring, when grafting portion 6 is in spacing state, grafting slider 602 lower extreme is pegged graft mutually with the rectangle socket that grafting piece 103 up end was seted up, thereby make box 2 can obtain effective limiting displacement on 1 upper portion of equipment body.

The left side of the crushing box 7 is provided with two knocking parts 9 in a front-back symmetrical shape for knocking the detachable vibrating plate 203 on the feed hopper 202. Knocking part 9 is including knocking rack 901, rectangle extension board 902, knock board 903 and third sliding barrel 904, it is fixed with two third sliding barrels 904 through the rectangular plate to knock rack 901 right-hand member face lower part, and two third sliding barrel 904 are inside all to slide to have a third guide arm of fixing in box 2 outside, as shown in fig. 6, through the setting of third sliding barrel 904 and third guide arm, it is more steady when making to knock rack 901 and reciprocate, the spring that is located third sliding barrel 904 lower part has all been cup jointed to every third guide arm outside, thereby make to knock rack 901 and have better elasticity. Strike rack 901 upper end and be fixed with rectangle extension board 902, strike four contained angle departments of board 903 bottom face and all be equipped with a T type slide bar with rectangle extension board 902 sliding connection, and every T type slide bar outside all cup joints the spring, strike board 903 up end and be equipped with the cylindricality and strike the piece, and when the portion 9 that strikes is in the state of strikeing, strike board 903 upper end cylindricality and strike the piece and can dismantle vibration board 203 bottom face and collide mutually.

The inside left side of box 2 is equipped with defeated material portion 8, and has seted up the rectangle opening on the left of the terminal surface before box 2, and 8 front ends of defeated material portion run through 2 front side rectangle openings of box. The driving part 4 comprises a driving motor 401, a driving plate 402 and a connecting rod 403, the driving motor 401 is installed on the right side surface inside the box body 2, and the driving motor 401 is rotatably connected with the driving plate 402 through a rotating shaft; drive plate 402 is circular platelike structure, as shown in fig. 7, and drive plate 402 up end edge rotates through the pivot and is connected with connecting rod 403, and the connecting rod 403 other end rotates through the pivot with rocking box 3 right-hand member face middle part and is connected to when drive plate 402 rotates, connecting rod 403 one end can rotate, and the connecting rod 403 other end will drive and rock box 3 and go on controlling reciprocal rocking.

The box body 2 comprises a top plate 201, a feed hopper 202, a detachable vibrating plate 203, a transition bin 204 and a connecting plate 205, the top of the box body 2 is fixedly provided with the top plate 201, the middle part of the top plate 201 is fixedly connected with a feed pipe penetrating through the top plate 201, the upper end of the feed pipe is fixedly provided with the feed hopper 202, the left side of the feed hopper 202 is provided with the detachable vibrating plate 203, as shown in the attached drawing 2, the detachable vibrating plate 203 is convenient to detach through the arrangement of the detachable vibrating plate 203, the rear side of the box body 2 is rotatably connected with an access door through a rotating shaft, and the maintenance work on the interior of the box body 2 is convenient; the discharge gate has been seted up to 2 bottom faces of box, and the inside bottom face of box 2 is located discharge gate department and is equipped with transition bin 204, transition bin 204 upper portion is equipped with rocks box 3, 2 bottom faces of box are fixed with connecting plate 205, and the corresponding rectangle opening of 2 bottom discharge gates of box is seted up to connecting plate 205 bottom face, both ends faces all are equipped with T type draw runner about connecting plate 205, and when box 2 was in the mounted state with equipment body 1, connecting plate 205 both sides T type draw runner slides with two inboard T type spouts of installation card rail 101 respectively and is connected, thereby it is more stable when making box 2 install on equipment body 1.

The material conveying part 8 comprises second sliding barrels 801, the material conveying part 8 is of a rectangular box-shaped structure, a material outlet is formed in the front end of the material conveying part 8, two second sliding barrels 801 are fixed to the bottom end face of the material conveying part 8, the material outlet of the material conveying part 8 is located right above the material collecting box 102, and as shown in the attached drawing 1, the front end of the material conveying part 8 is distributed in a downward inclined mode, so that materials in the material conveying part 8 can quickly slide into the material collecting box 102 under the inclined action; two second guide rods fixed on the bottom end face in the box body 2 are respectively arranged in the two second sliding barrels 801 in a sliding mode, and springs are respectively sleeved on the left sides of the second sliding barrels 801 outside the two second guide rods, so that the material conveying portion 8 can automatically slide to the right to return to the original position under the action of the springs after being knocked to the left by the knocking block 307.

In another embodiment, four insertion rods are respectively arranged at four corners of the bottom surface of the material collecting box 102, and the four insertion rods are respectively inserted into the four corners of the rectangular supporting plate at the front end of the device body 1, so that the material collecting box 102 can be effectively limited when being used on the upper end surface of the rectangular supporting plate at the front end of the device body 1, and the material collecting box 102 is more stable.

When the anti-blocking feeding mechanism for the mechanical automation equipment is used, firstly, materials are put into the feeding hopper 202, then the materials fall on the upper part between the two crushing rollers 705 through the feeding pipe under the action of gravity, then the crushing motor 701 is started, the rotating shaft of the crushing motor 701 drives the two toothless gears 702 and the worm 703 to rotate clockwise, so that the worm gear 704 drives the crushing roller 705 on the rear side to rotate anticlockwise, then the two crushing rollers 705 rotate oppositely under the meshing action of the two gears, so that the materials on the upper part between the two crushing rollers 705 are crushed, the crushed materials fall to the upper end surface of the shaking screen plate 303, then the driving motor 401 is started, the rotating shaft of the driving motor 401 drives the driving plate 402 to rotate, then the shaking box 3 is driven by the connecting rod 403 to shake left and right in a reciprocating manner, so that the shaking screen plate 303 shakes left and right in a reciprocating manner, so as to rapidly screen the material on the shaking screen plate 303;

when the shaking box 3 is shaken in a left-right reciprocating manner, the left end of the shaking box 3 is distributed in a downward inclined manner, so that large granular materials slide into the material conveying part 8 and slide into the material collecting box 102 under the downward inclined action of the front end of the material conveying part 8, when the shaking box 3 shakes rightwards, the two vibrating plates 306 collide with the circular collision blocks at the left ends of the two collision parts 5 after moving rightwards, and the two vibrating plates 306 vibrate, so that the shaking box 3 and the shaking screen plate 303 vibrate;

when the two gear-lacking gears 702 rotate clockwise, after the two gear-lacking gears 702 are meshed with the two knocking racks 901, the two knocking racks 901 are driven to move downwards, and after the two gear-lacking gears 702 are separated from the two knocking racks 901, the third sliding barrels 904 on the two knocking racks 901 drive the two knocking racks 901 to move upwards rapidly under the action of a spring outside a third guide rod, and then the two rectangular support plates 902 drive the two knocking plates 903 to move upwards, so that the cylindrical knocking blocks on the upper end surfaces of the two knocking plates 903 knock the bottom end surfaces of the detachable vibrating plates 203.

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 utility model provides a mechanical automation equipment is with preventing blockking up feed mechanism which characterized in that: mechanical automation equipment includes with preventing stifled feed mechanism: an apparatus body; the upper end face of the equipment body is provided with a box body, the lower end of the interior of the box body is provided with a shaking box, and a driving part is arranged on the right side of the shaking box in the interior of the box body; the right side surface of the interior of the box body is provided with two collision parts at the front side and the rear side of the driving part, the lower part of the front end surface of the box body is fixedly provided with an insertion part, the upper end of the interior of the box body is fixedly provided with a crushing box, and the left side of the crushing box is symmetrically provided with two knocking parts in a front-back manner; the inside left side of box is equipped with defeated material portion, and has seted up the rectangle opening on the left of the terminal surface before the box, and defeated material portion front end runs through box front side rectangle opening.

2. The mechanical automation equipment of claim 1 is with preventing stifled feed mechanism, characterized in that: the device body comprises an installation clamping rail, a material collecting box and an inserting block, the installation clamping rail is fixed on the upper end surface of the device body at the position of the feeding port and is of an Contraband-shaped structure, and the material collecting box is installed on the front end surface of the device body through a rectangular supporting plate;

t-shaped sliding grooves are formed in the left side face and the right side face of the inner side of the installation clamping rail, an insertion block is fixed in the middle of the front end face of the installation clamping rail, a rectangular socket is formed in the middle of the upper end face of the insertion block, and a box body slides on the upper portion of the inner side of the installation clamping rail.

3. The mechanical automation equipment of claim 2 is with preventing stifled feed mechanism, characterized in that: the box body comprises a top plate, a feeding hopper, a detachable vibrating plate, a transition bin and a connecting plate, wherein the top plate is fixedly arranged at the top of the box body, the middle part of the top plate is fixedly connected with a feeding pipe penetrating through the top plate, the upper end of the feeding pipe is fixedly provided with the feeding hopper, the detachable vibrating plate is arranged on the left side of the feeding hopper, and the rear side of the box body is rotatably connected with an access door through a rotating shaft;

the discharge gate has been seted up to box bottom face, and the inside bottom face of box is located discharge gate department and is equipped with the transition storehouse, and transition storehouse upper portion is equipped with rocks the box, and box bottom face is fixed with the connecting plate, and the connecting plate bottom face sets up the rectangle opening corresponding with the bottom half discharge gate, and both ends face all is equipped with T type draw runner about the connecting plate, and when box and equipment body were in the mounted state, connecting plate both sides T type draw runner respectively with two inboard T type spouts of installation card rail slide and be connected.

4. The mechanical automation equipment of claim 3 is with preventing stifled feed mechanism, characterized in that: the shaking box comprises first sliding barrels, rectangular bayonets, shaking screen plates, elastic buckles, limiting insertion columns, vibrating plates and beating blocks, wherein the front end face and the rear end face of the shaking box are respectively provided with one first sliding barrel, each first sliding barrel is internally provided with a first guide rod fixed on the upper end face of the transition bin in a sliding manner, the bottom end face inside the shaking box is provided with a rectangular feed opening, the front side and the rear side of the bottom end face inside the shaking box are respectively provided with one rectangular bayonet, the left side of the shaking box is provided with a discharge opening, the front end face of the shaking box is fixedly provided with the beating block through an L-shaped support plate, the left end of the shaking box is distributed in a downward inclined manner, and the right end face of the shaking box is provided with two vibrating plates in a front-back symmetrical manner;

rock both sides around the otter board up end and all seted up a rectangle spout, and all slide in every rectangle spout and have two elasticity buckles that are the symmetric form and distribute to it all is equipped with the spring to lie in between two elasticity buckles in every rectangle spout, rocks four contained angles departments of otter board bottom face and all is equipped with and rocks a spacing post of inserting that the box inside bottom face was pegged graft mutually, when rocking the box and be in the removal state left, knocks the piece and will collide with defeated material portion right-hand member face mutually.

5. The mechanical automation equipment of claim 1 is with preventing stifled feed mechanism, characterized in that: the driving part comprises a driving motor, a driving plate and a connecting rod, the driving motor is arranged on the right side surface in the box body, and the driving motor is rotatably connected with the driving plate through a rotating shaft;

the drive plate is circular platelike structure, and drive plate up end edge rotates through the pivot and is connected with the connecting rod, and the connecting rod other end rotates through the pivot and rocks box right-hand member face middle part and be connected.

6. The mechanical automation equipment of claim 1 is with preventing stifled feed mechanism, characterized in that: the collision part comprises a supporting plate, the collision part is of a square plate-shaped structure, and a round collision block is arranged in the middle of the left end face of the collision part;

four contained angle departments of collision portion right-hand member face all are fixed with a T type slide bar, and the collision portion right side has a backup pad of fixing at the inside right flank of box through four T type slide bars slip, and the backup pad is Contraband font platelike structure, and every T type slide bar outside is located the collision portion right side and all has cup jointed the spring.

7. The mechanical automation equipment of claim 1 is with preventing stifled feed mechanism, characterized in that: the inserting part comprises an inserting sliding shell, an inserting sliding block and a limiting guide rod, the inserting sliding shell is fixed on the lower portion of the front end face of the box body, the inserting sliding block slides inside the inserting sliding shell, the front side edge of the lower end of the inserting sliding block is a round angle, and a T-shaped pull rod is fixed on the front end face of the inserting sliding block;

the upper end face of the insertion sliding block is bilaterally symmetrical and is provided with two limiting guide rods penetrating through the top of the insertion sliding shell, the outside of each limiting guide rod is located inside the insertion sliding shell and is sleeved with a spring, and when the insertion part is in a limiting state, the lower end of the insertion sliding block is inserted into a rectangular socket formed in the upper end face of the insertion block.

8. The mechanical automation equipment of claim 1 is with preventing stifled feed mechanism, characterized in that: the crushing box comprises a crushing motor, a tooth-lacking gear, a worm wheel and crushing rollers, the two crushing rollers are rotatably connected inside the crushing box through a rotating shaft, the right ends of the two crushing rollers are respectively provided with a gear, the two gears are meshed with each other, the crushing motor is arranged on the front end face of the box body and is rotatably connected with the two tooth-lacking gears and the worm through the rotating shaft penetrating through the front end face of the box body, and the right sides of the two tooth-lacking gears are respectively provided with a knocking part;

one in the rear side the pivot left end of crushing roller is equipped with the worm wheel with worm meshing, and broken bottom of the case portion is equipped with leaks hopper-shaped feed opening, and broken roof portion is the opening structure to broken roof portion opening is located the inlet pipe lower extreme outside.

9. The mechanical automation equipment of claim 1 is with preventing stifled feed mechanism, characterized in that: the material conveying part comprises second sliding cylinders, the material conveying part is of a rectangular box-shaped structure, a material outlet is formed in the front end of the material conveying part, two second sliding cylinders are fixed on the bottom end face of the material conveying part, the material outlet of the material conveying part is located right above the material collecting box, and the front end of the material conveying part is distributed in a downward inclined manner;

two inside all sliding of second slide cartridge has two second guide arms of fixing at the inside bottom face of box, and two second guide arms outsides are located second slide cartridge left sides and all have cup jointed the spring.

10. The mechanical automation equipment of claim 1 is with preventing stifled feed mechanism, characterized in that: the knocking part comprises a knocking rack, a rectangular support plate, a knocking plate and third sliding cylinders, the lower part of the right end face of the knocking rack is fixedly provided with the two third sliding cylinders through the rectangular plate, the two third sliding cylinders are internally provided with a third guide rod fixed outside the box body in a sliding manner, and the outside of each third guide rod is sleeved with a spring positioned at the lower part of the third sliding cylinder;

the upper end of the knocking rack is fixed with a rectangular support plate, four included angles of the bottom end face of the knocking plate are respectively provided with a T-shaped sliding rod connected with the rectangular support plate in a sliding mode, a spring is sleeved outside each T-shaped sliding rod, the upper end face of the knocking plate is provided with a cylindrical knocking block, and when the knocking portion is in a knocking state, the cylindrical knocking block at the upper end of the knocking plate collides with the bottom end face of the detachable vibration plate.

Images