CN112497507A

CN112497507A - Efficient concrete dispensing equipment

Info

Publication number: CN112497507A
Application number: CN202011281741.3A
Authority: CN
Inventors: 徐金广
Original assignee: Shanghai Fuji Cement Products Co ltd
Current assignee: Shanghai Fuji Cement Products Co ltd
Priority date: 2020-11-17
Filing date: 2020-11-17
Publication date: 2021-03-16
Anticipated expiration: 2040-11-17
Also published as: CN112497507B

Abstract

The utility model relates to an efficient concrete dosing equipment, including lower hopper, the discharge gate department integrated into one piece of lower hopper has the broken storehouse that is linked together with lower hopper, the discharge gate department symmetry that the outer end wall of lower hopper just is located lower hopper is provided with beats the subassembly, be provided with the mount pad with the inside wall fixed connection in broken storehouse, be provided with in the mount pad and be used for striking the grit so that the broken subassembly of grit, the below that just is located broken subassembly in the mount pad is provided with the drive assembly who is connected with broken subassembly, be provided with the adjusting part who is used for changing broken subassembly striking direction on the broken subassembly. This application has hopper jam condition emergence under reducing to guarantee that the follow-up work of weighing of concrete batching equipment normally goes on, improve the work efficiency's of this equipment effect.

Description

Efficient concrete dispensing equipment

Technical Field

The application relates to the technical field of concrete batching equipment, in particular to efficient concrete batching equipment.

Background

At present, the concrete proportioning machine is used for various materials such as: the automatic equipment for quantitatively distributing the gravels is mainly applied to the concrete construction industry to replace manual platform scales or volume metering and other modes, has the characteristics of high metering precision, high distribution efficiency, high automation degree and the like, and is one of the main parts in complete equipment of a full-automatic concrete mixing plant.

The current chinese patent that publication number is CN205167234U discloses a concrete proportioning machine, and it includes the frame, sets up the feed bin on frame upper portion, sets up the weighing hopper in the feed bin below to and set up the batching conveyer belt in the weighing hopper below, the concrete proportioning machine carries out the during operation, and the grit that the workman will weigh drops into the feed bin, and the grit in the feed bin gets into the batching hopper and weighs, drops to the batching conveyer belt after weighing the completion and transports away.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: when the workman puts in the grit in toward the feed bin, the grit is too big or once only put in too much and cause the jam in the feed bin bottom easily, influences follow-up work of weighing.

Disclosure of Invention

In order to reduce down the hopper jam condition and take place to guarantee that the follow-up weighing work of concrete batching equipment normally goes on, improve the work efficiency of this equipment, this application provides an efficient concrete batching equipment.

The application provides a high-efficient concrete batching equipment adopts following technical scheme:

the utility model provides an efficient concrete dosing equipment, includes hopper down, the discharge gate department integrated into one piece of hopper has the broken storehouse that is linked together with hopper down, the outer end wall of hopper and the discharge gate department symmetry that is located hopper down are provided with beats the subassembly down, be provided with the mount pad with the inside wall fixed connection in broken storehouse, be provided with in the mount pad and be used for striking the grit so that the broken subassembly of grit, the below that just is located broken subassembly in the mount pad is provided with the drive assembly who is connected with broken subassembly, be provided with the adjusting part who is used for changing broken subassembly striking direction on the broken subassembly.

Through adopting above-mentioned technical scheme, the condition of jam appears when hopper down, when needing to carry out the breakage to the grit that hopper internal position is corresponding down, the staff passes through adjusting part and adjusts broken subassembly's striking direction, then start drive assembly, drive assembly passes through adjusting part and drives broken subassembly work, in order to carry out the breakage to the grit that blocks up, start simultaneously and beat the subassembly, beat the grit in the subassembly will hopper down and shake broken storehouse, whole process effectively reduces down the hopper jam condition and takes place, thereby guarantee that the follow-up work of weighing of concrete dosing equipment normally goes on, improve the work efficiency of this equipment.

Optionally, a horizontally arranged supporting plate is fixedly connected between the crushing assembly and the driving assembly in the mounting seat, the crushing assembly is supported by the top surface of the supporting plate, a long hole extending along the length direction of the supporting plate is formed in the supporting plate, and the crushing assembly is connected with the driving assembly through the long hole.

Through adopting above-mentioned technical scheme, the backup pad is used for holding the mount pad, and the setting of rectangular hole provides the space for reciprocating of mount pad to slide, and the backup pad plays certain additional action to being connected of drive assembly and broken subassembly simultaneously.

Optionally, crushing unit sets up on the both ends face of installation shell and with the quartering hammer of installation shell fixed connection including setting up in the mount pad and with the installation shell and the symmetry of the top surface butt of backup pad, the one end that the installation shell was kept away from to the quartering hammer passes the mount pad and extends to outside the mount pad, adjusting part sets up in the installation shell, adjusting part is including two connecting pieces, two the connecting piece accessible is adjusted and is passed rectangular hole and drive assembly and be connected.

Through adopting above-mentioned technical scheme, under the linkage effect of connecting piece, drive assembly drives the reciprocating sliding of length direction of quartering hammer along the backup pad to make the quartering hammer can follow corresponding direction striking, in order to reach the effect that the broken grit that is located between the inner end wall of mount pad and broken storehouse.

Optionally, the drive assembly includes first driving piece, connecting axle and the rotation sleeve that sets up in the mount pad and is located the backup pad below, first driving piece is transversely installed on the interior end wall of mount pad, the output shaft of first driving piece and the tip fixed connection of connecting axle, the one end level that first driving piece was kept away from to the connecting axle extends to another interior end wall of mount pad and rotates with the mount pad to be connected, rotate the sleeve cover locate on the connecting axle and with connecting axle fixed connection, the symmetry has been seted up two and has been turned over the groove on the rotation sleeve, two it is connected with the corresponding connecting piece in position respectively to turn over the groove.

Through adopting above-mentioned technical scheme, first driving piece drive connecting axle rotates, and the pivoted connecting axle drives and rotates the sleeve rotation to make connect in rotating the connecting piece in the sleeve and slide along the direction of sliding of returning the groove, and then reach the purpose that makes the quartering hammer along the broken grit of corresponding direction.

Optionally, the adjusting part still including vertically set up in the installation shell and relative both ends rotate the axis of rotation of being connected, cover with two inside walls of broken storehouse respectively, locate the axis of rotation and be located the gear of installation shell and two vertical settings in the installation shell and be located the rack of gear both sides, two dislocation set about the rack, just the rack all with gear intermeshing, each the rack is close to the terminal surface of backup pad all with the corresponding connecting piece fixed connection in position, the connecting piece is kept away from the one end of the rack rather than corresponding and is passed the rectangular hole and extend to the corresponding book of position and return the inslot, the connecting piece slides through folding the groove and being connected with the rotating sleeve.

Through adopting above-mentioned technical scheme, when the striking direction of quartering hammer needs to be changed, the staff rotates the axis of rotation, makes two racks move towards opposite direction, and one of them connecting piece extends to and rolls over the inslot and is connected with rotating sleeve slides to the striking direction of quartering hammer has been changed, reaches the purpose that the quartering hammer can be adjusted according to actual conditions.

Optionally, a sliding hole corresponding to the position of the rotating shaft is formed in one side of the crushing bin, one end of the rotating shaft penetrates through the sliding hole and extends out of the crushing bin, and a rocker handle fixedly connected with the rotating shaft is sleeved at one end, extending out of the crushing bin, of the rotating shaft.

Through adopting above-mentioned technical scheme, the setting of rocker handle is convenient for the staff and passes through the rocker handle rotation axis of rotation to the staff of being convenient for passes through axis of rotation control and rotates muffjoint's connecting piece.

Optionally, the rapping assembly comprises a mounting frame fixedly connected to the outer end wall of the lower hopper and located at the discharge port of the lower hopper, and a second driving member, a driving disk, a connecting disk, an elastic member and a pushing rod arranged on the mounting frame, the mounting frame comprises a bearing plate and two connecting plates respectively vertically fixed to opposite ends of the bearing plate, one end of each connecting plate far away from the bearing plate is fixedly connected to the outer end wall of the lower hopper, a fixing plate is arranged between the two connecting plates, two end faces of the fixing plate are respectively fixedly connected to one side of the two connecting plates close to each other, the second driving member is mounted on one side of the bearing plate far away from the lower hopper, an output shaft of the second driving member penetrates through the circle centers of the bearing plate and the driving disk and is fixedly connected to the connecting disk, one end of the pushing rod far away from the connecting, the elastic piece cover is located on the catch bar and is located between connection pad and the fixed plate, one end of elastic piece and one side fixed connection that the fixed plate is close to the connection pad, the one end that the fixed plate was kept away from to the elastic piece and the terminal surface fixed connection of connection pad back to the driving-disc, the connection pad is located the one end that the second driving piece was kept away from to the driving-disc and sets up with the driving-disc coaxial line, the terminal surface that the second driving piece was kept away from to the driving-disc has a plurality of propelling balls along its circumferencial direction evenly distributed, the terminal surface that the catch bar was kept away from to the connection pad has seted up a plurality of evenly distributed's promotion groove along its circumferencial direction, the.

Through adopting above-mentioned technical scheme, the second driving piece drive-disc is rotatory, under the impetus of propelling movement ball, makes the catch bar and the outer end wall butt of hopper down to reach the effect of rapping hopper down, simultaneously under the elastic action of elastic component and the mating action of promotion groove and propelling movement ball, make the catch bar can be reciprocal beat hopper down, thereby make the subassembly of beating better to the effect of beating of hopper down.

Optionally, one end of the push rod, which is far away from the connecting disc, is fixedly connected with a beating disc.

Through adopting above-mentioned technical scheme, the area of contact of catch bar with lower hopper has been increased in the setting of beating the dish to make the beating effect of catch bar better.

Optionally, the two inner end walls of the crushing bin are fixedly connected with first crushing teeth, and the two ends of the crushing hammers, which are far away from the mounting shell, are provided with second crushing teeth meshed with the first crushing teeth.

Through adopting above-mentioned technical scheme, being provided with of first broken tooth and the broken tooth of second does benefit to the breakage of grit.

Optionally, two observation windows are further installed on the side face, provided with the sliding hole, of the crushing bin, and the two observation windows are symmetrically arranged at two ends of the sliding hole.

Through adopting above-mentioned technical scheme, the staff of being convenient for of setting up of observation window observes the condition in the broken storehouse through the observation window.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the lower hopper is blocked and the gravels corresponding to the inner position of the lower hopper need to be crushed, workers adjust the impact direction of the crushing assembly through the adjusting assembly, then the driving assembly is started, the driving assembly drives the crushing assembly to work through the adjusting assembly so as to crush the blocked gravels, meanwhile, the beating assembly is started, and shakes and falls the gravels in the lower hopper to the crushing bin, so that the blockage of the lower hopper is effectively reduced in the whole process, the subsequent weighing work of the concrete batching equipment is ensured to be normally carried out, and the working efficiency of the equipment is improved;

2. under the connecting action of the connecting piece, the driving assembly drives the breaking hammer to slide along the length direction of the supporting plate in a reciprocating mode, so that the breaking hammer can impact along the corresponding direction, and the effect of breaking gravels between the mounting seat and the inner end wall of the breaking bin is achieved;

3. the second driving piece drives the driving disc to rotate, and under the pushing action of the pushing ball, the pushing rod is enabled to be abutted to the outer end wall of the lower hopper so as to achieve the effect of knocking the lower hopper, and meanwhile, under the elastic action of the elastic piece and the matching action of the pushing groove and the pushing ball, the pushing rod can knock the lower hopper in a reciprocating mode, so that the knocking effect of the knocking assembly on the lower hopper is better.

Drawings

Fig. 1 is a schematic view of the overall structure of the present application.

Fig. 2 is a schematic sectional structure view of fig. 1.

Fig. 3 is a partially enlarged schematic view of a portion a in fig. 2.

Fig. 4 is a schematic structural view of the mount, crushing assembly and drive assembly of the present application.

Fig. 5 is a schematic structural view of the rapping assembly of the present application.

Fig. 6 is a partially enlarged schematic view of a portion B in fig. 5.

Description of reference numerals: 1. feeding a hopper; 2. a crushing bin; 21. a first crushing tooth; 22. a sliding hole; 23. an observation window; 3. a mounting seat; 31. a U-shaped frame; 311. a side plate; 312. a transverse plate; 32. a connecting frame; 33. a support plate; 331. a strip hole; 4. a crushing assembly; 41. mounting a shell; 42. a breaking hammer; 421. a second crushing tooth; 5. an adjustment assembly; 51. a rotating shaft; 511. a rocker handle; 52. a gear; 53. a rack; 54. a connecting member; 6. a drive assembly; 61. a first driving member; 62. a connecting shaft; 63. rotating the sleeve; 631. a folding groove; 7. a rapping component; 71. a mounting frame; 711. a carrier plate; 712. a connecting plate; 713. a first slide plate; 714. a second slide plate; 715. a fixing plate; 716. a T-shaped slot; 717. a T-shaped block; 718. a locking block; 719. a fastener; 72. a second driving member; 73. a drive disc; 731. pushing the ball; 74. a connecting disc; 741. a push groove; 75. an elastic member; 76. a push rod; 77. the disc is beaten.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses efficient concrete dosing device. Referring to fig. 1 and 2, an efficient concrete batching apparatus comprises a lower hopper 1 and a crushing bin 2, wherein the crushing bin 2 is integrally formed at a discharge port of the lower hopper 1 and communicated with the lower hopper 1, a mounting seat 3 is arranged in the crushing bin 2, and a crushing assembly 4, an adjusting assembly 5 connected with the crushing assembly 4 and a driving assembly 6 connected with the adjusting assembly 5 are arranged in the mounting seat 3. Beating assemblies 7 are symmetrically arranged on the outer end wall of the lower hopper 1 and positioned at the discharge port of the lower hopper 1.

Referring to fig. 2 and 3, the mounting seat 3 includes a U-shaped frame 31 with an opening vertically and upwardly arranged and a connection frame 32 with an opening of the U-shaped frame 31 and an upright cross section of the connection frame being an isosceles triangle, two oblique sides of the connection frame 32 are arranged along the direction of mutual approach in an upwardly inclined manner, and two side openings of the U-shaped frame 31 are respectively fixedly connected with two inner side walls of the crushing bin 2. Thus, the sand dropped into the lower hopper 1 by the guiding action of the connecting frame 32 falls through the gap between the U-shaped frame 31 and the inner end wall of the crushing hopper by the guiding action of the connecting frame 32.

Referring to fig. 2 and 3, the U-shaped frame 31 includes two side plates 311 vertically disposed and parallel to each other, and a horizontal plate 312 disposed between the two side plates 311 and vertically fixed to the bottom of the side plates 311; a supporting plate 33 parallel to the transverse plate 312 is arranged above the transverse plate 312 in the U-shaped frame 31, opposite ends of the supporting plate 33 are fixedly connected with one side of the two side plates 311 which are close to each other, the top surface of the supporting plate 33 supports the crushing assembly 4, and the driving assembly 6 is arranged between the transverse plate 312 and the supporting plate 33.

With reference to fig. 3 and 4, the breaking assembly 4 comprises a mounting shell 41 and two breaking hammers 42; installation shell 41 is the hollow shell body that the vertical section is the rectangle, two quartering hammers 42 symmetry set up on installation shell 41, the one end of quartering hammer 42 and the terminal surface fixed connection of installation shell 41, the one end that installation shell 41 was kept away from to quartering hammer 42 passes outside rather than adjacent nearly curb plate 311 extends to U-shaped frame 31, first broken tooth 21 of equal fixedly connected with on two inner end walls in broken storehouse 2, the broken tooth 421 of the equal fixedly connected with second of one end that installation shell 41 was kept away from to quartering hammer 42, first broken tooth 21 and the broken tooth 421 intermeshing of second. Thus, the first crushing tooth 21 and the second crushing tooth 421 are provided to increase the strength of the crushing hammer 42 for crushing the sand.

Referring to fig. 3 and 4, the adjusting assembly 5 includes a rotating shaft 51 disposed inside the mounting case 41, a gear 52, two racks 53, and two connecting members 54 movable to the outside of the mounting case 41; the two opposite ends of the rotating shaft 51 longitudinally penetrate through the mounting shell 41 and are respectively rotatably connected with the two inner side walls of the crushing bin 2 (see fig. 2), the gear 52 is sleeved on the rotating shaft 51 and is fixedly connected with the rotating shaft 51, the two racks 53 are symmetrically arranged on the two sides of the gear 52, the two racks 53 are vertically arranged and are parallel to each other, the two racks 53 are arranged in a vertically staggered manner, and the racks 53 are meshed with the gear 52. The two connecting members 54 are respectively fixedly connected to the bottoms of the corresponding racks 53, the supporting plate 33 is provided with a long hole 331, the long hole 331 extends along the length direction of the supporting plate 33, and one end of the connecting member 54, which is far away from the corresponding rack 53, extends outside the supporting plate 33 through the long hole 331 and is connected to the driving component 6.

Referring to fig. 3 and 4, in order to control the connection between one of the connecting members 54 and the driving assembly 6, a sliding hole 22 (see fig. 1) corresponding to the position of the rotating shaft 51 is formed in one side of the crushing bin 2, one end of the rotating shaft 51 passes through the sliding hole 22 (see fig. 1) and extends out of the crushing bin 2 (see fig. 1), and a rocker handle 511 fixedly connected with the rotating shaft 51 is sleeved at one end of the rotating shaft 51 extending out of the crushing bin 2 (see fig. 1). Therefore, when the rocker handle 511 is rocked, the rocker handle 511 drives the gear 52 to rotate through the rotating shaft 51, and the gear 52 is meshed with the two staggered racks 53, so that the connecting piece 54 is connected with the driving assembly 6, and the aim of controlling the impact direction of the breaking hammer 42 is fulfilled.

Referring to fig. 3 and 4, the driving assembly 6 includes a first driving member 61, a connecting shaft 62, and a rotating sleeve 63; wherein, the first driving member 61, the connecting shaft 62 and the rotating sleeve 63 are all disposed between the supporting plate 33 and the transverse plate 312. In this embodiment, the first driving member 61 is a servo motor, the servo motor is transversely disposed, and a fixed end of the servo motor is fixedly connected with an inner end wall of the mounting seat 3, an output shaft of the servo motor is fixedly connected with an end portion of the connecting shaft 62, one end of the connecting shaft 62 far away from the servo motor transversely extends to the other inner end wall of the mounting seat 3 and is rotatably connected with the mounting seat 3, and the rotating sleeve 63 is sleeved on the connecting shaft 62 and is fixedly connected with the connecting shaft 62; the rotating sleeve 63 is symmetrically provided with two folding grooves 631, and the folding parts of the two folding grooves 631 are arranged correspondingly and close to each other; the two folding grooves 631 correspond to the two connecting pieces 54 respectively in position, one end of the connecting piece 54, which is far away from the adjacent rack 53, vertically penetrates through the long hole 331 to be connected with the folding groove 631 corresponding to the position, and the connecting piece 54 is connected with the rotating sleeve 63 in a sliding manner through the folding groove 631; one end of the connecting piece 54 extending into the folding groove 631 is sleeved with a connecting sleeve rotatably connected with the connecting piece 54.

Referring to fig. 1 and 4, in order to facilitate the staff to observe the situation inside the crushing bin 2, two transparent observation windows 23 are further installed on the side surface of the crushing bin 2 where the sliding hole 22 is opened, and the two observation windows 23 are symmetrically arranged at two ends of the sliding hole 22. Therefore, the worker observes the conditions in the crushing bin 2 through the observation window 23, so that the impact direction of the breaking hammer 42 is determined through the rocker handle 511, the rocker handle 511 is rotated, under the meshing action of the gear 52 and the rack 53, one of the connecting pieces 54 passes through the long hole 331 and extends into the folding groove 631 corresponding to the position of the long hole, the servo motor is started, the servo motor drives the connecting shaft 62 to rotate, the rotating connecting shaft 62 drives the rotating sleeve 63 to rotate, at the moment, the connecting piece 54 is connected with the rotating sleeve 63 in a sliding mode, so that under the bending action of the bending part of the folding groove 631, the corresponding breaking hammer 42 extends to impact sand clamped on the inner end walls of the mounting seat 3 and the breaking bucket in the corresponding direction, and the purpose of crushing the sand is achieved.

With reference to fig. 1 and 5, rapping assembly 7 comprises a mounting frame 71; the mounting frame 71 comprises a bearing plate 711 and two connecting plates 712 which are respectively vertically fixed with two opposite ends of the bearing plate 711, wherein one end of the connecting plate 712, which is far away from the bearing plate 711, is fixedly connected with the outer end wall of the blanking hopper 1; each connecting plate 712 includes a first sliding plate 713 and a second sliding plate 714 which can slide with each other, a fixing plate 715 is disposed between the two second sliding plates 714, and two end faces of the fixing plate 715 are respectively fixedly connected with one side of the two second sliding plates 714 which are close to each other.

Referring to fig. 5 and 6, a T-shaped slot 716 is formed in a side surface of the second sliding plate 714, which faces away from the fixed plate 715, the T-shaped slot 716 extends along a length direction of the side surface of the fixed plate 715 where the T-shaped slot 716 is located, a T-shaped block 717 corresponding to the T-shaped slot 716 is fixedly connected to a side of the first sliding plate 713, which is close to the second sliding plate 714 adjacent to the first sliding plate 713, the T-shaped block 717 is slidably connected to the second sliding plate 714 through the T-shaped slot 716, one end of the first sliding plate 713 is vertically fixed to an end surface of the bearing plate 711, one end of the first sliding plate 713, which is far away from the bearing plate 711, is fixedly connected to a locking block 718 parallel to the second sliding plate 714, a fastening member 719 is disposed on the locking block 718, in this embodiment, the fastening member 719 is a bolt, and. One end of the second sliding plate 714 far away from the bearing plate 711 is fixedly connected with the outer end wall of the lower hopper 1.

Referring to fig. 5 and 6, the rapping assembly 7 further comprises a second driving member 72 mounted on one side of the loading plate 711 far away from the blanking hopper 1, a driving disc 73 disposed between the two connecting plates 712 and located between the loading plate 711 and the fixing plate 715, a connecting disc 74 and an elastic member 75, and a pushing rod 76 with an end fixedly connected to the center of the connecting disc 74; wherein the driving disc 73, the connecting disc 74 and the pushing rod 76 are coaxially arranged. In this embodiment, the second driving element 72 is a motor, the motor is installed on one side of the loading plate 711 far away from the blanking hopper 1, an output shaft of the motor passes through the loading plate 711 and is fixedly connected with the center of the driving disc 73, a plurality of pushing balls 731 are arranged on an end surface of the driving disc 73 far away from the motor, and the plurality of pushing balls 731 are uniformly distributed along the end surface of the driving disc 73; the end face of the connecting disc 74 far away from the pushing rod 76 is provided with a plurality of pushing grooves 741, the pushing balls 731 are matched with the pushing grooves 741, and the pushing balls 731 push the connecting disc 74 through the pushing grooves 741.

Referring to fig. 5 and 6, in order to enable the connecting disc 74 to reciprocate, in the present embodiment, the elastic member 75 is a spring, the spring is sleeved on the pushing rod 76 and located between the connecting disc 74 and the fixing plate 715, one end of the spring is fixedly connected to one side of the fixing plate 715 close to the connecting disc 74, the other end of the spring is fixedly connected to an end surface of the connecting disc 74 opposite to the connecting disc 73, and one end of the pushing rod 76 far from the connecting disc 74 penetrates through the fixing plate 715 to abut against an outer end wall of the lower hopper 1 (see fig. 1). In order to increase the contact area between the pushing rod 76 and the discharging hopper 1 (see fig. 1) and improve the beating effect of the pushing rod 76, a beating disk 77 which is coaxially arranged with the connecting disk 74 is fixedly connected to one end, away from the connecting disk 74, of the pushing rod 76, the radius of the beating disk 77 is larger than that of the pushing rod 76, and the end face, back to the pushing rod 76, of the beating disk 77 is abutted to the outer end wall of the discharging hopper 1 (see fig. 1).

Referring to fig. 5 and 6, the motor is started to rotate the driving disc 73, when the pushing ball 731 is misaligned with the pushing groove 741, the pushing ball 731 pushes the connecting disc 74 to move toward the discharging hopper 1 (see fig. 1), so that the striking disc 77 strikes the discharging hopper 1 (see fig. 1), the spring is in a compressed state and has an outward tension, when the pushing ball 731 corresponds to the pushing groove 741, the connecting disc 74 moves toward the driving disc 73 under the tension of the spring, so that the striking disc 77 is separated from the discharging hopper 1 (see fig. 1), and during the starting of the motor, the striking disc 77 reciprocates.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. An efficient concrete batching equipment which characterized in that: including hopper (1) down, the discharge gate department integrated into one piece of hopper (1) has broken storehouse (2) that are linked together with hopper (1) down, the outer end wall of hopper (1) down and the discharge gate department symmetry that is located hopper (1) down are provided with beats subassembly (7), be provided with in broken storehouse (2) with the inside wall fixed connection's in broken storehouse (2) mount pad (3), be provided with in mount pad (3) and be used for striking grit so that the broken subassembly (4) of grit, the below that just is located broken subassembly (4) in mount pad (3) is provided with drive assembly (6) of being connected with broken subassembly (4), be provided with on broken subassembly (4) and be used for changing adjusting part (5) of broken subassembly (4) striking direction.

2. A high efficiency concrete batching plant as claimed in claim 1, wherein: the crushing device is characterized in that a horizontally arranged supporting plate (33) is fixedly connected between the crushing component (4) and the driving component (6) in the mounting seat (3), the crushing component (4) is supported on the top surface of the supporting plate (33), a long hole (331) extending along the length direction of the supporting plate (33) is formed in the supporting plate (33), and the crushing component (4) is connected with the driving component (6) through the long hole (331).

3. A high efficiency concrete batching plant as claimed in claim 2, wherein: broken subassembly (4) including set up in mount pad (3) and with installation shell (41) and the symmetry of the top surface butt of backup pad (33) set up on the both ends face of installation shell (41) and with installation shell (41) fixed connection's quartering hammer (42), the one end that installation shell (41) were kept away from in quartering hammer (42) passes mount pad (3) and extends outside mount pad (3), adjusting part (5) set up in installation shell (41), adjusting part (5) are including two connecting pieces (54), two connecting piece (54) accessible is adjusted and is passed rectangular hole (331) and be connected with drive assembly (6).

4. A high efficiency concrete batching plant as claimed in claim 3, wherein: drive assembly (6) are including setting up first driving piece (61), connecting axle (62) and rotation sleeve (63) in mount pad (3) and be located backup pad (33) below, first driving piece (61) is transversely installed on the interior end wall of mount pad (3), the output shaft of first driving piece (61) and the tip fixed connection of connecting axle (62), the one end level that first driving piece (61) was kept away from in connecting axle (62) extends to another interior end wall of mount pad (3) and rotates with mount pad (3) and is connected, rotate sleeve (63) cover locate on connecting axle (62) and with connecting axle (62) fixed connection, two book return grooves (631), two have been seted up to the symmetry on rotation sleeve (63) the book return grooves (631) are connected with corresponding connecting piece (54) in position respectively.

5. A high efficiency concrete batching plant as claimed in claim 4, wherein: the adjusting component (5) also comprises a rotating shaft (51) which is longitudinally arranged in the mounting shell (41) and has two opposite ends which are respectively rotatably connected with the two inner side walls of the crushing bin (2), a gear (52) which is sleeved on the rotating shaft (51) and is positioned in the mounting shell (41), and two racks (53) which are vertically arranged in the mounting shell (41) and are positioned at two sides of the gear (52), wherein the two racks (53) are arranged in a vertically staggered manner, the racks (53) are meshed with the gears (52), the end surface of each rack (53) close to the support plate (33) is fixedly connected with a connecting piece (54) with a corresponding position, one end of the connecting piece (54) far away from the corresponding rack (53) passes through the long hole (331) and extends into the folding groove (631) corresponding to the position, the connecting piece (54) is connected with the rotating sleeve (63) in a sliding way through a folding groove (631).

6. A high efficiency concrete batching plant as claimed in claim 5, wherein: the corresponding hole (22) that slides in rotation axis (51) position is seted up to one side of broken storehouse (2), the one end of rotation axis (51) is passed and is slided hole (22) and extend outside broken storehouse (2), rotation axis (51) extend to the outer pot head in broken storehouse (2) and be equipped with rocker handle (511) with rotation axis (51) fixed connection.

7. A high efficiency concrete batching plant as claimed in claim 1, wherein: the rapping component (7) comprises an installation frame (71) fixedly connected to the outer end wall of the discharging hopper (1) and positioned at the discharging port of the discharging hopper (1), and a second driving piece (72), a driving disc (73), a connection disc (74), an elastic piece (75) and a push rod (76) arranged on the installation frame (71), wherein the installation frame (71) comprises a bearing plate (711) and two connection plates (712) which are respectively and vertically fixed with the two opposite ends of the bearing plate (711), one end, far away from the bearing plate (711), of each connection plate (712) is fixedly connected with the outer end wall of the discharging hopper (1), a fixing plate (715) is arranged between the two connection plates (712), two end faces of each fixing plate (715) are respectively and fixedly connected with one side, close to each other, of the two connection plates (712), and the second driving piece (72) is installed on one side, far away from the discharging hopper (, an output shaft of the second driving part (72) penetrates through a bearing plate (711) and is fixedly connected with the circle center of the driving plate (73), one end of a push rod (76) is fixedly connected with the connecting disc (74), one end, far away from the connecting disc (74), of the push rod (76) penetrates through a fixing plate (715) and is abutted to the outer end wall of the lower hopper (1), an elastic part (75) is sleeved on the push rod (76) and is positioned between the connecting disc (74) and the fixing plate (715), one end of the elastic part (75) is fixedly connected with one side, close to the connecting disc (74), of the fixing plate (715), one end, far away from the fixing plate (75), of the elastic part is fixedly connected with the end face, far away from the second driving part (72), of the connecting disc (74), and is coaxially arranged with the driving disc (73), the end face, away from the second driving piece (72), of the driving disc (73) is evenly distributed with a plurality of pushing balls (731) along the circumferential direction, the end face, away from the pushing rod (76), of the connecting disc (74) is provided with a plurality of pushing grooves (741) which are evenly distributed along the circumferential direction, the pushing balls (731) are matched with the pushing grooves (741), and the pushing balls (731) push the connecting disc (74) through the pushing grooves (741).

8. A high efficiency concrete batching plant as claimed in claim 7, wherein: one end of the push rod (76) far away from the connecting disc (74) is fixedly connected with a beating disc (77).

9. A high efficiency concrete batching plant as claimed in claim 3, wherein: the two inner end walls of the crushing bin (2) are fixedly connected with first crushing teeth (21), and one ends, far away from the mounting shell (41), of the two crushing hammers (42) are provided with second crushing teeth (421) meshed with the first crushing teeth (21).

10. A high efficiency concrete batching plant as claimed in claim 6, wherein: the side face of the crushing bin (2) provided with the sliding hole (22) is further provided with two observation windows (23), and the two observation windows (23) are symmetrically arranged at two ends of the sliding hole (22).