CN111202121A

CN111202121A - Conch shell crushing vehicle capable of being rapidly collected

Info

Publication number: CN111202121A
Application number: CN202010091083.5A
Authority: CN
Inventors: 张寿彬
Original assignee: Individual
Current assignee: Liaocheng Kechuang Energy Saving Equipment Co ltd
Priority date: 2020-02-13
Filing date: 2020-02-13
Publication date: 2020-05-29
Anticipated expiration: 2040-02-13
Also published as: CN111202121B

Abstract

The invention relates to a shell breaking vehicle, in particular to a shell breaking vehicle for conchs, which can be quickly collected. The invention aims to design a shell crushing vehicle for quickly collecting conchs without manually carrying the conchs. A shell crushing vehicle for conchs capable of being rapidly collected comprises a base, moving wheels, a first mounting plate, an armrest frame, a blanking frame, a distributing frame and the like; the removal wheel that is used for this broken shell car to remove is installed to the base bottom, and base top both sides all are connected with first mounting panel, are connected with handrail frame between the first mounting panel outside upper portion, install the blanking frame between two first mounting panel upper portions, and blanking frame bottom is connected with the branch material frame. According to the invention, the driving assembly drives the crushed material assembly to be matched with the crushed material frame to crush the conch, and the intermittent blanking assembly can be used for blanking the materials to be blanked in batches, so that the situation that a large amount of force is consumed when the driving assembly is operated due to excessive one-time blanking can be avoided.

Description

Conch shell crushing vehicle capable of being rapidly collected

Technical Field

The invention relates to a shell breaking vehicle, in particular to a shell breaking vehicle for conchs, which can be quickly collected.

Background

The conch belongs to mollusk gastropods, the conch shell edge outline is slightly square, large and firm, the shell is about ten centimeters high, the conch has abundant protein, vitamins and amino acids and microelements necessary for human bodies, and is typical natural animal health food with high protein, low fat and high calcium.

Through search, a patent with the publication number of CN86206263 discloses a machine for processing river snails, which is mainly used for separating the meat of the river snails. The machine has multiple functions of crushing, separating, cleaning, deslagging and meat discharging. When in use, under the protection of water, the cylinder which is arranged in the machine groove and is spirally arranged with striking teeth nails and propelling teeth sheets rotates. The above patents suffer from the following disadvantages: the river snail or the sea snail needs to be carried by workers and then poured into the hopper to be processed, and the requirements of people cannot be met due to the fact that great strength is consumed during carrying.

Disclosure of Invention

In order to overcome the defects that the river snail or the sea snail can be handled only by carrying the river snail or the sea snail by workers and then pouring the river snail or the sea snail into the hopper, and great strength is required to be consumed during carrying, the invention has the technical problems that: provided is a shell crushing vehicle for quickly collecting conchs without manually carrying the conchs.

The technical scheme is as follows: a shell crushing vehicle capable of being rapidly collected comprises a base, moving wheels, first mounting plates and handrail frames, wherein the moving wheels used for moving the shell crushing vehicle are mounted at the bottom of the base, the first mounting plates are connected to two sides of the top of the base, the handrail frames are connected between the upper portions of the outer sides of the first mounting plates, the shell crushing vehicle further comprises a blanking frame, a material distribution frame, a material crushing frame, a material carrying assembly, a driving assembly, a transmission assembly and a material crushing assembly, the blanking frame is mounted between the upper portions of the two first mounting plates, the bottom of the blanking frame is connected with the material distribution frame, the two sides of the material distribution frame are respectively connected with the inner sides of the two first mounting plates, the bottom of the material distribution frame is connected with the material crushing frame, at least three blanking ports are uniformly spaced at intervals at the bottom of the material crushing frame, the two sides of the material crushing frame are respectively connected with the two first mounting plates, the material carrying assembly is arranged on the first mounting plates, the transmission assembly is used for driving the driving assembly and the material loading assembly to be connected in a transmission mode, a material crushing assembly is arranged between the middle portions of the two first mounting plates, and the material crushing assembly is in transmission fit with the transmission assembly.

Optionally, the material loading assembly comprises a first sliding frame, a first gear, a material loading frame and a first rack, sliding grooves are formed in the two first mounting plates, the two sliding grooves are connected with the first sliding frame in a sliding mode, a connecting shaft is connected between the two first sliding frames in a rotating mode, the two ends of the connecting shaft are connected with the first gear, the material loading frame is connected to the middle of the connecting shaft and located between the two first mounting plates, and the upper portion of the outer side of the two first mounting plates is connected with the first rack meshed with the first gear.

Optionally, the driving component comprises a fixed plate, a fixed shaft, a disc, a wedge block and an inner gear ring, the footboard, torque spring, first shelves pole, stir subassembly and non return subassembly, two first mounting panel lower parts all are connected with the fixed plate, fixedly connected with fixed axle between two fixed plates, the equal rotary type in fixed axle both ends is connected with the disc, two discs are located two fixed plate outsides respectively, the even interval connection in circumference all is followed in two disc outsides, the ring gear is all installed to two disc inboards, the rotary type is connected with the footboard between the fixed axle both sides, the footboard both sides are located two disc outsides respectively, all be connected with torque spring between footboard both sides and the fixed axle both ends, the footboard both sides all are equipped with stirs the subassembly, stir subassembly and wedge cooperation, base top both sides are connected with first shelves pole, be equipped with the non return subassembly on the first shelves pole.

Optionally, the shifting assembly comprises a second sliding frame, a sliding stop block and a buffer spring, the second sliding frame is installed on two sides of the pedal in an embedded mode, the sliding stop block used for clamping the wedge block is arranged in the second sliding frame in a sliding mode, and the buffer spring is connected between the sliding stop block and the second sliding frame.

Optionally, the check assembly includes a second lever and a return spring, the first lever is slidably provided with the second lever, the second lever contacts with the outer wall of the disc, and the return spring is connected between the second lever and the first lever.

Optionally, the transmission assembly comprises a second mounting plate, bearing seats, rotating shafts, driving sprockets, second gears, driven sprockets and chains, the second mounting plate is connected between the middle parts of the two first mounting plates, the bearing seats are connected on both sides of the bottom of the second mounting plate, the rotating shafts are rotatably connected between the two bearing seats, the driving sprockets are connected on both sides of the rotating shafts, the two driving sprockets are respectively located on the outer sides of the two bearing seats, the second gears are connected at both ends of the rotating shafts, the second gears are meshed with the inner gear ring, the two second gears are respectively located on the outer sides of the two driving sprockets, three driven sprockets are respectively mounted on the outer sides of the two first mounting plates, the three driven sprockets are arranged in a triangular shape, wherein the two driven sprockets are symmetrically arranged up and down and are located on the same vertical line, the other driven sprocket is arranged, the chain is connected with the first sliding frame.

Optionally, the crushed aggregates subassembly is including carriage, second rack, sector gear and crushing board, and the equal sliding type in second mounting panel bottom both sides is connected with the carriage, and two carriage outsides all are connected with two second racks, and two second racks set up for the longitudinal symmetry, and the tooth part of two second racks is relative, and the pivot both sides all are connected with sector gear, and sector gear and second rack meshing transmission are connected, are connected with the crushing board between two carriages, crushing board and crushed aggregates frame cooperation.

Optionally, the automatic material distribution device further comprises an intermittent blanking assembly, wherein the intermittent blanking assembly comprises a transmission shaft, partition plates, a cam plate, a pushing rod and an intermittent plate, the cam plate is connected to a driven sprocket in the middle, the pushing rod is connected to the cam plate, the transmission shaft is rotatably connected to the middle of the material distribution frame, six partition plates are uniformly connected to the transmission shaft at intervals along the circumferential direction, the partition plates are located in the material distribution frame, two ends of the transmission shaft penetrate through two mounting plates and are connected with one-way clutches, an outer sleeve ring of each one-way clutch is connected with the intermittent plate, and the intermittent plate is.

The beneficial effects are that: according to the invention, the conch is shoveled by the material carrying assembly, the driving assembly can be operated to operate after the conch is shoveled by the material carrying assembly, the conch in the material carrying assembly is conveyed into the blanking frame through the transmission assembly, manual carrying is not required during conch conveying, the technical problems to be solved in the patent are solved, when the conch is required to be crushed, the material crushing assembly is driven by the driving assembly to be matched with the material crushing frame to crush the conch, and the material required to be crushed can be subjected to batch blanking through the intermittent blanking assembly during crushing, so that the phenomenon that a large amount of labor is required to be consumed during operation of the driving assembly due to excessive one-time blanking can be avoided.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a partially enlarged view of the portion a of the present invention.

Fig. 4 is a partially enlarged view of the portion B of the present invention.

Fig. 5 is a partially enlarged view of the portion C of the present invention.

Fig. 6 is a partial first perspective view of the present invention.

Fig. 7 is a partial second perspective view of the present invention.

Fig. 8 is a first perspective view of a portion of the present invention.

Fig. 9 is a second perspective view of a portion of the present invention.

Fig. 10 is a schematic perspective view of the toggle assembly of the present invention.

Fig. 11 is a schematic perspective view of the check assembly of the present invention.

In the above drawings: 1 … base, 2 … moving wheel, 3 … first mounting plate, 4 … handrail frame, 5 … blanking frame, 6 … dividing frame, 61 … crushing frame, 7 … loading assembly, 71 … sliding slot, 72 … first sliding frame, 73 … first gear, 74 … loading frame, 75 … first rack, 8 … driving assembly, 80 … fixing plate, 81 … fixing shaft, 82 … disc, 83 … wedge block, 84 … inner gear ring, 85 … pedal, 86 … torsion spring, 87 … first gear rod, 88 … toggle assembly, 881 … second sliding frame, 882 … sliding block, 883 … buffer spring, 89 … assembly, 891 … second check gear rod, 892 … return spring, 369 … driving assembly, 91 … second mounting plate, … bearing seat, …, 3693, 94 … rotating shaft, 94 …, 3695 second check gear rack assembly, … driven … chain wheel assembly, … driven chain …, 103 … sector gear, 104 … crushing plate, 11 … intermittent blanking assembly, 111 … transmission shaft, 112 … partition, 113 … cam disc, 114 … push rod, 115 … intermittent disc.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

First embodiment

A shell crushing vehicle capable of being rapidly collected is shown in figures 1, 2, 6, 8 and 9 and comprises a base 1, a moving wheel 2, a first mounting plate 3 and a handrail frame 4, wherein the moving wheel 2 for moving the shell crushing vehicle is mounted at the bottom of the base 1, the moving wheel 2 is a universal rotating wheel and is provided with a pedal type brake component, the first mounting plate 3 is connected with two sides of the top of the base 1, the first mounting plates 3 at two sides are perpendicular to the base 1, the handrail frame 4 is connected between the upper parts of the outer sides of the first mounting plates 3, the shell crushing vehicle further comprises a blanking frame 5, a distribution frame 6, a crushing frame 61, a carrying component 7, a driving component 8, a transmission component 9 and a crushing component 10, the blanking frame 5 is mounted between the upper parts of the two first mounting plates 3, the bottom of the blanking frame 5 is connected with the distribution frame 6, the distribution frame 6 is cylindrical, two sides of the distribution frame 6 are respectively connected with the inner sides of the two first mounting plates, divide material frame 6 bottom to be connected with bits of broken glass frame 61, the even spaced apart has three blanking mouth in bits of broken glass frame 61 bottom, bits of broken glass frame 61 both sides are connected with two first mounting panels 3 respectively, bits of broken glass frame 61 and branch material frame 6 all are connected with first mounting panel 3 through welded connection's mode, be equipped with on first mounting panel 3 and carry material subassembly 7, be equipped with drive assembly 8 between first mounting panel 3 and the base 1, drive assembly 8 and carry and be equipped with drive assembly 9 between the material subassembly 7, drive assembly 9 is used for carrying out the transmission to drive assembly 8 and carry material subassembly 7 and is connected, be equipped with bits of broken glass subassembly 10 between 3 middle parts of two first mounting panels, bits of broken glass subassembly 10 and the cooperation of drive assembly 9 transmission.

When shells of conchs need to be crushed, the shells crushing vehicle can be used, a collecting frame is placed at the bottom of a crushed material frame 61, the shells crushing vehicle is pushed to move towards the position where the conchs are piled up, the conchs are shoveled up through a material carrying assembly 7, a driving assembly 8 can be operated to operate after the conchs are shoveled up through the material carrying assembly 7, the driving assembly 8 drives the material carrying assembly 7 to pour the conchs in the material carrying assembly 7 into a blanking frame 5 through a transmission assembly 9, the conchs in the blanking frame 5 fall into the crushed material frame 61 through a material distributing frame 6, when the conchs are conveyed into the blanking frame 5 through the material carrying assembly 7, the driving assembly 8 further drives a crushed material assembly 10 to operate through the transmission assembly 9 to cooperate with the crushed material frame 61 to crush the conchs in the crushed material frame 61, so that the shells of the conchs can be crushed, the crushed shells fall into the collecting frame through a material discharging opening on the crushed material frame 61, the operation of the drive assembly 8 is stopped.

As shown in fig. 2-4, the material loading assembly 7 includes first sliding frames 72, first gears 73, material loading frames 74 and first racks 75, sliding grooves 71 are formed in the two first mounting plates 3, the sliding grooves 71 are vertically arranged, the two sliding grooves 71 are connected with the first sliding frames 72 in a sliding manner, a connecting shaft is connected between the two first sliding frames 72 in a rotating manner, the connecting shaft is horizontally arranged, the two ends of the connecting shaft are connected with the first gears 73, the first gears 73 are located on the outer sides of the first mounting plates 3, the material loading frames 74 are connected to the middle portions of the connecting shaft, the material loading frames 74 are located between the two first mounting plates 3, and the upper portions of the outer sides of the two first mounting plates 3 are connected with the first racks 75 engaged with the first gears 73.

When the conch needs to be shoveled, the device is pushed to move on the conch stack, the conch is shoveled by the material loading frame 74, after the conch is shoveled by the material loading frame 74, the driving assembly 8 can be operated, the first sliding frames 72 on two sides are driven to move upwards by the transmission assembly 9, the first sliding frames 72 move upwards to drive the gears and the material loading frame 74 to move upwards, when the first sliding frames 72 drive the first gears 73 to move to be meshed with the first racks 75, the driving assembly 8 continues to drive the first sliding frames 72 to move upwards by the transmission assembly 9, at this time, the first gears 73 rotate through the first racks 75, the first gears 73 rotate to drive the material loading frame 74 to rotate through the connecting shafts, when the first gears 73 drive the material loading frame 74 to rotate to a certain angle, the conchs in the material loading frame 74 fall into all the material loading frame 5, so that the material loading can be carried out, and after the material loading is finished, the driving assembly 8 is closed, the carriage 74 is reset by gravity.

As shown in fig. 7, the driving assembly 8 includes a fixing plate 80, a fixing shaft 81, disks 82, wedges 83, an inner gear ring 84, pedals 85, a torsion spring 86, a first shift lever 87, a toggle assembly 88 and a check assembly 89, wherein the fixing plate 80 is connected to the lower portions of the two first mounting plates 3, the fixing plate 80 is connected to the first mounting plates 3 by welding, the fixing shaft 81 is fixedly connected between the two fixing plates 80, the disks 82 are rotatably connected to both ends of the fixing shaft 81, the two disks 82 are respectively located at the outer sides of the two fixing plates 80, the six wedges 83 are uniformly circumferentially spaced at the outer sides of the two disks 82, the inner gear ring 84 is mounted on the inner sides of the two disks 82, the gear ring 84 is connected to the disks 82 by bolts, the pedals 85 are rotatably connected between both sides of the fixing shaft 81, both sides of the pedals, all be connected with torsion spring 86 between footboard 85 both sides and the fixed axle 81 both ends, footboard 85 both sides all are equipped with stirs subassembly 88, stirs subassembly 88 and wedge 83 cooperation, and base 1 top both sides are connected with first shelves pole 87, are equipped with non return subassembly 89 on the first shelves pole 87, and non return subassembly 89 and wedge 83 cooperation.

When the driving component 8 needs to be operated to operate, the pedal 85 is stepped downwards, the pedal 85 moves downwards once to push the wedge-shaped block 83 to move downwards one grid through the toggle component 88, so as to drive the disc 82 to rotate one sixth of a circle, the torsion spring 86 is compressed, the disc 82 can prevent the gravity of the material loading frame 74 from driving the disc 82 to reset through the transmission component 9 through the check component 89 when rotating, the disc 82 drives the inner gear ring 84 to rotate when rotating, the inner gear ring 84 can drive the material loading component 7 and the crushed material component 10 to operate through the transmission component 9 when rotating, the disc 82 can be driven to completely rotate one circle after the pedal 85 is stepped for six times, the conch in the material loading component 7 is just poured into the blanking frame 5, after the conch falls into the blanking frame 5, the pedal 85 is released, the toggle component 88 and the check component 89 are pulled to not clamp the wedge-shaped block 83 any more, and the wedge-shaped block 83 can reset under the action of the gravity after being clamped, when the material loading frame 74 is reset, the disc 82 is also driven to reset through the transmission assembly 9, and then the collection and crushing of the conch can be carried out again.

As shown in fig. 10, the toggle assembly 88 includes a second sliding frame 881, a sliding stopper 882 and a buffer spring 883, the second sliding frame 881 is installed on both sides of the pedal 85 in an embedded manner, the second sliding frame 881 is connected with the pedal 85 by welding, the sliding stopper 882 for locking the wedge 83 is slidably arranged in the second sliding frame 881, and the buffer spring 883 is connected between the sliding stopper 882 and the second sliding frame 881.

When stepping on footboard 85 and moving down, footboard 85 moves down and promotes wedge 83 through slip stopper 882 and rotate, so, just can reach and drive disc 82 pivoted effect, when disc 82 need reset, the outside slip of pulling slip stopper 882, and buffer spring 883 is stretched, and at this moment slip stopper 882 just no longer blocks disc 82, and after disc 82 resets, it can to loosen slip stopper 882.

As shown in fig. 11, the non-return assembly 89 includes a second shift lever 891 and a return spring 892, the first shift lever 87 has a groove, the second shift lever 891 is slidably disposed in the groove, the second shift lever 891 contacts with the outer wall of the disc 82, and the return spring 892 is connected between the second shift lever 891 and the first shift lever 87.

After the disk 82 rotates, the second shift lever 891 blocks the wedge block 83, so that the disk 82 can be prevented from resetting, and when the disk 82 needs to reset, the second shift lever 891 is pulled to stop the wedge block 83.

As shown in fig. 4, 6 and 7, the transmission assembly 9 includes a second mounting plate 91, bearing seats 92, a rotating shaft 93, a driving sprocket 94, a second gear 95, a driven sprocket 96 and a chain 97, the second mounting plate 91 is connected between the middle portions of the two first mounting plates 3, the second mounting plate 91 is connected with the first mounting plates 3 by bolts, the bearing seats 92 are connected with both sides of the bottom of the second mounting plate 91, the rotating shaft 93 is rotatably connected between the two bearing seats 92, the driving sprocket 94 is connected with both sides of the rotating shaft 93, the two driving sprockets 94 are respectively located outside the two bearing seats 92, the second gear 95 is connected with both ends of the rotating shaft 93, the second gear 95 and the driving sprocket 94 are connected with the rotating shaft 93 by interference connection, the second gear 95 is engaged with the inner gear ring 84, the two second gears 95 are respectively located outside the two driving sprockets 94, three driven sprockets 96 are mounted outside the two first mounting plates 3, three driven sprocket 96 is triangle-shaped and arranges, and wherein two driven sprocket 96 longitudinal symmetry set up, and lie in same vertical line, and another driven sprocket 96 sets up the middle part at first mounting panel 3, is connected with chain 97 between drive sprocket 94 and the driven sprocket 96, and chain 97 is connected with first sliding frame 72.

The inner gear ring 84 drives the second gear 95 to rotate when rotating, the second gear 95 rotates to drive the driving sprocket 94 to rotate through the rotating shaft 93, the rotating shaft 93 can drive the crushed material assembly 10 to operate and cooperate with the crushed material frame 61 to crush the conch when rotating, the driving sprocket 94 rotates to drive the three driven sprockets 96 to rotate through the chain 97, and the chain 97 can drive the material loading assembly 7 to guide materials when rotating.

As shown in fig. 6 and 9, the crushing assembly 10 includes a sliding frame 101, second racks 102, sector gears 103 and crushing plates 104, the sliding frame 101 is connected to both sides of the bottom of the second mounting plate 91 in a sliding manner, the two second racks 102 are connected to the outer sides of the two sliding frames 101, the two second racks 102 are arranged in an up-down symmetrical manner, the two second racks 102 are opposite in toothed portion, the sector gears 103 are connected to both sides of the rotating shaft 93, the sector gears 103 are in meshing transmission connection with the second racks 102, the crushing plates 104 are connected between the two sliding frames 101, bumps are arranged on the end faces of the crushing plates 104 at uniform intervals, and the crushing plates 104 are matched with the crushing frames 61.

The pivot 93 drives the sector gear 103 to rotate when rotating, when sector gear 103 rotates to the second rack 102 with the below and meshes, second rack 102 of sector gear 103 drive below removes towards crushed aggregates frame 61 direction, below second rack 102 drives crushing board 104 through carriage 101 when removing and removes, crushing board 104 removes and can carry out the breakage to conch with crushed aggregates frame 61 cooperation, when sector gear 103 rotates to the second rack 102 with the top and meshes, second rack 102 of sector gear 103 drive top removes towards the direction of keeping away from crushed aggregates frame 61, top second rack 102 drives crushing board 104 through carriage 101 when removing and removes and keep away from crushed aggregates frame 61, so relapse, can carry out crushing treatment to the conch in crushed aggregates frame 61.

Second embodiment

On the basis of the second embodiment, as shown in fig. 5 and 8, the intermittent blanking device 11 is further included, the intermittent blanking device 11 includes a transmission shaft 111, a partition plate 112, a cam plate 113, a push rod 114 and an intermittent plate 115, the driven sprocket 96 at the middle is connected with the cam plate 113, the cam plate 113 is connected with the driven sprocket 96 through a bolt connection mode, the push rod 114 is connected with the cam plate 113, the transmission shaft 111 is rotatably connected with the middle of the material distribution frame 6, six partition plates 112 are uniformly connected with the transmission shaft 111 along the circumferential direction at intervals, the partition plates 112 are located in the material distribution frame 6, two ends of the transmission shaft 111 penetrate through two mounting plates to be connected with a one-way clutch, an outer ring of the one-way clutch is connected with the intermittent plate 115, and the intermittent plate 115 is in transmission.

The conchs in the blanking frame 5 fall into the material distribution frame 6 and are blocked by the partition plates 112, wherein one part of the conchs are positioned between the two partition plates 112 at the upper part, when the driving assembly 8 drives the driven chain wheel 96 at the middle part to rotate, the driven chain wheel 96 in the middle part drives the cam disc 113 to rotate, the cam disc 113 rotates to drive the intermittent disc 115 to rotate through the push rod 114, the pedal 85 is stepped to drive the cam disc 113 to rotate for one circle through the transmission component 9 once, the cam disc 113 rotates for one circle through the push rod 114 to drive the intermittent disc 115 to rotate for one sixth, the intermittent disc 115 rotates for one sixth to drive the transmission shaft 111 to rotate for one sixth until the conch falls into the material crushing frame 61, the process is repeated in this way, the conch is separately blanked, the situation that a large amount of strength is consumed during crushing due to excessive blanking at one time is avoided, when the carrier frame 74 is returned downward to rotate the driven sprocket 96 in the reverse direction, the drive shaft 111 does not rotate under the action of the one-way clutch.

The above-mentioned embodiments are merely preferred embodiments of the present invention, which are not intended to limit the scope of the present invention, and therefore, all equivalent changes made by the contents of the claims of the present invention should be included in the claims of the present invention.

Claims

1. The utility model provides a but broken shell car of conch of quick collection, is including base (1), removal wheel (2), first mounting panel (3) and handrail frame (4), and removal wheel (2) that are used for this broken shell car to remove are installed to base (1) bottom, and base (1) top both sides all are connected with first mounting panel (3), are connected with handrail frame (4), characterized by between first mounting panel (3) outside upper portion: the material distribution device is characterized by further comprising a blanking frame (5), a material distribution frame (6), a material crushing frame (61), a material carrying assembly (7), a driving assembly (8), a transmission assembly (9) and a material crushing assembly (10), wherein the blanking frame (5) is installed between the upper portions of the two first mounting plates (3), the bottom of the blanking frame (5) is connected with the material distribution frame (6), two sides of the material distribution frame (6) are respectively connected with the inner sides of the two first mounting plates (3), the bottom of the material distribution frame (6) is connected with the material crushing frame (61), at least three blanking ports are uniformly arranged at the bottom of the material crushing frame (61) at intervals, two sides of the material crushing frame (61) are respectively connected with the two first mounting plates (3), the material carrying assembly (7) is arranged on the first mounting plates (3), the driving assembly (8) is arranged between the first mounting plates (3) and the base (1), the transmission assembly (9) is arranged between the driving assembly (8, the transmission assembly (9) is used for transmitting and connecting the driving assembly (8) and the loading assembly (7), a crushing assembly (10) is arranged between the middle parts of the two first mounting plates (3), and the crushing assembly (10) is in transmission fit with the transmission assembly (9).

2. The marine snail shell breaking vehicle capable of being rapidly collected as claimed in claim 1, wherein: carry material subassembly (7) including first smooth frame (72), first gear (73), carry material frame (74) and first rack (75), spout (71) have all been opened on two first mounting panels (3), equal sliding connection has first smooth frame (72) on two spout (71), the rotary type is connected with the connecting axle between two first smooth frames (72), the connecting axle both ends all are connected with first gear (73), the connecting axle middle part is connected with and is carried material frame (74), it is located between two first mounting panels (3) to carry material frame (74), two first mounting panels (3) outside upper portion all are connected with first rack (75) with first gear (73) meshing.

3. The marine snail shell breaking vehicle capable of being rapidly collected as claimed in claim 2, wherein: the driving assembly (8) comprises fixing plates (80), fixing shafts (81), discs (82), wedge blocks (83), inner gear rings (84), pedals (85), a torsion spring (86), first gear rods (87), a shifting assembly (88) and a non-return assembly (89), the lower parts of the two first mounting plates (3) are respectively connected with the fixing plates (80), the fixing shafts (81) are fixedly connected between the two fixing plates (80), the discs (82) are rotatably connected at the two ends of the fixing shafts (81), the two discs (82) are respectively positioned at the outer sides of the two fixing plates (80), the outer sides of the two discs (82) are respectively and uniformly connected with the six wedge blocks (83) at intervals along the circumferential direction, the inner gear rings (84) are respectively installed at the inner sides of the two discs (82), the pedals (85) are rotatably connected between the two sides of the fixing shafts (81), and the, all be connected with torsion spring (86) between footboard (85) both sides and fixed axle (81) both ends, footboard (85) both sides all are equipped with stir subassembly (88), stir subassembly (88) and wedge (83) cooperation, and base (1) top both sides are connected with first shelves pole (87), are equipped with non return subassembly (89) on first shelves pole (87), and non return subassembly (89) and wedge (83) cooperation.

4. A rapidly collectable conch shell-crushing vehicle as claimed in claim 3, wherein: toggle subassembly (88) including second sliding frame (881), slip dog (882) and buffer spring (883), footboard (85) both sides all embedded installation have second sliding frame (881), and second sliding frame (881) slidingtype is equipped with slip dog (882) that are used for blocking wedge (83), is connected with buffer spring (883) between slip dog (882) and second sliding frame (881).

5. The marine snail shell breaking vehicle capable of being rapidly collected as claimed in claim 4, wherein: the non-return assembly (89) comprises a second gear rod (891) and a return spring (892), the second gear rod (891) is arranged on the first gear rod (87) in a sliding mode, the second gear rod (891) is in contact with the outer wall of the disc (82), and the return spring (892) is connected between the second gear rod (891) and the first gear rod (87).

6. The marine snail shell breaking vehicle capable of being rapidly collected according to claim 5, wherein: the transmission assembly (9) comprises a second mounting plate (91), bearing seats (92), a rotating shaft (93), a driving sprocket (94), a second gear (95), driven sprockets (96) and a chain (97), the second mounting plate (91) is connected between the middle parts of the two first mounting plates (3), the bearing seats (92) are connected to two sides of the bottom of the second mounting plate (91), the rotating shaft (93) is rotatably connected between the two bearing seats (92), the driving sprocket (94) is connected to two sides of the rotating shaft (93), the two driving sprockets (94) are respectively located on the outer sides of the two bearing seats (92), the second gear (95) is connected to two ends of the rotating shaft (93), the second gear (95) is meshed with the inner gear ring (84), the two second gears (95) are respectively located on the outer sides of the two driving sprockets (94), the three driven sprockets (96) are respectively installed on the outer sides of the, three driven sprocket (96) are triangle-shaped and arrange, and wherein two driven sprocket (96) longitudinal symmetry set up, and are located same vertical line, and another driven sprocket (96) set up the middle part at first mounting panel (3), are connected with chain (97) between drive sprocket (94) and driven sprocket (96), and chain (97) are connected with first smooth frame (72).

7. The marine snail shell breaking vehicle capable of being rapidly collected as claimed in claim 6, wherein: crushed aggregates subassembly (10) is including carriage (101), second rack (102), sector gear (103) and crushing plate (104), second mounting panel (91) bottom both sides all sliding type is connected with carriage (101), two carriage (101) outsides all are connected with two second rack (102), two second rack (102) set up for longitudinal symmetry, the tooth portion that takes of two second rack (102) is relative, pivot (93) both sides all are connected with sector gear (103), sector gear (103) are connected with second rack (102) meshing transmission, be connected with crushing plate (104) between two carriage (101), crushing plate (104) and crushed aggregates frame (61) cooperation.

8. The hull crushing vehicle for the marine snails capable of being rapidly collected according to claim 7, wherein: the intermittent blanking device is characterized by further comprising an intermittent blanking assembly (11), wherein the intermittent blanking assembly (11) comprises a transmission shaft (111), partition plates (112), a cam disc (113), a push rod (114) and an intermittent disc (115), the cam disc (113) is connected to a driven sprocket (96) in the middle of the intermittent blanking assembly, the push rod (114) is connected to the cam disc (113), the transmission shaft (111) is rotatably connected to the middle of the material distribution frame (6), six partition plates (112) are uniformly connected to the transmission shaft (111) at intervals along the circumferential direction, the partition plates (112) are located in the material distribution frame (6), two ends of the transmission shaft (111) penetrate through two mounting plates to be connected with one-way clutches, the intermittent disc (115) is connected to outer collars of the one-way clutches, and the intermittent disc (115).