CN113475414B - Automatic filling feeding device for biological cultivation - Google Patents

Abstract

The invention relates to a feeding device, in particular to an automatic filling feeding device for biological cultivation. The automatic filling feeding device for biological cultivation is convenient for people to feed livestock, has high working efficiency, does not waste manpower and is not easy to adhere to dust or sundries. An automatic filling feeding device for biological cultivation, comprising: the support shell is hinged with a sealing barrel cover; the switch handle is arranged on the sealing barrel cover. According to the invention, a proper amount of feed is poured into the separating inner cylinder, the separating inner cylinder drives the fixing frame to move downwards due to the action of gravity, so that the fixing clamping block moves inwards to limit the positioning block, meanwhile, the constant-speed motor is started, the stirring fan blade rotates, so that the feed flows into the collecting container through the blanking pipe, and livestock can eat the feed, and therefore, people can conveniently feed the livestock, and the working efficiency is high.

Description

Automatic filling feeding device for biological cultivation

Technical Field

The invention relates to a feeding device, in particular to an automatic filling feeding device for biological cultivation.

Background

When people cultivate livestock, the livestock are fed. At present, most of the livestock are fed manually, firstly, people pour a proper amount of feed into a feeding container, then the livestock eat the feed, so that the operation is troublesome, the working efficiency is low, the degree of automation is low, a large amount of manpower is wasted, and dust or sundries are easy to adhere to the fed feed, so that the livestock eat is influenced.

Therefore, the automatic filling feeding device for biological cultivation is convenient for people to feed livestock, has high working efficiency, does not waste manpower and is not easy to adhere to dust or sundries, so as to solve the problems in the prior art.

Disclosure of Invention

In order to overcome and pour into the container and then feed, the troublesome poeration, work efficiency is low, and has wasted a large amount of manpowers, and feeds the easy attached dust of fodder or debris, influences the shortcoming that livestock eat, technical problem is: the automatic filling feeding device for the biological cultivation is convenient for people to feed livestock, has high working efficiency, does not waste manpower, and is not easy to adhere to dust or sundries.

The technical scheme of the invention is as follows: an automatic filling feeding device for biological cultivation, comprising: the support shell is hinged with a sealing barrel cover; the switch handle is arranged on the sealing barrel cover; the stirring mechanism is arranged on the supporting shell and used for stirring the feed; and the driving mechanism is arranged between the stirring mechanism and the supporting shell and is used for providing power.

Further, the rabbling mechanism includes: a separation inner cylinder slidably mounted on the support housing; the fixing frame is arranged on the separation inner cylinder; the rotating shaft is rotatably arranged on the fixing frame; the stirring fan blade is arranged on the rotating shaft; the positioning block is rotatably arranged on the separation inner cylinder and is fixedly connected with the rotating shaft; and the discharging pipe is arranged on the supporting shell and is communicated with the separating inner cylinder.

Further, the driving mechanism comprises: the number of the fixing columns is four, and the fixing columns are arranged on the supporting shell at intervals; the fixed speed motor is arranged among the four fixed columns; the driving shaft is arranged on the output shaft of the constant speed motor; the cross fixing plate is slidably arranged on the driving shaft; a return spring which is wound between the driving shaft and the cross fixing plate; the L-shaped connecting rod is symmetrically hinged on the cross fixing plate; the fixed fixture block is arranged on the L-shaped connecting rod.

Further, still including dustproof mechanism, dustproof mechanism is including: the storage box is arranged on the support shell and is communicated with the blanking pipe; the fixed shaft is symmetrically and rotatably arranged on the storage box; a stress pedal is arranged between the two fixed shafts; the transmission connecting plate is symmetrically and rotatably arranged on the stress pedal; the dustproof cover is hinged on the storage box, and the transmission connecting plate is rotationally connected with the dustproof cover; the stress springs are symmetrically arranged between the storage box and the dust cover.

Further, still including quantitative unloading mechanism, quantitative unloading mechanism is including: the driving gear is arranged on the rotating shaft; the fixed short column is rotatably arranged on the support shell; the driven gear is arranged on the fixed short column and meshed with the driving gear; the fixed tooth block is rotatably arranged on the support shell and meshed with the driven gear; the blanking impeller is arranged on the fixed tooth block; and the baffle plate is arranged on the rotating shaft.

Further, still include locking mechanical system, locking mechanical system includes: the fixed rod is symmetrically and rotatably arranged on the support shell; a locking handle mounted on the fixing rod; the torsion spring is arranged between the support shell and the locking handle symmetrically, and is sleeved on the fixed rod.

Further, still including screening mechanism, screening mechanism is including: the screening turntable is arranged on the rotating shaft; a screening box which is arranged on the supporting shell; the discharging pipe is arranged on the screening box and penetrates through the supporting shell to be communicated with the separating inner cylinder.

Further, the locking handle is made of rubber.

The beneficial effects are as follows:

1. through pouring proper amount of fodder into separation inner tube, because of the effect of gravity, the separation inner tube drives the mount and moves down, and then makes fixed fixture block inwards remove spacing to the locating piece, simultaneously, starts the constant speed motor, and stirring flabellum just also rotates and makes the fodder flow into through the unloading pipe and collect in the container, and then the livestock can eat, so, can make things convenient for people to feed to the livestock, work efficiency is high.

2. Through the effect of dustproof mechanism, can avoid dust or debris to get into in the fodder, so, can avoid getting into foreign object or dust in the fodder, influence the feeding.

3. Through screening mechanism's effect, can carry out spacingly to the interior macroparticles of fodder, and then fall into the sieve workbin through the discharging pipe, so, can screen too big fodder.

Drawings

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

Fig. 2 is a schematic view of a first partial structure of the present invention.

FIG. 3 is an enlarged schematic view of part A of the present invention.

Fig. 4 is a schematic view of a second partial structure of the present invention.

Fig. 5 is a schematic view of a third partial structure of the present invention.

Part names and serial numbers in the figure: the device comprises a 1-supporting shell, a 2-sealing barrel cover, a 3-switch handle, a 4-stirring mechanism, a 41-separating inner barrel, a 42-rotating shaft, a 43-stirring fan blade, a 44-fixing frame, a 45-positioning block, a 46-blanking pipe, a 5-driving mechanism, a 51-fixed speed motor, a 52-fixing column, a 53-driving shaft, a 54-cross fixing plate, a 55-return spring, a 56-L-shaped connecting rod, a 57-fixing clamping block, a 6-dustproof mechanism, a 61-storage box, a 62-stressed pedal, a 63-fixing shaft, a 64-driving connecting plate, a 65-dustproof cover, a 66-stressed spring, a 7-quantitative blanking mechanism, a 71-driving gear, a 72-driven gear, a 73-fixing short column, a 74-fixing tooth block, a 75-blanking impeller, a 76-blocking plate, a 8-locking mechanism, a 81-locking handle, a 82-fixing rod, a 83-torsion spring, a 9-screening mechanism, a 91-screening turntable, a 92-discharging pipe and a 93-screening box.

Detailed Description

The following describes in detail the preferred embodiments of the present invention with reference to the accompanying drawings.

Example 1

The utility model provides an automatic packing feeding device for biological cultivation, as shown in fig. 1-3, including support shell 1, sealed bung 2, switch handle 3, rabbling mechanism 4 and actuating mechanism 5, support shell 1 upper portion left side articulated formula is equipped with sealed bung 2, and the rigid coupling has switch handle 3 in the middle of the sealed bung 2 left surface, is equipped with rabbling mechanism 4 on the support shell 1, is equipped with actuating mechanism 5 between rabbling mechanism 4 and the support shell 1.

The stirring mechanism 4 comprises a separation inner cylinder 41, a rotating shaft 42, stirring blades 43, a fixing frame 44, a positioning block 45 and a blanking pipe 46, wherein the separation inner cylinder 41 is arranged in the supporting shell 1, the fixing frame 44 is fixedly connected to the upper portion of the inner side surface of the separation inner cylinder 41, the rotating shaft 42 is rotatably arranged in the middle of the fixing frame 44, the stirring blades 43 are fixedly connected to the rotating shaft 42 in the circumferential direction, the positioning block 45 is rotatably arranged at the center of the bottom of the separation inner cylinder 41, the top of the positioning block 45 is fixedly connected with the bottom of the rotating shaft 42, the blanking pipe 46 is arranged at the lower side of the right side of the supporting shell 1, and the blanking pipe 46 is communicated with the separation inner cylinder 41.

The driving mechanism 5 comprises a fixed speed motor 51, fixed columns 52, a driving shaft 53, a cross fixing plate 54, a return spring 55, an L-shaped connecting rod 56 and a fixed clamping block 57, wherein four fixed columns 52 are fixedly connected to the outer bottom of the supporting shell 1 at intervals, the fixed speed motor 51 is arranged between the four fixed columns 52, the driving shaft 53 is connected to an output shaft of the fixed speed motor 51, the cross fixing plate 54 is slidably arranged in the driving shaft 53, the positioning block 45 is sleeved on the cross fixing plate 54 and matched with the cross fixing plate, the return spring 55 is wound between the inside of the driving shaft 53 and the lower portion of the cross fixing plate 54, the L-shaped connecting rod 56 is symmetrically hinged to the upper portion of the cross fixing plate 54 in a hinged mode, the fixed clamping block 57 is fixedly connected to the upper portion of the L-shaped connecting rod 56, and the fixed clamping block 57 is matched with the positioning block 45.

Firstly, a collecting container is placed under a blanking pipe 46, then a proper amount of feed is poured into a separating inner barrel 41, a sealing barrel cover 2 is closed through a switch handle 3, the separating inner barrel 41 drives a fixing frame 44 to move downwards due to the action of gravity, the fixing frame 44 moves downwards to drive a rotating shaft 42 to move downwards, the rotating shaft 42 moves downwards to drive a positioning block 45 to move downwards, the positioning block 45 moves downwards to enable a cross fixing plate 54 to move downwards, a reset spring 55 plays a buffering role, the cross fixing plate 54 moves downwards to drive an L-shaped connecting rod 56 to swing inwards, the L-shaped connecting rod 56 swings inwards to drive a fixing clamping block 57 to move inwards, the fixing clamping block 57 moves inwards to limit the positioning block 45, meanwhile, a fixed speed motor 51 is started to drive a driving shaft 53 to rotate, the driving shaft 53 rotates to drive the cross fixing plate 54, the cross fixing plate 54 rotates to drive the L-shaped connecting rod 56, the L-shaped connecting rod 56 rotates to drive the fixing clamping block 57 to rotate, the positioning block 45 rotates to drive the positioning block 45, the positioning block 45 rotates, the stirring fan blade 43 rotates to drive the rotating shaft 43, the stirring fan blade 43 rotates to enable the feed to flow into the collecting container through the blanking pipe 46, and then the stirring fan blade 54 stops rotating after the cross fixing plate 53 rotates, and the stirring fan blade 53 stops rotating to finish feeding by turning.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 4 and 5, the dustproof mechanism 6 further comprises a dustproof mechanism 6, the dustproof mechanism 6 comprises a storage box 61, a stress pedal 62, a fixed shaft 63, a transmission connecting plate 64, a dustproof cover 65 and a stress spring 66, the storage box 61 is fixedly connected to the right side of the lower portion of the support shell 1, the storage box 61 is communicated with the blanking pipe 46, the fixed shaft 63 is rotatably arranged at the right parts of the front side and the rear side of the storage box 61, the stress pedal 62 is fixedly connected between the fixed shafts 63 at the front side and the rear side, the transmission connecting plate 64 is rotatably arranged at the front side and the rear side of the left side of the stress pedal 62, the dustproof cover 65 is hinged to the left side of the upper portion of the storage box 61, and the dustproof cover 65 is rotatably connected to the upper portion of the transmission connecting plate 64, and the stress spring 66 is fixedly connected between the front side and the rear side of the outer side of the storage box 61 and the middle of the dustproof cover 65.

The quantitative blanking mechanism 7 comprises a driving gear 71, a driven gear 72, a fixed short column 73, a fixed tooth block 74, a blanking impeller 75 and a striker plate 76, wherein the driving gear 71 is fixedly connected to the lower portion of the rotating shaft 42 in the circumferential direction, the fixed short column 73 is rotatably arranged on the right side of the inner bottom of the supporting shell 1, the driven gear 72 is fixedly connected to the fixed short column 73 in the circumferential direction, the driven gear 72 is meshed with the driving gear 71, the fixed tooth block 74 is rotatably arranged on the lower portion of the inner bottom of the supporting shell 1, the fixed tooth block 74 is meshed with the driven gear 72, the blanking impeller 75 is fixedly connected to the top of the fixed tooth block 74, and the striker plate 76 is fixedly connected to the lower portion of the rotating shaft 42 in the circumferential direction.

When the fixed speed motor 51 is started, the stirring fan blades 43 rotate to enable feed to flow into the storage box 61 through the blanking pipe 46, when livestock walks onto the stress pedal 62, the right part of the stress pedal 62 swings downwards due to the action of gravity, the right part of the stress pedal 62 swings downwards to enable the left part to swing upwards, the left part of the stress pedal 62 swings upwards to drive the dust cover 65 to swing upwards through the transmission connecting plate 64, the stress spring 66 is stretched, and then the livestock can feed in the storage box 61, when the livestock is separated from the stress pedal 62, the dust cover 65 swings downwards to reset due to the action of the stress spring 66, and the stress pedal 62 swings to reset, so that foreign impurities or dust entering the feed can be avoided, and feeding is influenced.

When people pour proper amount of feed into the separation inner cylinder 41, the feed contacts with the baffle plate 76, the rotation shaft 42 rotates to drive the baffle plate 76 to rotate, the proper amount of feed falls into the blanking impeller 75, meanwhile, the rotation shaft 42 rotates to drive the driving gear 71 to rotate, the driving gear 71 rotates to drive the driven gear 72 to rotate, the driven gear 72 rotates to drive the fixed gear block 74 to rotate, the fixed gear block 74 rotates to drive the blanking impeller 75 to rotate, the blanking impeller 75 rotates to enable the feed to flow into the storage box 61 through the blanking pipe 46, after feeding of all livestock is completed, the rotation shaft 42 stops driving the baffle plate to rotate, the driving gear 71 stops driving the driven gear 72 to rotate, and the blanking impeller 75 stops rotating. In this way, feed is prevented from getting stuck in the feed off pipe 46.

Example 3

On the basis of the embodiment 1 and the embodiment 2, as shown in fig. 1, 2 and 5, the device further comprises a locking mechanism 8, the locking mechanism 8 comprises a locking handle 81, a fixing rod 82 and a torsion spring 83, the fixing rod 82 is rotatably arranged on the front side and the rear side of the upper portion of the supporting shell 1, the locking handle 81 is fixedly connected in the middle of the fixing rod 82 in the circumferential direction, the torsion spring 83 is fixedly connected between the inner side face of the supporting shell 1 and the outer side face of the locking handle 81 in the bilateral symmetry mode, and the torsion spring 83 is sleeved on the fixing rod 82.

The screening mechanism 9 comprises a screening rotary table 91, a discharging pipe 92 and a screening box 93, wherein the screening rotary table 91 is fixedly connected to the lower portion of the rotary shaft 42 in the circumferential direction, the screening box 93 is arranged on the lower portion of the outer rear side surface of the supporting shell 1, the discharging pipe 92 is fixedly connected to the screening box 93 and communicated, and the discharging pipe 92 penetrates through the supporting shell 1 and is communicated with the separating inner cylinder 41.

When a proper amount of feed is poured into the separation inner cylinder 41, the inner separation inner cylinder 41 is always clamped and limited by the locking handle 81 under the action of the torsion spring 83, so that the separation inner cylinder 41 can be prevented from shaking.

When a proper amount of feed falls into the blanking impeller 75, the screening turntable 91 limits large particles in the feed, and then falls into the screening box 93 through the discharging pipe 92, so that the oversized feed can be screened.

The foregoing has outlined rather broadly the more detailed description of the present application, wherein specific examples have been provided to illustrate the principles and embodiments of the present application, the description of the examples being provided solely to assist in the understanding of the method of the present application and the core concepts thereof; meanwhile, as those skilled in the art will have modifications in the specific embodiments and application scope in accordance with the ideas of the present application, the present description should not be construed as limiting the present application in view of the above.

Claims (4)

1. An automatic filler feeding device for biological cultivation, which is characterized by comprising:

the support shell (1), the sealing barrel cover (2) is hinged on the support shell (1);

a switch handle (3), wherein the switch handle (3) is arranged on the sealing barrel cover (2);

the stirring mechanism (4) is arranged on the supporting shell (1) and is used for stirring the feed;

the driving mechanism (5) is arranged between the stirring mechanism (4) and the supporting shell (1) and is used for providing power; the stirring mechanism (4) comprises:

a separation inner cylinder (41), wherein the separation inner cylinder (41) is slidably arranged on the support shell (1);

a fixing frame (44), wherein the fixing frame (44) is arranged on the separation inner cylinder (41);

a rotating shaft (42), the rotating shaft (42) is rotatably mounted on the fixing frame (44);

a stirring blade (43), wherein the stirring blade (43) is mounted on the rotating shaft (42);

the positioning block (45), the positioning block (45) is rotatably arranged on the separation inner cylinder (41), and is fixedly connected with the rotating shaft (42);

a blanking pipe (46), wherein the blanking pipe (46) is arranged on the supporting shell (1), and the blanking pipe (46) is communicated with the separating inner cylinder (41);

the driving mechanism (5) comprises:

the number of the fixing columns (52) is four, and the fixing columns (52) are arranged on the supporting shell (1) at intervals;

the fixed speed motor (51), the fixed speed motor (51) is installed among four fixed columns (52);

a drive shaft (53), the drive shaft (53) being mounted on the output shaft of the constant speed motor (51);

a cross fixing plate (54), the cross fixing plate (54) being slidably mounted on the driving shaft (53);

a return spring (55), wherein the return spring (55) is wound between the driving shaft (53) and the cross fixing plate (54);

the L-shaped connecting rod (56), the L-shaped connecting rod (56) is symmetrically hinged on the cross fixing plate (54);

a fixed clamping block (57), wherein the fixed clamping block (57) is arranged on the L-shaped connecting rod (56);

the quantitative blanking device also comprises a quantitative blanking mechanism (7), wherein the quantitative blanking mechanism (7) comprises:

a drive gear (71), the drive gear (71) being mounted on the rotation shaft (42);

the fixed short column (73), the fixed short column (73) is rotatably installed on the support shell (1);

a driven gear (72), the driven gear (72) being mounted on a fixed stub (73) which meshes with the drive gear (71);

a fixed tooth block (74), wherein the fixed tooth block (74) is rotatably arranged on the support shell (1) and meshed with the driven gear (72);

a blanking impeller (75), wherein the blanking impeller (75) is arranged on the fixed tooth block (74);

a striker plate (76), the striker plate (76) being mounted on the rotating shaft (42);

still including screening mechanism (9), screening mechanism (9) are including:

a screening turntable (91), the screening turntable (91) being mounted on the rotating shaft (42);

a screening box (93), wherein the screening box (93) is arranged on the supporting shell (1);

the discharging pipe (92) is arranged on the screening box (93), and the discharging pipe (92) penetrates through the supporting shell (1) to be communicated with the separating inner cylinder (41).

2. An automatic filler feeding device for biological cultivation according to claim 1, further comprising a dust-proof mechanism (6), wherein the dust-proof mechanism (6) comprises:

the storage box (61) is arranged on the supporting shell (1), and the storage box (61) is communicated with the blanking pipe (46);

the fixed shaft (63), the fixed shaft (63) is symmetrically and rotatably arranged on the storage box (61);

a force-bearing pedal (62), wherein the force-bearing pedal (62) is arranged between the two fixed shafts (63);

the transmission connecting plate (64), the transmission connecting plate (64) is symmetrically and rotatably arranged on the stress pedal (62);

the dustproof cover (65), the dustproof cover (65) is hinged on the storage box (61), and the transmission connecting plate (64) is rotationally connected with the dustproof cover (65);

the stress spring (66) is arranged between the storage box (61) and the dust cover (65) symmetrically.

3. An automatic stuffing feeding device for biological cultivation according to claim 2, further comprising a locking mechanism (8), wherein the locking mechanism (8) comprises:

the fixing rod (82), the fixing rod (82) is symmetrically and rotatably arranged on the supporting shell (1);

a locking handle (81), wherein the locking handle (81) is installed on the fixed rod (82);

the torsion spring (83), the torsion spring (83) is installed between the support shell (1) and the locking handle (81) symmetrically, and the torsion spring (83) is sleeved on the fixed rod (82).

4. An automatic filling feeding device for biological cultivation according to claim 3, wherein the locking handle (81) is made of rubber.

Images