CN112475329A - Drum beehive chamfering equipment for animal husbandry - Google Patents

Abstract

The invention relates to chamfering equipment, in particular to cylindrical beehive chamfering equipment for animal husbandry. The invention provides the chamfering equipment for the beehive for the animal husbandry, which can complete the chamfering work of the beehive in the barrel without great labor consumption of workers, can ensure the same chamfering force every time, and can fix the beehive in the barrel so as to accelerate the chamfering efficiency. The utility model provides a cask beehive chamfer equipment for animal husbandry, including: bottom plate and cutting mechanism, the bottom plate top is equipped with cutting mechanism. The cutting mechanism is arranged, and the cutting mechanism is matched with the clamping and positioning mechanism, so that the chamfering and clamping and positioning work of the cylindrical beehive can be realized; by arranging the pressing mechanism, a worker does not need to manually press the rotating block downwards, and the chamfering efficiency of the drum beehive is further improved; go up unloading mechanism and pushing equipment cooperation, can realize automatic interval and push away the work of cask beehive to the assigned position, the effectual cask beehive of shortening is placed the time.

Description

Drum beehive chamfering equipment for animal husbandry

Technical Field

The invention relates to chamfering equipment, in particular to cylindrical beehive chamfering equipment for animal husbandry.

Background

The beehive is the most basic and indispensable beekeeping tool, the cylindrical beehive is the earliest and most common traditional beehive applied in China, particularly, the cylindrical beehive is basically used for breeding Chinese bees in China before the live frame beehive is introduced, the beehive is designed into a cylindrical shape according to the nesting habit and the honeycomb characteristic of the Chinese bees, meanwhile, the ventilation property inside the beehive and the sealing property outside the beehive are ensured, in addition, the heat preservation, the water resistance, the insect prevention and the like are also important indexes for designing the drum beehive, in order to ensure the flatness of the inner wall of the drum beehive in the process of manufacturing the drum beehive, workers generally use a cutter to chamfer the inner wall of the drum beehive, the manual chamfering of the workers needs to consume great strength, and simultaneously, the strength of the cutter swinging of the workers each time is different, and then can lead to the angle unevenness that the cask beehive inner wall was poured out, the workman still needs manual chamfer efficiency lower to fix to the cask beehive at the chamfer moreover.

Great strength need be consumeed to the above-mentioned manual chamfer of existence workman, the workman's dynamics of tool is all different at every turn simultaneously, and then can lead to the angle unevenness that the cask beehive inner wall was poured out, and the workman still needs to fix the lower shortcoming of chamfer efficiency at the chamfer manually to the cask beehive, so need design one kind and need not the workman and consume great strength and just can accomplish cask beehive chamfer work, can guarantee simultaneously that the dynamics of chamfer at every turn is all the same, and can also fix the cask beehive, thereby accelerate the poultry for the cask beehive chamfer equipment of chamfer efficiency.

Disclosure of Invention

The invention aims to overcome the defects that a worker needs to consume great strength for manual chamfering, the force of the worker for swinging a cutter every time is different, the poured angle of the inner wall of a drum beehive is uneven, and the efficiency of fixing and chamfering the drum beehive manually by the worker at the chamfering is low.

The technical scheme is as follows: the utility model provides a cask beehive chamfer equipment for animal husbandry, including:

the cutting mechanism is arranged at the top of the bottom plate;

the clamping and positioning mechanism is arranged at the top of the bottom plate.

Preferably, the cutting mechanism comprises:

the middle of the top of the bottom plate is provided with a first support frame, and the upper part of the first support frame is symmetrically provided with connecting rods;

the top of the inner end of the connecting rod is rotatably provided with a supporting arc block assembly, and the supporting arc block assembly is circular;

the middle of the top of the bottom plate is connected with a first motor through a bolt, and an output shaft of the first motor is connected with a first rotating shaft;

the middle part of the supporting arc block assembly is provided with a rotating block in a sliding way, and the bottom end of the rotating block is connected with a second rotating shaft;

the first transmission assembly is connected between the support arc block assembly and the first rotating shaft;

the bottom end of the second rotating shaft is welded with a turntable, and cutter assemblies are arranged at intervals at the bottom end of the turntable;

the supporting component is arranged at the top of the first stretching rod, and the inner side of the supporting component is connected with the rotary disc in a sliding mode.

Preferably, the clamping and positioning mechanism comprises:

the inner sides of the bottom ends of the two first stretching rods are fixedly connected with the first wedge-shaped blocks, and the middle of the top of the bottom plate is symmetrically provided with a second telescopic rod;

the outer end of the second telescopic rod is provided with a clamping block assembly in a sliding manner;

the first spring is sleeved on each of the first telescopic rods, and two ends of each first spring are connected to the clamping block assembly and the second telescopic rod respectively;

the outer sides of the clamping block assemblies are provided with third telescopic rods in a sliding manner;

the first baffle is welded between the outer ends of the third telescopic rods on the same side, and the first baffle is in contact fit with the first wedge;

the second spring is sleeved on the third telescopic rod, and two ends of the second spring are connected to the clamping block assembly and the first baffle plate respectively.

Preferably, the device further comprises a pressing mechanism, wherein the pressing mechanism comprises:

the middle of the top of the bottom plate is welded with a second support frame;

the lifting sleeve is fixedly connected to the top end of the second support frame and is cylindrical;

the lifting sleeve is internally provided with a third rotating shaft in a rotating manner, and the bottom end of the third rotating shaft is connected with the top end of the rotating block;

the fixed block, the lift cover is located the top of commentaries on classics piece, and third pivot upper portion is equipped with the fixed block, and the fixed block is with the sliding type cooperation of lift cover.

As preferring, still including last unloading mechanism, go up unloading mechanism including:

the top of the bottom plate is connected with a second motor through a bolt;

the top of the bottom plate is symmetrically provided with four first bearing seat assemblies, a fourth rotating shaft is arranged between the two first bearing seat assemblies, and an output shaft of a second motor is connected with the end part of the fourth rotating shaft;

a fifth rotating shaft is arranged between the two first bearing seat assemblies, and the number of the fifth rotating shafts is one;

the top of the bottom plate is symmetrically provided with four second bearing seat assemblies;

the sixth rotating shaft is connected between the two second bearing seat assemblies;

the seventh rotating shaft is connected between the two second bearing seat assemblies, the number of the seventh rotating shafts is one, and a flat belt is connected between the fifth rotating shaft and the seventh rotating shaft;

a second transmission assembly is connected between the sixth rotating shaft and the seventh rotating shaft;

a third transmission assembly is connected between the fourth rotating shaft and the fifth rotating shaft;

and the bottom plate of the second baffle is symmetrically connected with second baffles which are positioned at two sides of the third transmission assembly.

Preferably, the device further comprises a pushing mechanism, wherein the pushing mechanism comprises:

the middle of the top of the bottom plate is provided with a third support frame in a sliding manner;

the bottom plate is provided with a fourth telescopic rod in a sliding manner, and the end part of the fourth telescopic rod is connected with the end part of the third supporting frame;

the third spring is sleeved on the fourth telescopic rod, and two ends of the third spring are respectively connected to the third support frame and the bottom plate;

the bottom welding of material loading subassembly, supporting component has the connecting block, and connecting block and third support frame contact cooperation, third support frame top are equipped with material loading subassembly.

Preferably, the dust-proof device further comprises a dust-proof mechanism, wherein the dust-proof mechanism comprises:

the end part of the first baffle is fixedly connected with the second wedge block;

the middle of the bottom plate is provided with the supporting blocks, and the number of the supporting blocks is one;

the water pipe is fixedly connected in the supporting block;

the valve component is arranged in the middle of the top of the bottom plate in a sliding mode and is in contact fit with the water pipe;

the valve component is provided with a fifth telescopic rod, and the fifth telescopic rod is connected with the upper part of the bottom plate in a sliding manner;

and the fourth spring is sleeved on the fifth telescopic rod, and two ends of the fourth spring are respectively connected to the bottom plate and the valve component.

Compared with the prior art, the invention has the following advantages:

1. the cutting mechanism is arranged, and the cutting mechanism is matched with the clamping and positioning mechanism, so that the chamfering and clamping and positioning work of the cylindrical beehive can be realized;

2. by arranging the pressing mechanism, a worker does not need to manually press the rotating block downwards, and the chamfering efficiency of the drum beehive is further improved;

3. go up unloading mechanism and pushing equipment cooperation, can realize automatic interval and push away the work of cask beehive to the assigned position, the effectual cask beehive of shortening is placed the time.

Drawings

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

Fig. 2 is a schematic perspective view of the cutting mechanism of the present invention.

Fig. 3 is a schematic perspective view of the clamping and positioning mechanism of the present invention.

Fig. 4 is a schematic perspective view of the pressing mechanism of the present invention.

Fig. 5 is a schematic perspective view of the loading and unloading mechanism of the present invention.

Fig. 6 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 7 is a schematic perspective view of the dustproof mechanism of the present invention.

Number designation in the figures: 1. a bottom plate, 2, a cutting mechanism, 21, a first support frame, 22, a connecting rod, 23, a support arc block assembly, 24, a first motor, 25, a first rotating shaft, 26, a rotating block, 27, a second rotating shaft, 28, a first transmission assembly, 29, a rotating disc, 210, a cutter assembly, 211, a support assembly, 212, a first extension rod, 3, a clamping and positioning mechanism, 31, a first wedge block, 32, a second extension rod, 33, a clamping block assembly, 34, a first spring, 35, a third extension rod, 36, a first baffle, 37, a second spring, 4, a pressing mechanism, 41, a second support frame, 42, a lifting sleeve, 43, a third rotating shaft, 44, a fixed block, 5, a loading and unloading mechanism, 51, a second motor, 52, a first bearing seat assembly, 53, a fourth rotating shaft, 54, a fifth rotating shaft, 55, a second bearing seat assembly, 56, a sixth rotating shaft, 57, a seventh rotating shaft, 58, and a second transmission assembly, 59. the third transmission assembly, 510, the second baffle, 6, the pushing mechanism, 61, the third support frame, 62, the fourth telescopic rod, 63, the third spring, 64, the connecting block, 65, the feeding assembly, 7, the dustproof mechanism, 71, the second wedge block, 72, the supporting block, 73, the water pipe, 74, the valve assembly, 75, the fifth telescopic rod, 76 and the fourth spring.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It should be understood that these examples are for illustrative purposes and are not intended to limit the scope of the present application. The conditions used in the examples may be further adjusted according to the conditions of the particular manufacturer, and the conditions not specified are generally the conditions in routine experiments.

Example 1

The utility model provides a cask beehive chamfer equipment for animal husbandry, as shown in figure 1, including bottom plate 1, cutting mechanism 2 and press from both sides tight positioning mechanism 3, 1 tops of bottom plate are equipped with cutting mechanism 2, and 1 tops of bottom plate are installed and are pressed from both sides tight positioning mechanism 3.

When workers need to chamfer the drum beehive, the workers firstly need to place the drum beehive in the middle of the top of the bottom plate 1, the drum beehive can push the clamping and positioning mechanism 3 to move outwards, the clamping and positioning mechanism 3 has the reset function, the clamping and positioning mechanism 3 can clamp and fix the drum beehive, then the workers start the cutting mechanism 2 to rotate, the workers manually press the cutting mechanism 2 downwards, the cutting mechanism 2 moves downwards to chamfer the drum beehive, after the cutting mechanism 2 finishes the chamfering work of the drum beehive, the workers need to pull the cutting mechanism 2 upwards, the cutting mechanism 2 moves upwards to be separated from the contact with the drum beehive, then the workers can take the chamfered drum beehive out of the clamping and positioning mechanism 3, if the workers need to continue to chamfer the other drum beehive, the workers manually take out the drum beehive between the clamping and positioning mechanisms 3, the workman is manual again and is changed the cask beehive between the tight positioning mechanism 3 of clamp, and the workman presses cutting mechanism 2 downwards once more afterwards, and cutting mechanism 2 moves down once more can carry out chamfer work to the cask beehive to guarantee that the angle that the cask beehive was poured out keeps leveling.

Example 2

In a preferred embodiment of the present invention, as shown in fig. 2, the cutting mechanism 2 comprises a first support frame 21, a connecting rod 22, a support arc block assembly 23, a first motor 24, a first rotating shaft 25, a rotating block 26, a second rotating shaft 27, a first transmission assembly 28, a rotating disc 29, a cutter assembly 210, a support assembly 211 and a first extension rod 212, the first support frame 21 is arranged on the right side of the middle of the top of the base plate 1, the connecting rod 22 is symmetrically arranged on the upper portion of the first support frame 21, the support arc block assembly 23 is rotatably arranged on the top of the inner end of the connecting rod 22, the first motor 24 is connected to the left side of the middle of the top of the base plate 1 through a bolt, the first rotating shaft 25 is connected to the output shaft of the first motor 24, the rotating block 26 is slidably arranged in the middle of the support arc block assembly 23, the bottom end of the rotating block 26 is connected to the second rotating shaft 27, the first transmission assembly, cutter assemblies 210 are arranged at the bottom end of the rotary disc 29 at intervals, first extending rods 212 are symmetrically arranged on the left side and the right side of the middle of the top of the bottom plate 1, supporting assemblies 211 are arranged on the tops of the first extending rods 212, and the inner sides of the supporting assemblies 211 are connected with the rotary disc 29 in a sliding mode.

After a worker places the drum beehive in the middle of the top of the bottom plate 1, the worker needs to start the first motor 24 to rotate, the output shaft of the first motor 24 rotates to drive the first rotating shaft 25 to rotate, the first rotating shaft 25 rotates to drive the supporting arc block assembly 23 to rotate on the connecting rod 22 through the first transmission assembly 28, the supporting arc block assembly 23 rotates to drive the rotating block 26 to rotate, the rotating block 26 rotates to drive the second rotating shaft 27 to rotate, the second rotating shaft 27 rotates to drive the rotating disc 29 to rotate, the rotating disc 29 rotates to drive the cutter assembly 210 to rotate, at the moment, the worker can manually press the rotating block 26 downwards, the rotating block 26 slides downwards in the supporting arc block assembly 23, the rotating block 26 slides downwards to drive the second rotating shaft 27 to slide downwards, the second rotating shaft 27 slides downwards to drive the rotating disc 29 to slide downwards, the rotating disc 29 slides downwards to drive the supporting assembly 211 to move downwards, the first extension rod 212 is retracted, the cutter assembly 210 can be driven to move downwards by the downward sliding of the turntable 29, when the cutter assembly 210 moves downwards to be in contact with a drum beehive, the cutter assembly 210 can perform chamfering work on the drum beehive, when the cutter assembly 210 completes the chamfering work of one drum beehive, a worker needs to pull the rotating block 26 upwards, the rotating block 26 can slide upwards in the supporting arc block assembly 23, the rotating block 26 slides upwards to drive the second rotating shaft 27 to slide upwards, the second rotating shaft 27 slides upwards to drive the turntable 29 to slide upwards, the turntable 29 slides upwards to drive the supporting assembly 211 to move upwards, the first extending rod 212 extends, the turntable 29 slides upwards to drive the cutter assembly 210 to move upwards to reset, when the cutter assembly 210 moves upwards to be separated from the drum beehive temporarily, the worker can take out the drum beehive between the clamping and positioning mechanisms 3, and thus the worker completes the chamfering work of one drum beehive, when the worker does not need to perform chamfering work of the drum beehive, the worker turns off the first motor 24.

Example 3

In a preferred embodiment of the present invention, as shown in fig. 1, 3, 4, 5, 6 and 7, the clamping and positioning mechanism 3 comprises a first wedge block 31, a second telescopic rod 32, a clamping block assembly 33, a first spring 34, a third telescopic rod 35, a first baffle 36 and a second spring 37, the first wedge block 31 is fixedly connected to the inner sides of the bottom ends of the two first extending rods 212, the second telescopic rod 32 is symmetrically arranged at the left and right of the middle of the top of the bottom plate 1, the clamping block assembly 33 is slidably arranged at the outer end of the second telescopic rod 32, the first spring 34 is sleeved on the second telescopic rod 32, the two ends of the first spring 34 are respectively connected to the clamping block assembly 33 and the second telescopic rod 32, the third telescopic rod 35 is slidably arranged at the outer side of the clamping block assembly 33, the first baffle 36 is welded between the outer ends of the third telescopic rods 35 at the same side, the first baffle 36 is in contact with the first wedge block 31, the second spring 37 is sleeved on the third telescopic rod 35, the second spring 37 is connected at both ends thereof to the block assembly 33 and the first shutter 36, respectively.

In order to avoid that the drum beehive can randomly slide left and right or back and forth on the bottom plate 1 in the chamfering process, a worker firstly places the drum beehive in the middle of the top of the bottom plate 1, because the support component 211 slides downwards to drive the first wedge block 31 to move downwards, when the first wedge block 31 moves downwards to be in contact with the first baffle 36, the first wedge block 31 can downwards extrude the first baffle 36, the first baffle 36 can push the third expansion rod 35 to slide inwards, the second spring 37 is compressed, when the third expansion rod 35 slides inwards, the clamping block component 33 can be pushed to move inwards to clamp the drum beehive, so that the work of fixing the drum beehive is achieved, when the support component 211 moves upwards, the support component 211 can drive the first wedge block 31 to move upwards, when the first wedge block 31 moves upwards to temporarily stop being in contact with the first baffle 36, the second spring 37 resets, second spring 37 can promote first baffle 36 and move to the outside, first baffle 36 moves to the outside and can promote the outside slip of third telescopic link 35, and then clamp splice subassembly 33 can stop temporarily to the cask beehive clamp tightly, the cask beehive just can not appear can be about at will on bottom plate 1 or the gliding condition in front and back, the workman can take off the cask beehive that the chamfer on bottom plate 1 was accomplished this moment, if the workman still need carry out the chamfer during operation to another cask beehive, the workman repeats above-mentioned operation once more and can accomplish the chamfer work of another cask beehive.

Still including pushing down the mechanism 4, pushing down the mechanism 4 including the second support frame 41, lifting sleeve 42, third pivot 43 and fixed block 44, the right side welding has the second support frame 41 in the middle of the bottom plate 1 top, the left side rigid coupling in second support frame 41 top has lifting sleeve 42, lifting sleeve 42 is located the top of commentaries on classics piece 26, lifting sleeve 42 internal rotation formula is equipped with third pivot 43, the bottom and the commentaries on classics piece 26 top of third pivot 43 are connected, third pivot 43 upper portion is equipped with fixed block 44, fixed block 44 and lifting sleeve 42 sliding type cooperation.

The efficiency of a worker manually pressing down the rotating block 26 is low, so when the rotating block 26 rotates, the rotating block 26 can drive the third rotating shaft 43 to rotate in the lifting sleeve 42, the third rotating shaft 43 rotates to drive the fixing block 44 to slide downwards in the lifting sleeve 42, the fixing block 44 slides downwards to drive the third rotating shaft 43 to slide downwards, the third rotating shaft 43 slides downwards to drive the rotating block 26 to slide downwards in the supporting arc block assembly 23, the third rotating shaft 43 continues to rotate in the lifting sleeve 42, the fixing block 44 slides upwards to drive the third rotating shaft 43 to move upwards, the third rotating shaft 43 moves upwards to drive the rotating block 26 to slide upwards in the supporting arc block assembly 23, the rotating block 26 can be controlled to move upwards and downwards only by the third rotating shaft 43 and the fixing block 44 in the lifting sleeve 42, and the worker does not need to manually press down the rotating block 26, the chamfering efficiency of the drum beehive is effectively improved.

The feeding and discharging mechanism 5 is further included, the feeding and discharging mechanism 5 includes a second motor 51, a first bearing seat assembly 52, a fourth rotating shaft 53, a fifth rotating shaft 54, a second bearing seat assembly 55, a sixth rotating shaft 56, a seventh rotating shaft 57, a second transmission assembly 58, a third transmission assembly 59 and a second baffle 510, the left portion of the front side of the top of the bottom plate 1 is connected with the second motor 51 through bolts, the first bearing seat assemblies 52 are symmetrically arranged on the left and right sides of the front side of the top of the bottom plate 1, the fourth rotating shaft 53 is arranged between the two first bearing seat assemblies 52 on the front side, an output shaft of the second motor 51 is connected with the left end of the fourth rotating shaft 53, the fifth rotating shaft 54 is arranged between the two first bearing seat assemblies 52 on the rear side, the second bearing seat assemblies 55 are symmetrically arranged on the left and right sides of the top of the bottom plate 1, the sixth rotating shaft 56 is connected between the second bearing seat assemblies 55 on the rear side, the seventh rotating shaft 57 is connected between the second bearing seat assemblies, a flat belt is connected between the fifth rotating shaft 54 and the seventh rotating shaft 57, a second transmission assembly 58 is connected between the sixth rotating shaft 56 and the seventh rotating shaft 57, a third transmission assembly 59 is connected between the fourth rotating shaft 53 and the left end of the fifth rotating shaft 54, a second baffle plate 510 is symmetrically connected to the left and right of the front side of the bottom plate 1, and the second baffle plate 510 is located on the left and right of the third transmission assembly 59.

In order to effectively shorten the placing time of the drum beehive, the worker needs to place a proper amount of the drum beehive on the third transmission assembly 59, when the drum beehive is located on the third transmission assembly 59, the worker can start the second motor 51 to rotate, the output shaft of the second motor 51 rotates to drive the fourth rotating shaft 53 to rotate in the first bearing seat assembly 52, the fourth rotating shaft 53 drives the fifth rotating shaft 54 to rotate through the third transmission assembly 59, the third transmission assembly 59 rotates to drive the drum beehive to move towards the rear side, and the drum beehive is located between the clamping block assemblies 33, the drum beehive at the top of the bottom plate 1 can push the chamfered drum beehive backwards onto the second transmission assembly 58, the fifth rotating shaft 54 drives the seventh rotating shaft 57 to rotate in the second bearing seat assembly 55 through a flat belt, seventh pivot 57 can drive the cask beehive that the chamfer was accomplished through second transmission assembly 58 and move to the assigned position to the rear side, and second baffle 510 plays the effect of keeping off the material, so this equipment just need not the manual cask beehive of workman and places between clamp splice subassembly 33, the effectual time of placing that shortens cask beehive.

Still including pushing equipment 6, pushing equipment 6 is including third support frame 61, fourth telescopic link 62, third spring 63, connecting block 64 and material loading subassembly 65, the left side slidingtype is equipped with third support frame 61 in the middle of the 1 top of bottom plate, the gliding type is equipped with fourth telescopic link 62 on the bottom plate 1, the left end and the third support frame 61 right-hand member of fourth telescopic link 62 are connected, the cover is equipped with third spring 63 on the fourth telescopic link 62, the both ends of third spring 63 are connected respectively on third support frame 61 and bottom plate 1, the welding of support subassembly 211 bottom left part has connecting block 64, connecting block 64 and the cooperation of third support frame 61 contact, third support frame 61 top is equipped with material loading subassembly 65.

In order to avoid the influence on chamfering efficiency caused by the fact that the third transmission assembly 59 rotates to continuously drive the plurality of drum beehives to move backwards, when the support assembly 211 moves downwards, the support assembly 211 drives the connecting block 64 to move downwards, when the connecting block 64 moves downwards to be in contact with the third support frame 61, the connecting block 64 pushes the third support frame 61 to slide towards the right side, the fourth telescopic rod 62 contracts, the third spring 63 is compressed, the third support frame 61 slides towards the right side to drive the feeding assembly 65 to move towards the right side, the feeding assembly 65 moves towards the left side to separate the drum beehives on the third transmission assembly 59, the drum beehive on the front side of the feeding assembly 65 is pushed towards the front side to a specified position, the drum beehive on the rear side of the feeding assembly 65 is pushed towards the rear side to be positioned between the clamping block assemblies 33 to perform chamfering operation, when the support assembly 211 moves upwards, the support assembly 211 drives the connecting block 64 to move upwards, connecting block 64 upward movement to temporary stop and third support frame 61 contact time, third spring 63 reset action, third spring 63 can promote third support frame 61 slide to the left and reset, third support frame 61 slides to the left side and can drive material loading subassembly 65 move to the left side and reset, when supporting component 211 upward movement resets, material loading subassembly 65 moves to the right side and can not separate the cask beehive on third drive assembly 59, the cask beehive of material loading subassembly 65 rear side can be pushed to the back side and is located and carry out chamfer work between clamp splice subassembly 33, the cask beehive that the chamfer was accomplished can be ejecting to second drive assembly 58 on.

Still including dustproof mechanism 7, dustproof mechanism 7 is including the second wedge 71 soon, supporting shoe 72, water pipe 73, valve member 74, fifth telescopic link 75 and fourth spring 76, left first baffle 36 rear end rigid coupling has the second wedge 71 soon, bottom plate 1 middle rear side left part is equipped with supporting shoe 72, the rigid coupling has water pipe 73 in the supporting shoe 72, the middle left side slidingtype in bottom plate 1 top is equipped with valve member 74, valve member 74 and water pipe 73 contact cooperation, be equipped with fifth telescopic link 75 on the valve member 74, fifth telescopic link 75 and bottom plate 1 upper portion left side sliding connection, the cover is equipped with fourth spring 76 on the fifth telescopic link 75, the both ends of fourth spring 76 are connected respectively on bottom plate 1 and valve member 74.

In order to reduce a large amount of dust generated by the beehive barrel in the chamfering process, when the first baffle 36 moves towards the right side, the first baffle 36 drives the second wedge block 71 to move towards the right, so that the valve assembly 74 is pushed to slide towards the rear side, the fifth telescopic rod 75 extends, the fourth spring 76 is stretched, the valve assembly 74 slides towards the rear side to temporarily block the water pipe 73, when the first baffle 36 moves towards the left side to reset, the fifth telescopic rod 75 contracts, the fourth spring 76 resets, the fourth spring 76 pulls the valve assembly 74 to slide towards the front side, and when the valve assembly 74 slides towards the front side to be matched with the water pipe 73 again, water flows onto the beehive barrel through the water pipe 73, so that the dust on the beehive barrel can be effectively reduced.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (8)

1. The utility model provides a cask beehive chamfer equipment for animal husbandry, characterized by: comprises the following steps:

the cutting device comprises a bottom plate (1) and a cutting mechanism (2), wherein the cutting mechanism (2) is arranged at the top of the bottom plate (1);

the clamping and positioning mechanism (3) is arranged at the top of the bottom plate (1).

2. The cylindrical beehive chamfering device for animal husbandry according to claim 1, wherein: the cutting mechanism (2) comprises:

the middle of the top of the bottom plate (1) is provided with a first support frame (21), and the upper part of the first support frame (21) is symmetrically provided with connecting rods (22);

the top of the inner end of the connecting rod (22) is rotatably provided with the supporting arc block assembly (23), and the supporting arc block assembly (23) is circular;

the middle of the top of the bottom plate (1) is connected with a first motor (24) through a bolt, and an output shaft of the first motor (24) is connected with a first rotating shaft (25);

the middle part of the supporting arc block assembly (23) is provided with a rotating block (26) in a sliding way, and the bottom end of the rotating block (26) is connected with a second rotating shaft (27);

the first transmission assembly (28) is connected between the supporting arc block assembly (23) and the first rotating shaft (25);

the bottom end of the second rotating shaft (27) is welded with the rotating disc (29), and the bottom end of the rotating disc (29) is provided with cutter assemblies (210) at intervals;

the supporting component (211) is arranged at the top of the first stretching rod (212), and the inner side of the supporting component (211) is connected with the rotary disc (29) in a sliding manner.

3. The cylindrical beehive chamfering device for animal husbandry according to claim 2, wherein: the clamping and positioning mechanism (3) comprises:

the inner sides of the bottom ends of the two first extending rods (212) are fixedly connected with the first wedge-shaped block (31), and the middle of the top of the bottom plate (1) is symmetrically provided with a second extending rod (32);

the outer end of the second telescopic rod (32) is provided with a clamping block component (33) in a sliding way;

the first spring (34) is sleeved on the second telescopic rod (32), and two ends of the first spring (34) are respectively connected to the clamping block assembly (33) and the second telescopic rod (32);

the outer sides of the third telescopic rods (35) and the clamping block assemblies (33) are both provided with the third telescopic rods (35) in a sliding mode;

the first baffle (36) is welded between the outer ends of the third telescopic rods (35) on the same side, and the first baffle (36) is in contact fit with the first wedge block (31);

the second spring (37) is sleeved on the third telescopic rod (35), and two ends of the second spring (37) are connected to the clamping block assembly (33) and the first baffle (36) respectively.

4. The cylindrical beehive chamfering device for animal husbandry according to claim 3, wherein: still including pushing down mechanism (4), pushing down mechanism (4) including:

the middle of the top of the bottom plate (1) is welded with the second support frame (41);

the lifting sleeve (42) is fixedly connected to the top end of the second support frame (41), and the lifting sleeve (42) is cylindrical;

the third rotating shaft (43) is arranged in the lifting sleeve (42) in a rotating mode, and the bottom end of the third rotating shaft (43) is connected with the top end of the rotating block (26);

the fixed block (44), the lifting sleeve (42) is located above the rotating block (26), the fixed block (44) is arranged on the upper portion of the third rotating shaft (43), and the fixed block (44) is in sliding fit with the lifting sleeve (42).

5. The cylindrical beehive chamfering device for animal husbandry according to claim 4, wherein: still including last unloading mechanism (5), go up unloading mechanism (5) including:

the top of the bottom plate (1) is connected with a second motor (51) through a bolt;

the top of the bottom plate (1) is symmetrically provided with four first bearing seat assemblies (52), a fourth rotating shaft (53) is arranged between the two first bearing seat assemblies (52), and an output shaft of a second motor (51) is connected with the end part of the fourth rotating shaft (53);

the fifth rotating shaft (54) is arranged between the two first bearing seat assemblies (52), and the number of the fifth rotating shafts (54) is one;

the top of the bottom plate (1) is symmetrically provided with the second bearing seat assemblies (55), and the number of the second bearing seat assemblies (55) is four;

a sixth rotating shaft (56), and the sixth rotating shaft (56) is connected between the two second bearing seat assemblies (55);

the seventh rotating shaft (57) is connected between the two second bearing seat assemblies (55), the number of the seventh rotating shafts (57) is one, and a flat belt is connected between the fifth rotating shaft (54) and the seventh rotating shaft (57);

a second transmission assembly (58) is connected between the sixth rotating shaft (56) and the seventh rotating shaft (57);

a third transmission assembly (59), wherein the third transmission assembly (59) is connected between the fourth rotating shaft (53) and the fifth rotating shaft (54);

the second baffle (510) is symmetrically connected to the bottom plate (1), and the second baffle (510) is located on two sides of the third transmission assembly (59).

6. The cylindrical beehive chamfering device for animal husbandry according to claim 5, wherein: still including pushing equipment (6), pushing equipment (6) including:

a third support frame (61), wherein the middle of the top of the bottom plate (1) is provided with the third support frame (61) in a sliding manner;

the bottom plate (1) is provided with a fourth telescopic rod (62) in a sliding mode, and the end part of the fourth telescopic rod (62) is connected with the end part of the third supporting frame (61);

the third spring (63) is sleeved on the fourth telescopic rod (62), and two ends of the third spring (63) are respectively connected to the third supporting frame (61) and the bottom plate (1);

material loading subassembly (65), the bottom welding of supporting component (211) has connecting block (64), and connecting block (64) and third support frame (61) contact cooperation, third support frame (61) top are equipped with material loading subassembly (65).

7. The cylindrical beehive chamfering device for animal husbandry according to claim 6, wherein: still including dustproof mechanism (7), dustproof mechanism (7) including:

the end part of the first baffle (36) is fixedly connected with the second wedge block (71);

the supporting blocks (72) are arranged in the middle of the bottom plate (1), and the number of the supporting blocks (72) is one;

the water pipe (73) is fixedly connected in the supporting block (72);

the valve assembly (74) is arranged in the middle of the top of the bottom plate (1) in a sliding mode, and the valve assembly (74) is in contact fit with the water pipe (73);

a fifth telescopic rod (75) is arranged on the valve component (74), and the fifth telescopic rod (75) is connected with the upper part of the bottom plate (1) in a sliding manner;

a fourth spring (76) is sleeved on the fifth telescopic rod (75), and two ends of the fourth spring (76) are respectively connected to the bottom plate (1) and the valve component (74).

8. The cylindrical beehive chamfering device for animal husbandry according to claim 7, wherein: the first bearing block assembly (52), the shape of first bearing block assembly (52) is rectangle.

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