CN218623131U - Building type livestock and poultry corpse transport passage and breeding house thereof - Google Patents

Abstract

The utility model relates to the technical field of livestock breeding, and discloses a building type livestock and poultry corpse transport channel and a breeding house thereof, which comprises a plurality of direct slideways which are directly communicated with each other through a conveying channel, wherein at least one throwing port is arranged on each direct slideway; still include a plurality of floors, be equipped with building formula beasts and birds corpse transfer passage between a plurality of floors, and building formula beasts and birds corpse transfer passage is located the floor in or outside the floor, puts in mouthful and floor intercommunication. The utility model discloses a solve prior art and bred house beasts and birds and breed the problem that cost is big when in-process conveying beasts and birds corpse in the building formula.

Description

Building type livestock and poultry corpse transport passage and breeding house thereof

Technical Field

The utility model relates to a livestock and poultry breeding technology field, concretely relates to building formula beasts and birds corpse transfer passage and breed house thereof.

Background

At present, the technology of a building type livestock breeding house is generally applied to livestock breeding, and particularly, the purposes of saving land resources and reducing breeding cost are achieved by arranging multiple floors and simultaneously breeding livestock in the multiple floors. In the process of breeding livestock and poultry, part of livestock and poultry inevitably die due to virus, disease or breeding condition and other influence factors, and when part of livestock and poultry in the floor-type breeding house die, the dead livestock and poultry need to be moved away from the floor, so that larger loss caused by infection and the like is avoided.

In order to solve the problems, a utility model with publication number CN209413220U discloses a dead pig passageway of a building type animal house, a passageway body for the dead pig to fall down, a plurality of obliquely arranged slide plates for the dead pig to slide down are vertically arranged in the passageway body, and a gap is arranged between the tail part of each slide plate and the passageway body; and a switching port is arranged between the tail part of the sliding plate positioned at the upper part and the head part of the sliding plate positioned at the lower part in the adjacent sliding plates; the upper end of the sliding plate is provided with a roller wheel.

Although automatic downward delivery of dead pigs can be achieved by this technique, the following problems still remain in actual practice: because dead pigs and other large livestock and poultry with the same volume are heavier, when the dead bodies of the livestock and poultry are conveyed by the aid of the patent, the livestock and poultry vertically drop by a distance to fall onto the sliding plate on the lower side when conveyed downwards to the gap due to the gap between the two adjacent sliding plates, when the livestock and poultry fall onto the sliding plate on the lower side, the livestock and poultry collide with the sliding plate, so that the skins of the livestock and poultry are easily scratched to pollute the sliding plate, and the channel body is polluted to increase the cleaning cost of the channel body; meanwhile, the sliding plate on the lower side is continuously impacted by the carcass of the livestock and poultry, so that the sliding plate is easy to deform, loosen and damage, and the service life of the channel body is shortened. There is therefore a need for an improved channel to address the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a building formula beasts and birds corpse transfer passage and breed house thereof to solve prior art and breed the problem that the cost is big when in-process conveying beasts and birds corpse at building formula beasts and birds.

In order to solve the above problem, the utility model adopts the following technical scheme: a building type livestock and poultry corpse transportation channel comprises a plurality of direct slideways which are directly communicated with a conveying channel, and at least one putting opening is formed in each direct slideway.

The principle of the scheme is as follows: in this application, a plurality of intercommunication transfer passage directly communicates into a continuous direct slide to set up at least one and put in the mouth on direct slide, make dead beasts and birds can be put into direct slide by putting in the mouth, then the beasts and birds corpse can be along direct slide steadily the bottom of lapse to direct slide, realize conveying the beasts and birds corpse steadily.

The beneficial effect of this scheme lies in:

1. can effectively reduce the cleaning cost: compare when the passageway among the prior art conveys dead pig, the dead pig is scratched and is caused the passageway serious pollution at the in-process that drops easily, increases the cleaning cost. In this application, through setting up the direct slide of direct intercommunication for the beasts and birds corpse can be conveyed downwards steadily, reduces beasts and birds corpse epidermis and is wiped brokenly and pollute the condition of direct slide, effectively reduces the cleaning cost of direct slide, and can make beasts and birds corpse quilt more stable and convey safely.

2. Can prolong the service life of the direct slide: compare to have the clearance between two upper and lower adjacent slides among the prior art, the dead pig can pound the slide to the downside when dropping, causes the slide to appear not hard up, warp etc for the life-span of slide is shorter. In this application, the head and the tail of a plurality of intercommunication transfer way connect gradually, therefore the beasts and birds corpse is the state of steadily slipping when sliding the hookup location of two adjacent intercommunication transfer ways, can not appear dropping perpendicularly downwards and pounding the condition of downside intercommunication transfer way, consequently adopt the clash effort that the direct slide in this application received the beasts and birds corpse less, the harm that the direct slide received reduces, effectively prolongs the life of direct slide.

Preferably, as an improvement, the adjacent communicated conveying passages are in a broken line transition and/or a smooth transition.

In this scheme, broken line transition or smooth transition between two upper and lower adjacent intercommunication conveying ways for direct slide wholly is the reciprocal structure of buckling of S type or Z type. The reciprocating bending structure of the direct slide way is set to be S-shaped, so that the connection positions of two adjacent reciprocating bending structures can be more smoothly transited, and stable conveying of the livestock and poultry carcasses is more facilitated; meanwhile, the reciprocating bending structure of the direct slideway can be set to be a Z-shaped fold line shape, so that the direct slideway is simpler to process and install and has lower cost; meanwhile, two adjacent reciprocating bending structures can be combined into an S-shaped structure and a Z-shaped structure (namely, all the two connecting points formed by the upper and lower three adjacent communicated conveying channels can be in smooth transition, all the connecting points can be in broken line transition, or the combination of the smooth transition and the broken line transition), the conveying stability and the processing cost are balanced, and the reciprocating bending structure can be determined according to actual conditions in practical application.

Preferably, as a modification, the discharge port is located at a connecting position of adjacent communicating transfer passages.

In the scheme, two positions connected with the conveying channel are connected

The feeding ports are arranged, so that the direct slide ways are provided with the plurality of feeding ports, the livestock and poultry carcasses on different floors can be conveniently fed into the direct slide ways nearby, and the livestock and poultry carcasses can be rapidly conveyed.

Preferably, as an improvement, the bottom of direct slide is connected with buffer, and the last export that is equipped with of buffer.

According to the scheme, when the livestock and poultry carcasses slide to the bottom end of the direct slide way along the direct slide way, the livestock and poultry carcasses have a certain sliding speed, the buffering device is arranged at the bottom end of the direct slide way, and the livestock and poultry carcasses are buffered by the buffering device, so that the impact damage of the livestock and poultry carcasses to the ground or the direct slide way structure is avoided; meanwhile, an outlet is formed in the buffering device, and after the livestock and poultry corpses are buffered, the livestock and poultry corpses can be conveyed out of the buffering device through the outlet, so that the livestock and poultry corpses are prevented from being accumulated in the buffering device.

Preferably, as an improvement, the buffering device comprises a buffer tube communicated with the direct slide way, an end of the top of the buffer tube far away from the direct slide way extends upwards and is higher than the bottom end of the direct slide way, and the outlet is positioned at the lower end of the buffer tube.

In this scheme, because the one end that direct slide was kept away from at the top of buffer tube upwards extends and is higher than the bottom of direct slide, when the beasts and birds corpse slided down by direct slide and enters into the buffer tube, can upwards slide a take the altitude along the buffer tube for the speed of beasts and birds corpse reduces, and rely on the friction between beasts and birds and the buffer tube, make beasts and birds stop sliding gradually and the automatic shutdown in the bottom of buffer tube, then can take away the beasts and birds corpse by the export.

Preferably, as an improvement, a sealing cover plate is connected to the top of the buffer tube, and a vent hole is formed in the buffer tube near the sealing cover plate.

In the scheme, the sealing cover plate is connected to the end part of the buffer tube, so that rainwater, dust and the like are prevented from entering the buffer tube to pollute the buffer tube; simultaneously, set up the blow vent at the tip of buffer tube, when the beasts and birds corpse by direct slide when sliding into in the buffer tube, outside the air in the buffer tube can be extruded the buffer tube by the blow vent, avoid the atmospheric pressure in the buffer tube too big and cause buffer tube or sealed apron to damage.

Preferably, as an improvement, be equipped with buffer board and setting element in the buffer tube, the setting element is located between buffer board and the sealed apron and setting element fixed connection is in the buffer tube, buffer board sliding connection is in the buffer tube, is connected with elastic buffer spare between buffer board and the setting element.

In this scheme, when beasts and birds slide by higher position and have great impact, can provide the buffering to dead beasts and birds through buffer board and the elastic buffer spare that sets up, under the prerequisite of guaranteeing that beasts and birds can be cushioned, the overlength that can avoid the length setting of buffer tube practices thrift the space and reduces the manufacturing cost of buffer tube.

Preferably, as an improvement, the joint of adjacent communicating conveying channels is provided with an expansion piece for increasing the conveying cross-sectional area, and the expansion piece and the throwing port are respectively positioned at two sides of the communicating conveying channel.

In the scheme, the expansion piece is arranged at the joint of the two adjacent communicated conveying channels, so that the cross section area of the direct slide way for conveying the carcasses of the livestock and the poultry is increased, and the livestock and the poultry can more smoothly pass through the direct slide way when sliding downwards to the turning position connected with the two adjacent communicated conveying channels; meanwhile, the expansion piece and the throwing port are positioned on two sides of the communicated conveying channel, and under the effect of increasing the conveying cross-sectional area of the expansion piece, even if livestock and poultry carcasses sliding from top to bottom exist in the direct slide way, enough space is reserved at the connecting and switching position of the adjacent communicated conveying channel, and the livestock and poultry carcasses are newly put into the throwing port, so that the newly-put livestock and poultry carcasses cannot collide with the livestock and poultry sliding downwards in the direct slide way to be blocked, and the direct slide way can smoothly and efficiently convey the livestock and poultry carcasses.

Preferably, as a refinement, the capacity enlarging element comprises a riser fixedly connected between the two communicating transfer ducts or a curved plate curved into the direct chute.

In this scheme, make the space increase of two intercommunication transfer passage junctions through setting up riser or crooked board, realize the purpose of increase cross-sectional area.

Preferably, as an improvement, the angle between the communicating conveying passage and the horizontal plane is greater than or equal to 45 °.

In this scheme, set up the contained angle that communicates between transfer passage and the horizontal plane into more than or equal to 45 for can be fast and automatically slide along direct slide under self action of gravity after the beasts and birds corpse is dropped into direct slide, realize automatic conveying.

Preferably, as a modification, the cross section of the communicating transfer passage is rectangular, circular or elliptical.

In the scheme, the cross section of the communicating conveying channel can be determined according to actual use requirements and processing cost, for example, the manufacturing cost of the communicating conveying channel with the rectangular cross section is lower, the communicating conveying channel with the circular cross section is smoother, and the conveying of the livestock and poultry carcasses is smoother.

Preferably, as an improvement, the communicating conveying channel is provided with a heat-insulating layer.

In the scheme, the heat-insulating layer is arranged on the communicated conveying channel, so that the proper temperature can be kept in the communicated conveying channel by using the heat-insulating layer, and the normal use of the direct slide way can be ensured even if the temperature of the external environment is very low; meanwhile, the heat-insulating layer can also play a role in protecting the communicating conveying channel from corrosion and the like, so that the service life of the communicating conveying channel is prolonged.

Preferably, as an improvement, the device further comprises a transfer slideway and a vertical slideway arranged vertically, wherein the transfer slideway comprises a plurality of indirectly communicated transfer conveying channels; in the adjacent switching transmission channels, the tail end of the upper switching transmission channel is positioned above the head end of the lower switching transmission channel; one or two of the switching slide way and the vertical slide way are connected with the direct slide way in a direct communication or indirect communication mode.

In the scheme, the switching slideway consists of a plurality of switching conveying channels which are arranged up and down, the tail end of the upper switching conveying channel is positioned above the head end of the lower switching conveying channel in two adjacent switching conveying channels, so that the livestock and poultry carcasses which slide downwards from the upper switching conveying channel can fall downwards onto the lower switching conveying channel in a free-falling mode after sliding to the tail end of the upper switching conveying channel, and the livestock and poultry carcasses are continuously conveyed downwards from the lower switching conveying channel in a similar conveying mode, so that the livestock and poultry carcasses slide downwards along the switching slideway and are conveyed; simultaneously, in this scheme, combine direct slide and switching slide and perpendicular slide for direct slide can form the passageway that is used for conveying the beasts and birds corpse with switching slide and perpendicular slide combination, and the form is more various.

The building type livestock and poultry breeding house comprises a plurality of floors, wherein the building type livestock and poultry corpse transport channel is arranged between the floors, the building type livestock and poultry corpse transport channel is positioned in the floors or outside the floors, and the throwing port is communicated with the floors.

In this scheme, set up direct slide between a plurality of layers of floor from top to bottom, utilize and put in the mouth and put into the dead beasts and birds in with the floor and put into direct slide, and utilize direct slide to accomplish the downward conveying to the beasts and birds corpse, and direct slide in this scheme is located the floor or outside the floor, when direct slide is located the floor, the structure that the floor was originally can not influenced in the installation construction of direct slide, the cost of manufacturing is low and the cost of maintaining is low, when direct slide is located the floor, direct slide receives the influence of external environment (especially factors such as temperature) low, be fit for the normal conveying to the beasts and birds corpse under the external cold environment state.

Drawings

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

Fig. 2 is a partially enlarged view of a point a in fig. 1.

Fig. 3 is a view similar to the enlarged view of the portion a of fig. 1, in which the diffuser is a curved plate.

Fig. 4 is a left side view of the building type livestock and poultry carcass transportation channel in fig. 1.

Fig. 5 is a partial schematic view of a buffer device according to a third embodiment of the present invention.

Fig. 6 is a partial enlarged view of a portion a in fig. 1 in accordance with a fourth embodiment of the present invention.

Fig. 7 is a schematic view of a fifth embodiment of the present invention, in which a direct slide, a transfer slide and a vertical slide are connected.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a communicating conveying channel 1, a throwing opening 2, a vertical plate 3, a bending plate 301, a buffer tube 4, a sealing cover plate 5, a vent hole 6, an outlet 7, a floor 8, a buffer plate 9, a positioning block 10, a buffer spring 11, a vent hole 12, a heat-insulating layer 13, a switching conveying channel 14 and a vertical slideway 15.

Example one

This embodiment is substantially as shown in fig. 1: a building type livestock and poultry corpse transportation channel comprises a direct slide way (four communicated conveying ways 1 are shown in figure 1) which is formed by sequentially connecting and communicating a plurality of communicated conveying ways 1 end to end from top to bottom and is of a continuous reciprocating bending structure, the upper and lower adjacent communicated conveying ways 1 are in broken line transition and/or smooth transition, and the cross sections of the communicated conveying ways 1 are rectangular, circular or elliptical. In this embodiment, adopt broken line transition mode between two adjacent intercommunication transfer way 1 for direct slide is whole to be the reciprocal structural style of Z type broken line, and the cross section of intercommunication transfer way 1 adopts the rectangle structure, and the simple structure and the processing of intercommunication transfer way 1 and installation cost are low. In other embodiments besides this embodiment, the connection positions of the adjacent communicating transfer passages 1 may adopt a smooth transition manner, that is, the connection positions of two adjacent communicating transfer passages 1 are provided with a rounded corner structure, so that the direct slide way is in an S-shaped reciprocating bending structure, and the direct slide way can be made to be smoother, or a combination of fold line transition and smooth transition is adopted in two connection positions connected by three adjacent communicating transfer passages 1; meanwhile, the communicating conveying channel 1 can also adopt a structure with a circular cross section, so that a blind spot at the right-angle position of the connecting line of two adjacent plates in the direct slide way can be avoided, the cleaning, the disinfection and the like of the direct slide way are facilitated, and in the practical application process, the cross section of the communicating conveying channel 1 and the connecting mode of the adjacent communicating conveying channel 1 can be selected according to the practical situation.

The included angle between the communication conveying channel 1 and the horizontal plane is more than or equal to 45 degrees, the form that the included angle between the communication conveying channel 1 and the horizontal plane is equal to 45 degrees is shown in figure 1, the included angle between the communication conveying channel 1 and the horizontal plane is set to be more than or equal to 45 degrees, and when dead livestock and poultry carcasses are thrown into the direct slide way through the throwing port 2, the livestock and poultry carcasses can automatically slide downwards along the direct slide way under the action of self gravity.

The direct slideway is at least provided with a throwing port 2 communicated with the direct slideway, and in the embodiment, the connecting positions of two adjacent communicated conveying channels 1 are both provided with a throwing port 2; meanwhile, the joint of two adjacent communicated conveying ways 1 is provided with an expansion piece for increasing the conveying cross-sectional area, and the expansion piece and the throwing port 2 are respectively positioned at two sides of the communicated conveying ways 1, in the embodiment, with reference to fig. 2, the expansion piece comprises a vertical plate 3 fixedly connected between the two adjacent communicated conveying ways 1 through screws, and the conveying cross-sectional area at the position where the throwing port 2 is arranged on the direct slide way is increased by arranging the vertical plate 3, so that on one hand, dead livestock and poultry can more stably slide through the switching position where the two adjacent communicated conveying ways 1 are connected by utilizing the increased conveying cross-sectional area, the scraping of the livestock and poultry carcasses and the switching positions of the two adjacent communicated conveying ways 1 is reduced, the damage to the livestock and poultry is favorably reduced, and the interior of the direct slide way is kept clean; meanwhile, the conveying space at the position of the throwing port 2 can be enlarged, when the livestock carcass slides down along the direct slide way on the upper side, the new livestock can be thrown into the direct slide way through the throwing port 2 by the throwing port 2, the blocking and the influence of the livestock and the poultry are reduced, and the conveying of the livestock and the poultry is more efficient. In another embodiment other than this embodiment, the container may be a curved plate 301 that is curved inward of the direct chute, so that the connection between two adjacent communicating conveying paths 1 is smoother and the structure is more stable, as shown in fig. 3.

With reference to fig. 1 and 4, the bottom of the direct slide is connected with a buffering device, in this embodiment, the buffering device is a buffer tube 4, as shown in fig. 1, the right end of the buffer tube 4 is communicated with the bottom end of the direct slide, and the left end of the buffer tube 4 extends leftwards and then vertically upwards, so that the left end of the buffer tube 4 is higher than the bottom end of the direct slide, and the left end of the buffer tube 4 can also extend upwards in an inclined manner, so that the buffer tube 4 can also play a buffering effect, and meanwhile, the buffer tube 4 can be conveniently mounted and fixed, and is more stable during use, and will not be described herein again; meanwhile, the left end of the buffer tube 4 is fixedly connected with a sealing cover plate 5 for sealing the top of the left end of the buffer tube 4 through a screw, and the sealing cover plate 5 is used for shielding the top of the buffer tube 4, so that impurities such as rainwater and dust are prevented from falling into the buffer tube 4 to pollute the interior of the buffer tube 4; simultaneously, it has a plurality of air vents 6 to open on the lateral wall that buffer tube 4 is close to the top, and when beasts and birds after dying fall into buffer tube 4 by direct slide, the air in buffer tube 4 can be discharged by air vent 6, avoids buffer tube 4 internal gas pressure too big and causes sealed apron 5 or buffer tube 4 to break and damage. And the lower extreme department at the right-hand member of buffer tube 4 is opened there is export 7, when the beasts and birds after dying slide into buffer tube 4 along direct slide and pass through the buffering of buffer tube 4 and finally when stopping in the right-hand member department of buffer tube 4, can be outside the beasts and birds pull out buffer tube 4 by export 7, avoid beasts and birds corpse to pile up in buffer tube 4 and influence the normal use of direct slide.

As shown in fig. 1, a building-type livestock and poultry breeding house includes a plurality of floors 8 disposed up and down, the above direct slideway is disposed between the floors 8, and the direct slideway is located outside the floors 8 (i.e. on the outer wall of the breeding house rather than inside the breeding house).

In this embodiment, each floor is provided with one of the above-mentioned throwing-in ports 2, so that each floor can throw dead livestock and poultry into the direct chute through the throwing-in port 2, and in other embodiments except this embodiment, some office floors 8 or floors 8 on which livestock and poultry are not cultured may not be provided with the throwing-in ports 2; or, according to the height of the floor 8, when the distance between two adjacent floors 8 is large, two communicating transfer lanes 1 may be provided between the two floors 8, the throwing port 2 is not provided at the connecting position of the two communicating transfer lanes 1, but the throwing ports 2 are provided at the two ends of the two communicating transfer lanes 1 which are not connected, which also belong to the protection range of the present application, and are not described in detail herein.

The specific implementation process is as follows:

when the livestock and poultry raised in the floor 8 of the building type livestock and poultry breeding house die, the dead livestock and poultry can be carried to the throwing port 2 correspondingly arranged on the floor 8 through manpower or other machinery, then the livestock and poultry are thrown into the direct slideway through the throwing port 2, the livestock and poultry slide down to the bottom end of the direct slideway along the direct slideway under the action of self gravity, and the livestock and poultry have certain speed when sliding to the bottom end of the direct slideway, so that the livestock and poultry slide into the buffer tube 4 after sliding through the bottom end of the direct slideway and slide upwards along the buffer tube 4 for a certain distance until the speed of the livestock and poultry is reduced to zero and then slide downwards along the buffer tube 4, and the kinetic energy of the livestock and poultry is reduced due to mutual friction between the livestock and poultry and the buffer tube 4 until the livestock and poultry finally stay at the lower end of the right end of the buffer tube 4 (the livestock and poultry can slide back and forth between the buffer tube 4 and the direct slideway during the period), and the livestock and poultry can be finally pulled out of the buffer tube 4 from the outlet 7 at the right end of the buffer tube 4 to the buffer tube 4, so as to realize that the livestock and poultry are conveyed downwards from the buffer tube 8 on the floor, and the outlet 7 on the floor, and then the livestock and poultry can be arranged at the ground, so that the livestock and the outlet 7 on the buffer tube 4 can be pulled out of the floor, and then fall to the floor, and then transferred; the outlet 7 can also be arranged at a certain height from the ground so as to move the device for transporting livestock and poultry in the prior art to the position below the outlet 7, so that the livestock and poultry can conveniently fall into the transporting device when being pulled out from the outlet 7.

Example two

The difference between the second embodiment and the first embodiment is that: in this embodiment, when the direct slide way with the continuous reciprocating bending structure is formed by the communicating conveying paths 1 from top to bottom, the communicating conveying paths 1 adjacent to each other up and down are not located in the same plane, but all the communicating conveying paths 1 form the spiral reciprocating bending structure (similar to the spiral structure of the spiral spring) in an up-and-down state, and only all the input ports 2 are located on the same vertical line. Through the mode of this embodiment, can set up the intercommunication transfer way 1 of crooked spiral between two input ports 2, the conveying distance of extension intercommunication transfer way 1, when the distance between two-layer building is great, can make intercommunication transfer way 1 more gentle, is favorable to the steady downward conveying of beasts and birds.

EXAMPLE III

The difference between the third embodiment and the first embodiment is that: as shown in fig. 5, in this embodiment, a buffer plate 9 and a positioning element are disposed in the buffer tube 4, the positioning element is located between the buffer plate 9 and the sealing cover plate 5, the positioning element is a positioning block 10 fixedly connected in the buffer tube 4 by a screw, the buffer plate 9 is vertically slidably connected in the buffer tube 4, an elastic buffer member is connected between the buffer plate 9 and the positioning block 10, the elastic buffer member is a buffer spring 11 welded between the buffer plate 9 and the positioning block 10, and an air hole 12 is formed in the buffer plate 9.

In this embodiment, by arranging the buffer plate 9 and the buffer spring 11, when dead livestock and poultry slide downwards into the buffer tube 4 through the direct slide way and then collide with the buffer plate 9, the buffer plate 9 and the buffer spring 11 can buffer the livestock and poultry, so that the livestock and poultry can be taken out of the outlet 7 by stopping sliding quickly; meanwhile, the vertical length of the left end of the buffer tube 4 can be reduced, and the cost is saved.

Example four

The difference between the fourth embodiment and the third embodiment is that: as shown in fig. 6, a heat insulating layer 13 is provided on the communicating transfer duct 1, in this embodiment, the heat insulating layer 13 is an aluminum foil or PVC film adhered to the outside of the communicating transfer duct 1, and the heat insulating layer 13 is used to insulate the communicating transfer duct 1, and is particularly suitable for a place where the external environment is cold, and the heat insulating layer 13 can also protect the communicating transfer duct 1 from corrosion, rust, and the like.

EXAMPLE five

The difference between the fifth embodiment and the first embodiment is that: in this embodiment, the livestock and poultry automatic feeding device further comprises a transfer chute and a vertical chute 15 vertically arranged, as shown in fig. 7, the transfer chute comprises a plurality of transfer conveying channels 14 arranged along the vertical direction, each transfer conveying channel 14 is obliquely arranged to complete automatic conveying of livestock and poultry carcasses, the inclination directions of two adjacent transfer conveying channels 14 are opposite, and the tail end (i.e. the lower end) of the upper transfer conveying channel 14 is located above the head end (i.e. the higher end) of the lower transfer conveying channel 14, so that the livestock and poultry carcasses sliding downwards from the upper transfer conveying channel 14 can fall onto the transfer conveying channel 14 on the lower side to be conveyed downwards continuously.

In this embodiment, the direct slide may be connected to the transfer slide up and down to transfer the carcass of livestock and poultry, or the direct slide may be connected to the vertical slide 15 up and down to transfer the carcass of livestock and poultry, or the direct slide, the transfer slide and the vertical slide 15 may be connected to transfer the carcass of livestock and poultry in fig. 7 down (the order of the direct slide, the transfer slide and the vertical slide 15 in the vertical direction may be determined according to actual conditions, and is not described here any more), so as to complete the transfer of the carcass of livestock and poultry downward.

The above description is only an example of the present invention, and the common general knowledge of the known technical solutions and/or characteristics is not described herein. It should be noted that, for those skilled in the art, without departing from the technical solution of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (12)

1. A building type livestock and poultry corpse transport passage is characterized in that: the device comprises a plurality of direct slideways which are communicated with conveying channels directly, wherein at least one throwing port is arranged on each direct slideway, the adjacent conveying channels are communicated with each other in a broken line transition and/or smooth transition mode, the bottom ends of the direct slideways are connected with a buffer device, and an outlet is formed in the buffer device.

2. The building type livestock and poultry corpse transport channel of claim 1, which is characterized in that: the throwing port is positioned at the connecting position of the adjacent communicated conveying channels.

3. The building type livestock and poultry carcass transportation channel according to claim 2, characterized in that: buffer includes the buffer tube with direct slide intercommunication, and the top of buffer tube is kept away from the one end of direct slide and is upwards extended and be higher than the bottom of direct slide, the export is located the low side of buffer tube.

4. The building type livestock and poultry carcass transportation channel according to claim 3, characterized in that: the top of buffer tube is connected with sealed apron, and the buffer tube is gone up and is close to sealed apron department and opens there is the blow vent.

5. The building type livestock and poultry corpse transport channel of claim 4, which is characterized in that: the buffer tube is internally provided with a buffer plate and a positioning piece, the positioning piece is positioned between the buffer plate and the sealing cover plate and is fixedly connected in the buffer tube, the buffer plate is connected in the buffer tube in a sliding manner, and an elastic buffer piece is connected between the buffer plate and the positioning piece.

6. The building type livestock and poultry carcass transportation channel according to claim 2, characterized in that: the joint of the adjacent communicated conveying channels is provided with a capacity expansion piece used for increasing the conveying cross section area, and the capacity expansion piece and the throwing port are respectively positioned at two sides of the communicated conveying channels.

7. The building type livestock and poultry corpse transport channel of claim 6, which is characterized in that: the expansion piece comprises a vertical plate fixedly connected between adjacent communicated conveying channels or a bending plate arranged in a bending way in the direct slide way.

8. The building type livestock and poultry carcass transportation channel according to claim 1, characterized in that: the included angle between the communicating conveying channel and the horizontal plane is more than or equal to 45 degrees.

9. The building type livestock and poultry corpse transport channel of claim 8, which is characterized in that: the cross section of the communicating conveying channel is rectangular, circular or elliptical.

10. The building type livestock and poultry corpse transport channel of claim 9, which is characterized in that: and the communicated conveying channel is provided with a heat insulation layer.

11. The building type livestock and poultry carcass transportation channel according to claim 10, characterized in that: the device also comprises a switching slideway and a vertical slideway which is vertically arranged;

the transfer slideway comprises a plurality of indirectly communicated transfer conveying channels, and in the adjacent transfer conveying channels, the tail end of the upper transfer conveying channel is positioned above the head end of the lower transfer conveying channel;

one or two of the switching slide way and the vertical slide way are connected with the direct slide way in a direct communication or indirect communication mode.

12. A building type livestock and poultry breeding house is characterized in that: the building type livestock and poultry corpse conveying channel as claimed in any one of claims 1-11 is arranged among the floors, the building type livestock and poultry corpse conveying channel is positioned in the floor or outside the floor, and the throwing port is communicated with the floors.

Images