KR101588571B1

KR101588571B1 - automation system for artificial incubation of chick

Info

Publication number: KR101588571B1
Application number: KR1020150119260A
Authority: KR
Inventors: 박성빈
Original assignee: 농업회사법인 주식회사 태초의 자연으로
Priority date: 2014-09-17
Filing date: 2015-08-25
Publication date: 2016-01-26
Also published as: WO2016043459A1

Abstract

An automated artificial incubation system for chicken eggs of the present invention is configured in such a manner that hatchery eggs (E), which are put into a setting place (40) from a hatchery room (22) are automatically placed in a plurality of incubators (50) whose temperatures are maintained between 38°C and 39°C and relative humidity is maintained between 60% and 70%, and for the next 18 days, the eggs are hatched in the incubators (50) which move gradually along a rail (42). On the 18th day, when the incubators (50) arrive at the entrance of a hatching room (26), the eggs are automatically released and placed on a plurality of hatching case slats (60), which are installed inside the hatchery room (26), by being guided on a second medium conveyor belt (32), while unfertilized eggs (E) which are incubated in the setting room (40) are hatched into chicks within three days and the newly hatched chicks are moved into a stable case slat (62), which are installed in a stable room (28), by age. The newly hatched chicks are grown into healthy chicks by being vaccinated, and forced to exercise and be adapted to a temperature of between 16°Cand 24°C and then the chicks are separated by gender while being passed through a revolving door, which is installed on one end of the stable case slat (62) so as to be moved into a bleeding case.

Description

An automation system for artificial incubation of chick

The present invention relates to a chick artificial incubation automation system, and more particularly, to a chick artificial incubation automation system. More particularly, the present invention relates to a chick artificial incubation automation system, and more particularly, To a chick artificial incubation automation system.

Generally, in order to hatch the chick, the ratio of hen to rooster is 1: 13 ~ 15, and fertilization is produced.

Currently, many incubators have been developed and used.

However, the conventional incubator is divided into an incubator and a generator. After incubating the larvae in a row, the larvae are grown for 18 days through egg whites, There is a problem in that the method of hatching the chicks is used.

First, since it requires extra use of the generator and the generator, it takes a lot of equipment and equipment expenses. After the development is finished in the developing period, the car in the developing period is taken out by hand, and the old cart is moved back to the generator box, And the hatching of the chicks between 19 and 21 days.

Second, the chicks hatched on the 19th day of the breeding season breathe for 24 to 40 hours or more at a temperature of 38 ° C or higher. They are unable to consume water and feed, so dehydration progresses and leads to immunodeficiency and long-term growth retardation There is a problem.

Third, it is difficult to eradicate diseases such as the nandalgia by using the plastic stratum, and there is a problem that a large amount of wastewater is generated while washing the stratum.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems in view of the problems of the prior art, and it is an object of the present invention to provide a hatchery- Growth period was automatically moved constantly at intervals of 1 day along the rail installed at the bottom of the hatchery, and eggs were grown and developed on the inner side of the developmental stage. On reaching the entrance side of the incubation room on the 18th day, It is settled in the brook cage slat by the conveyor which is the middle stage, and the chicks are hatched between 19 and 21 days. At the same time, they eat the clear air, water and feed, and the hatching chicks are sequentially transferred to the stable room according to the age, And to provide a chick artificial incubation automation system for producing healthy chicks.

According to an aspect of the present invention, there is provided an automatic chick artificialization automatic system, wherein the hatchery is divided into a blanket chamber, a development chamber, a incubation chamber, and a stabilization chamber, and one side of the development chamber and the bell- And one side of the developing chamber and the stabilizing chamber are connected by a second intermediate conveyor,

The development room is provided with a plurality of stratum cores stacked in a plurality of blanks in the breeding room and is received by the first intermediary conveyor and stacked at a predetermined spacing therebetween, and then circulated in one direction along the rails provided on the bottom of the development room in one direction During the 18 days of migration, a number of breeders were installed to develop the overgrown bovine sponges,

In the stable chamber, a large number of stasis in the developing period arriving at the stabilization room arriving every day on the 18th day among the plurality of developing stages was supplied by the second intermediate conveyor, and the incubated chicks And a plurality of broiler cage slats are provided, which feed water, feed, and fresh air to the broilers, and then move to the outlet side in the order of chicks hatched in quick succession and then sorted and packed into a stable chamber.

As another embodiment, the present invention is characterized in that the stairs of the present invention are made of a disposable paper material, and a plurality of circular holes are formed at regular intervals in the up, down and left and right directions with respect to a plane in which a plurality of blanks are seated.

According to another embodiment, the rail of the present invention is characterized in that the plurality of developing machines are arranged in a rectangular shape at the edge with the worker's moving space in the middle of the development room being interposed between them so as to be circulated in one direction by 3-4 m per day for 18 days .

In accordance with another aspect of the present invention, a plurality of developing machines of the present invention includes: a frame having a door provided with a door for receiving and leaving a plurality of stairs in a receiving space; a board vertically movably installed on both inner side walls of the opening of the frame; A plurality of main rollers respectively installed at regular intervals in the vertical direction on both inner side walls of the opening portion of the frame and rotated when the servo actuators are individually connected to each other; A plurality of conveying rollers provided at predetermined intervals in the horizontal direction at the same height as the main rollers of the main rollers and a plurality of conveying rollers arranged in layers such that the main rollers and the conveying rollers, A plurality of chains for connecting the main rollers to each other and rotating them simultaneously, A positioning spiral shaft fixed to one side of the substrate while being rotatably supported via an end of the positioning spiral shaft; and a servo actuator installed at a lower portion of the frame to rotate the positioning spiral shaft in a normal / And a wheel feeding means provided on an outer bottom surface of the frame for driving the generator so as to be circulated along a rail provided on the bottom of the development chamber.

In another embodiment, the accommodating spaces of the multiple builders of the present invention are characterized by a temperature of 38 to 39 DEG C and a relative humidity of 60 to 70% for 18 days.

In another embodiment, the wheel conveying means of the present invention is supported on the outer bottom surface of the frame by a hydraulic support shaft, which is vertically movable, and is arranged in a rectangular shape at regular intervals so as to roll- A pair of right and left front wheels, a pair of right and left front wheels, a pair of left and right front and rear wheels, and a pair of right and left front wheels, And a plurality of moving motors for driving the first and second wheels, respectively.

The chick artificial incubation automation system of the present invention has the following effects.

1. There is convenience that the blanket raised by the automation device is put on the grower right away.

2. The incubator has an automated facility to move the grower along the rails, so that the generator (hatching equipment), which is an existing incubator, and the installation site, the lorry and storage warehouse, the stagnant washing facility, Cost and labor force.

3. It is possible to prevent dehydration and weakening of immunity by eating cold air, water, and feed at the same time as chick hatching in chickpea cage slat. It is possible to mass produce healthy chick which is adapted to natural environment more than 3 days The price of chicks can be drastically lowered, and hatching occurs first from the smallest size of the boll and hatches later largely. Therefore, by sorting by hatching age, chicks are naturally sorted by size, and feed efficiency is high and the mortality rate is low.

4. The hatching chick is in limited contact with the human hand and is transported from the incubation room to the broiler cage slat by the second conveyor in the incubation room without transporting chicks and labor, .

5. Chicks produced in this environment are not stressed, are not exposed to a variety of diseases such as AI, as well as increased in immunity. Therefore, the growth of the chicks can be accelerated and the shipment date can be shortened and the feed cost can be reduced.

6. After the use of the disposable paper material, it is fermented after the use, and there is no generation of waste water due to the prevention of diseases and washing of the stool.

1 is a plan view schematically showing a hatchery according to the present invention,
FIG. 2 is a plan view schematically showing a rail structure provided on the floor of the development room according to the present invention,
FIG. 3 is a side cross-sectional view schematically showing an emergent period according to the present invention,
FIG. 4 is a bottom view schematically showing the wheel transfer means on the outer bottom surface of the breeding machine according to the present invention. FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 1 to 4.

1, the hatching plant 20 is divided into a cramp chamber 22, an development chamber 24, a incubation chamber 26, and a stabilization chamber 28, One side of the egg chamber 22 and the development chamber 24 are connected by a first intermediate conveyor 30 and one side of the development chamber 24 and the incubation chamber 26 is connected to a second intermediate conveyor 32 And one side of the stabilization chamber 28 and the sub flushing chamber 26 are connected by a third intermediate conveyor 34. [

The hatchery 20 is equipped with an automated unmanned control system and performs 365 days of biosecurity. In addition, an underground piping is provided between an unillustrated air conditioning room, a development room 24, and a stabilization chamber 28 to process temperature, humidity, and oxygen concentration in an optimal state in the air conditioning room, The incubation chamber 26, and the stabilization chamber 28, respectively.

A plurality of strands 40 in which a plurality of seed eggs E are stacked are received by the first intermediary conveyor 30 and stacked vertically and spaced at a predetermined interval in the egg chamber 24, A plurality of breeders 50 are installed which are circularly moved in one direction at regular intervals for one day along a rail 42 provided at the bottom of the development chamber 24 and for developing a seed egg E deposited on the stairs 40 for 18 days. .

A plurality of strands 40 in an incubator 50 arriving in the incubation room 26 are supplied to the incubation room 26 by the second intermediary conveyor 32 every day on the eighteenth day of the plurality of the incubators 50 A incubation cage slat 60 for feeding water, feed, and fresh air to the incubated chicks as the eggs (E) incubated in the stagnant (40) are incubated for 3 days.

In the stabilization chamber 28, the chicks were supplied in order from the incubation room 26 to the aged chicks per day, and grown for 9 days in a vaccine, forced movement and healthy chicks adapted to a temperature of 16 to 24 ° C. A stable cage slat (62) is provided to separate the male and female when moved into the breeding cage.

The bollard compartment 22 is provided with a plurality of bollocks E collected from a scattering yarn (not shown) in the bollard compartment 22 to be sterilized, vaccinated, And is automatically received by the first intermediary conveyor 30 in the breeder 50. The interior of the breeder 50 is provided with a cleaning facility, a disinfecting device, a vaccination and a screening facility, which are not shown.

In addition, since the time for incubation of the chicks is determined according to the size, storage period and condition of the eggs, the age and health condition of the laying hens in the egg chamber 22, the egg yolk (E) A plurality of streaks 40 are divided into a plurality of streaks 40 by a predetermined size, and then the streaks are stacked vertically and spaced at the same time in the developing machine 50 so as to be simultaneously accommodated.

The first intermediate conveyor 30 and the second intermediate conveyor 32 are moved upward and downward in accordance with a control signal programmed so that a plurality of stairs 40 are vertically spaced up and down within the developing machine 50 And is rotated while being adjusted.

At this time, the stowaway 40 is made of a disposable paper material, and a plurality of circular holes are formed at regular intervals in the up and down and left and right directions in a plan view so that a plurality of bollocks E can be seated.

As shown in FIG. 2, the rail 42 includes a central worker's moving space 24a in which the plurality of breeders 50 are circularly moved in one direction at regular intervals during a day for 18 days, And it is installed in a rectangular shape on the edge.

As shown in FIG. 3, the plurality of growers 50 may be arranged so that the accommodation space is maintained at a temperature of 38 to 39 DEG C and a relative humidity of 60 to 70% for 18 days, A substrate 53 provided vertically movably up and down on both inner side walls of the opening of the frame 52; a servo actuator 54 provided on the substrate 53; A plurality of main rollers 55 provided at regular intervals in the vertical direction on both inner side walls of the openings of the frame 52 and rotated when the servo actuators 54 are individually connected to each other, A plurality of conveying rollers 56 provided on the inner sidewall at regular intervals in the horizontal direction at the same height as the plurality of main rollers 55 and a plurality of conveying rollers 56 disposed on the main rollers 55 and the conveying rollers 56, E) is placed horizontally in or out, A plurality of chains 57 for connecting and rotating a plurality of conveyance rollers 56 and main rollers 55 for each of the rollers 56 and the main rollers 55 at the same time, A positioning spiral shaft 58 fixed at one side and a servo actuator 54 installed at a lower portion of the frame 52 to vertically move the positioning spiral shaft 58 to move the substrate 53 up and down A speed reducing motor 59 selectively connected to the main roller 55 and an accelerator 50 provided on an outer bottom surface of the frame 52 along a rail 42 provided at the bottom of the development chamber 24 And a wheel feeding means 70 driven in accordance with a control signal programmed to be circularly moved.

At this time, LED lamps are installed at one side of the frame 52 at regular intervals from the stairs 40 so as to illuminate the seed E through the lower part of the circular holes of the plurality of stairs 40.

The servo actuator 54 and the plurality of main rollers 55 are configured to be connected or separated by a gear or a clutch.

4, the wheel conveying means 70 is supported on the outer bottom surface of the frame 52 via a hydraulic support shaft 71 which is vertically operated in accordance with a control signal programmed, A pair of front and rear wheels 72a, 72b, 73a, 73b arranged at regular intervals in a rectangular shape so as to be in rolling contact with the front and rear wheels 42, A pair of front and rear wheels 72a and 72b are gear-fitted to one side of a pair of left and right first and second wheels 72a, 72b, 73a and 73b via a drive shaft 74, And a plurality of moving motors 75 for driving the left and right pair of second wheels 73a and 73b, respectively.

The following describes the operation and effects of the chick artificial incubation system constructed as described above.

The chick artificial incubation automation system of the present invention is characterized in that a plurality of strands 40 in which a plurality of eggs E are embedded in the egg chamber 22 are guided by the first intermediary conveyor 30, A plurality of main rollers 55 and a plurality of feed rollers 56 are mounted on the upper and lower sides of the main rollers 55 and the transfer rollers 56, (70) is driven according to the programmed control signal, a plurality of breeders (50) are cyclically moved in one direction at regular intervals for a day for 18 days along the rails (42) provided at the bottom of the breeding room (24) (E) in the stratum corneum (40) for 18 days while maintaining the internal temperature of the reactor (50) at 38 to 39 캜 and the relative humidity of 60 to 70%.

That is, a pair of front and rear left and right wheels 72a, 72b, 73a and 73b provided on the outer bottom surface of the multipliers 50 via the hydraulic support shaft 71, respectively, The first and second wheels 72a and 72b and 73a and 73b are rotated while receiving the rotational force of the driving shaft 74 connected to the moving motor 75. Then, Rearward and leftward along the rails 42 which are brought into contact with each other so as to be driven in a driving motion.

At this time, when the pair of front and rear wheels 72a and 72b come into contact with the lateral side of the rail 42, the forward and rearward wheels 72a and 72b are rotated according to the driving of the moving motor 75 to advance the generator 50 to one direction And the pair of right and left second wheels 73a and 73b are rotated in accordance with the driving of the moving motor 75 when they come into contact with the longitudinal side of the rail 42 to advance the generator 50 to be circulated in one direction.

When a pair of front and rear wheels 72a and 72b arrive at the entrance of the horizontal rail 42, the pair of front wheels 72a and 72b are moved downward by a downward movement of the hydraulic support shaft 71 And is moved along the rail 42 while being rotated via the drive shaft 74 in accordance with the driving of the moving motor 75. The left and right pair of second wheels 73a 73b are lifted up to a height of 1-2 cm by the upward action of the hydraulic pressure supporting shaft 71 so as not to come into contact with the rail 42 and the driving of the moving motor 75 connected thereto is stopped so as not to be rotated.

In contrast, when the left and right pair of second wheels 73a and 73b arrive at the initial entry of the longitudinal rail 42, the left and right pair of second wheels 73a and 73b are moved in the downward movement of the hydraulic support shaft 71 And is moved along the rail 42 while being rotated via the drive shaft 74 in accordance with the driving of the moving motor 75. The pair of front wheels 72a and 72b Is elevated to a height of 1-2 cm by the upward action of the hydraulic pressure supporting shaft 71 so as not to come into contact with the rail 42 and the driving of the moving motor 75 connected thereto is stopped so as not to be rotated.

On the other hand, the multipliers 50 are circularly moved in one direction along the rails 42 and arrive at the entrance side of the incubation room 26 every day after the 18th day. In accordance with the programmed control signal, A plurality of strands 40 accommodated in the frame 52 are automatically opened and received by the second intermediary conveyor 32 into the incubation cage slats 60 provided inside the incubation room 26 .

That is, when the decelerating motor 59 provided in the developing machine 50 is driven in accordance with the programmed control signal, the positioning screw shaft 58 connected to the decelerating motor 59 is rotated, 53 are mounted on one side of the substrate 53 when the substrates 53 are successively stacked with the main rollers 55 provided at regular intervals on the upper and lower sides of the substrate 53, The main roller 55 is rotated while the main roller 54 is driven.

The main rollers 55 are connected to the servo actuators 54 through the chains 57 by a plurality of conveying rollers 56. The main rollers 55 are connected to the chain 57, The main rollers 55 rotating in this manner and the stairs 40 mounted on the plurality of conveying rollers 56 are delivered to the outside of the developing machine 50 and at the same time the second intermediate conveyor 32 And is received in any one of a plurality of incubation cage slats 60 installed inside the incubation chamber 26. [

The incubation cage slat 60 is supplied from the developing unit 50 to the stomach 40 to form a space for hatching the hatching E developed in the hatching 40 for 3 days, The stable cage slat 62 inside the stabilizing chamber 28 is taken by the third intermediary conveyor 34. The stabilized cage slat 62 is then transferred to the stabilizing cage slat 62, .

At this time, the chicks hatching from the incubation cage slat (60) are hatched and immediately receive water and feed, and receive fresh air, and are provided with conditions corresponding to the natural environment by the dimming LED light. And the development of digestive organs and immune organs is greatly influenced by the promotion of growth.

The incubated sickle from the incubation cage slat 60 is transferred to the stable cage slat 62 in the stabilization chamber 28 by the third intermediate conveyor 34 and is then subjected to vaccination, Lt; RTI ID = 0.0 > C < / RTI > temperature and passed through a revolving door installed at the end of the stable cage slat 62 to be transferred to the breeding cage.

Therefore, in the chick artificial incubation automation system of the present invention, the seed egg (E) placed in the stratum corneum (40) in the egg chamber (22) is cooled by the first intermediary conveyor (30) at a temperature of 35-39 ° C and a relative humidity of 50-70 % On the 18th day and the developing device 50 is developed inside the developing chamber 50 which is moved slowly along the rail 42 for 18 days after the automatic growing of the developing device 50 And is received in the plurality of incubation cage slats 60 installed inside the incubation room 26 under the guidance of the standby second intermediary conveyor 32, (E) are hatched into chicks within 3 days, and at the same time they are transferred to stable cage slats (62) in the stabilization chamber (28) in the order of chicks at the same time, and at the same time they are vaccinated for 9 days, And then transferred to a stable cage slat 62 to be transferred to a breeding cage, As they pass through the revolving door is installed on the end that is configured so that the male and female are separated.

The use of the chick artificial incubation automation system of the present invention has the following effects.

1. Conveniently, the flat seat 40 on which the seed E is placed by the automatic apparatus is directly put into the grower 50.

2. The incubator has an automatic facility for the developer 50 to move along the rail 42, thereby providing the necessary equipment for the incubator (hatching equipment) and the installation site, the cargo and storage warehouse, the stagnant washing facility, Manual work is omitted, installation cost and labor are greatly reduced.

3. It is possible to prevent dehydration and weakening of immunity by eating clear air, water and feed at the same time as chick hatching at hatching cage slat (60), mass production of healthy chicks adapted to natural environment more than 3 days This can dramatically lower the price of chickens, hatching from the smallest size of the egg (E), and hatching the big one late. Therefore, by sorting by hatching age, chicks are naturally sorted by size, and feed efficiency is high and the mortality rate is low.

4. The chicks hatched in the incubation cage slat 60 are transported to the stabilization chamber 28 by the second intermediary conveyor 32 in a state of limited contact with a person and are raised so that chick transportation costs and labor are not generated, It is not exposed to various infectious diseases.

6. There is no wastewater generation due to the prevention of disease and stagnant (40) washing by using fermentation treatment after the use of disposable paper material (40).

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. You must see.

E: Bran 20: Hatchery
22: nest chamber 24: development chamber
24a: worker moving space 26:
28: Stable chamber 30: First conveyor
32: second intermediate conveyor 34: third intermediate conveyor
40: Steeple 42: rail
50: Grower 51: Entrance
52: frame 53: substrate
54: Servo actuator 55: Main roller
56: Feed roller 57: Chain
58: positioning spiral shaft 59: deceleration motor
60: Batch cage slat 62: Stable cage slat
70: wheel conveying means 71: hydraulic support shaft
72a, 72b: first wheels 73a, 73b: second wheels
74: drive shaft 75: moving motor

Claims

The hatchery 20 is divided into a cramp chamber 22, a development chamber 24, a shedding chamber 26 and a stabilization chamber 28. One side of the cramp chamber 22 and the development chamber 24 is divided into a first medium And one side of the incubation chamber 24 and the incubation chamber 26 are connected by a second intermediary conveyor 32 and the other side of the incubation chamber 26 and the stabilization chamber 28 are connected by a conveyor 30, One side is connected by a third intermediate conveyor 34,
A plurality of strands 40 in which a plurality of seed eggs E are piled up are supplied to the development chamber 24 by the first intermediary conveyor 30 and are stacked at a predetermined interval A plurality of breeders 50 for growing the eggs E in the stagnant region 40 for a period of 18 days while being circulated in one direction at regular intervals for one day along the rails 42 provided on the bottom of the post- Installed,
A plurality of strands 40 in an incubator 50 arriving in the incubation room 26 are supplied to the incubation room 26 by the second intermediary conveyor 32 every day on the eighteenth day of the plurality of the incubators 50 A hatching slat 60 for feeding water, feed, and fresh air to the hatching chicks with hatching (E) enriched in the hatching 40 for 3 days is installed,
In the stabilization chamber 28, the chicks were supplied in the order of the aged chicks hatched in the incubation room 26. The chicks were incubated for 9 days, forced movement, and healthy chicks adapted to the temperature of 16 to 24 ° C. And a stable cage slat (62) for separating male and female at the time of transfer is provided.

The method according to claim 1,
Wherein the plurality of circular holes are formed at regular intervals in the vertical and horizontal directions with respect to the plane so that the plurality of seeds (E) are seated.

The method according to claim 1,
The rails 42 are installed in a rectangular shape at the edges with the center worker moving space 22a of the development chamber 24 interposed therebetween such that the plurality of the growers 50 are circulated in one direction at regular intervals during a day for 18 days Wherein the chick artificial incubation automation system comprises:

The method according to claim 1,
The plurality of developing machines 50 includes a frame 52 provided with a door 51 so that the plurality of stairs 40 are loaded and unloaded in the accommodating space and a frame 52 vertically and vertically A servo actuator 54 mounted on the substrate 53 and a servo actuator 54 mounted on the inner side wall of the frame 52 at regular intervals in the vertical direction and fixed to the servo actuator 54 A plurality of main rollers 55 rotated when they are individually connected to the frame 52 and a plurality of main rollers 55 installed on both inner side walls of the frame 52 at regular intervals in the horizontal direction A plurality of conveying rollers 56 and a plurality of conveying rollers 56 and a plurality of conveying rollers 56 are provided so as to horizontally draw or pull out the stairs 40 on which the bank E is placed on the main rollers 55 and the conveying rollers 56, A plurality of main rollers 55, A positioning spiral shaft 58 fixed to one side of the substrate 53 while being rotatably supported via upper and lower ends of the opening of the frame 52, A decelerating motor 59 for selectively rotating the servo actuator 54 in association with the main roller 55 when the substrate 53 is moved up and down by rotating the positioning spiral shaft 58 in the forward and reverse directions, And a wheel transfer means (70) installed on an outer bottom surface of the development chamber (24) for driving the developing device (50) to circulate along a rail (42) provided at the bottom of the development chamber (24) .

The method according to claim 1,
Wherein the accommodating space of the plurality of breeders (50) is maintained at a temperature of 35 to 39 DEG C and a relative humidity of 50 to 70% for 18 days.

The method of claim 4,
The wheel conveying means 70 is supported on the outer bottom surface of the frame 52 via a hydraulic support shaft 71 which is vertically movable and rotatably engaged with the rails 42, A pair of front and rear wheels 72a, 72b, 73a and 73b arranged at intervals and a pair of left and right front and rear wheels 72a and 72b A pair of front and rear wheels 72a and 72b and a pair of left and right wheels 73a and 73b are meshed with one another via a drive shaft 74 on one side of the left and right wheels 73a and 73b, And a plurality of moving motors (75) for driving the chick artificial incubators.