CN108401945B

CN108401945B - Illumination device for octagonal incubator and working method thereof

Info

Publication number: CN108401945B
Application number: CN201810310068.8A
Authority: CN
Inventors: 陈哲; 于建宁; 陈蓉
Original assignee: Jiangsu Academy of Agricultural Sciences
Current assignee: Jiangsu Academy of Agricultural Sciences
Priority date: 2018-04-09
Filing date: 2018-04-09
Publication date: 2023-07-14
Anticipated expiration: 2038-04-09
Also published as: CN108401945A

Abstract

The invention provides an illumination device for an octagonal incubator and a working method thereof, wherein the incubator comprises an incubator box body and an egg rack, the egg rack is arranged in the incubator box body and comprises a rotating shaft and a plurality of egg tray supports which are arranged on the rotating shaft at intervals from left to right; the illumination device comprises a rotating motor, a supporting frame and a plurality of extending brackets, wherein a lamp belt is arranged on each extending bracket, and an extending bracket is arranged between every two adjacent egg support brackets; the rotating motor is electrified by a reversing switch, and is powered off by a travel switch, the lamp belt is powered on and off by a timing switch, and the reversing switch and the travel switch are arranged on the inner side of the top wall of the incubator box. The lamp belt rotates along with the rotation of the egg rack, so that all eggs are guaranteed to receive illumination, and the illumination period is controllable. The illumination device does not influence the flow field in the incubator and the rotation of the egg rack in the incubator.

Description

Illumination device for octagonal incubator and working method thereof

Technical Field

The invention relates to the technical field of poultry egg hatching, in particular to an illumination device for an octagonal hatching machine.

Background

At present, the hatching technology of chicken and duck hatching eggs is mature, the hatching effect of goose hatching eggs is uncertain, the hatching rate of live embryos in most hatcheries is about 85%, weak seedlings are more, and if the hatching rate of live embryos is more than 90% in terms of the performance of chicken and duck hatching eggs, the healthy seedling rate is high, and young seedlings are generally healthy. The hatching technology of goose hatching eggs has higher requirements, the difference between the hatching conditions of the hatching eggs of chickens and ducks needs to be further explored, the hatching conditions of the goose hatching eggs are optimized, the weight of young chickens is increased by improving embryo development, meanwhile, the hatching rate is improved, and finally, the hatching benefit of the goose hatching eggs is improved. The improvement of the structure of the hatching machine is an important condition for improving the hatching effect, the most widely used hatching of goose hatching eggs is an octagonal hatching machine at present, the hatching effect is superior to other types of hatching machines, and how to further improve the hatching performance on the basis of the octagonal hatching machine is a focus of attention of the whole industry.

In commercial hatcheries, the hatching process of goose hatching eggs is generally carried out under a dark condition, and researchers apply light stimulation during hatching periods of broiler breeder, white legged, turkey and quail hatching eggs, so that the light stimulation can increase the daily gain of embryos. The increase of the light in the early period of hatching can improve the daily gain of the white-legged and the embryo of the Yi Sha He embryo, and has remarkable promotion effect on the daily gain and the chick hatching rate of the embryo of the Yishabrown chicken with larger egg weight. Light stimulation is carried out in the later incubation period, the pectoral muscle weight is increased when the chicks are out of the shells, the egg yolk residue of the chicks added with light in the whole incubation period is reduced after the chicks are out of the shells, and the ratio of the out-shell weight to the egg weight is increased. The illumination is added to Japanese quail hatching eggs in both the storage period and the hatching period, so that the shell-out weight of the chicks can be obviously increased compared with the illumination added only in the hatching period, and further researches also find that the effect of adding monochromatic green light is more obvious.

However, after the experimental conditions are placed in a large incubator, the obtained incubation effect is unstable, and the root cause is that in the existing experiment, illumination facilities in the incubator are all researcher's design schemes from time to time, and the incubator has no unified installation standard and no related illumination facilities suitable for the octagonal incubator. .

The existing hatching process lacks the industry standard of illumination conditions, an incandescent lamp is generally arranged at the top corner of a box body for observing the hatching period, and the temperature and humidity control, egg rack overturning and other limitations are faced in the hatching process, so that the lighting facility is more in installation attention matters. The Chinese patent 2013103260909 discloses an intelligent egg living embryo hatching system, which is implemented by applying light to hatching, wherein a red light energy-saving lamp is arranged at the top end inside a hatching machine, and stable light stimulation is provided in the whole hatching period, but the mounting mode ensures that light cannot irradiate all hatching eggs in a hatching box, only plays a role in promoting upper-layer hatching eggs, maintains constant light intensity in the hatching period, and does not intermittently give light, so that the effect is worth of a commercial value. The egg rack in the octagonal incubator reaches 13 layers, and the egg layers are closely spaced, so that the difficulty of uniformly receiving illumination on each layer is high. And the egg trays can be assembled and disassembled for egg detection for many times during hatching, so that the light arrangement cannot prevent the egg trays from being assembled and disassembled. Meanwhile, the egg rack is turned over once every certain time (60-120 min), and the illumination effect of the lamplight is not affected by the turning over of the egg rack.

Disclosure of Invention

In order to solve the problems, the invention provides an illumination device for an octagonal incubator and a working method thereof, wherein the installation angle is adjustable, the time is controllable, the height is adjustable, and the accurate control and reasonable application of illumination in the incubator are realized.

In order to solve the technical problems, the embodiment of the invention provides an illumination device for an octagonal incubator, the incubator comprises an incubator box and an egg rack, the egg rack is arranged in the incubator box and comprises a rotating shaft and a plurality of egg tray supports which are arranged on the rotating shaft at intervals from left to right, a plurality of egg tray support sheets are arranged on the egg tray supports at intervals from bottom to top, egg tray supports are positioned on the corresponding egg tray support sheets between two adjacent egg tray supports, front angles and rear angles of the upper end and the lower end of the egg tray supports are oblique angles, two ends of the rotating shaft are positioned on the left side wall and the right side wall of the incubator box through bearing supports, and one end of the rotating shaft is connected with a driving motor after extending out from the incubator box;

the illumination device comprises a reversing switch, a travel switch, a gear motor, a timing switch, a support frame and a plurality of extension brackets, wherein a lamp belt is arranged on each extension bracket, an extension bracket is arranged between every two adjacent egg support brackets, the plurality of extension brackets are arranged in a staggered extending way from the support frame forwards and backwards, the gear motor is fixedly arranged on the inner side of the top wall of the incubator box, and the support frame extending along the left-right direction is arranged on the inner side of the top wall of the incubator box above the egg rack through bearing supports at two ends of the support frame;

the gear motor is powered on by a reversing switch and powered off by a travel switch;

the lamp strip is connected in series with the timing switch and is controlled by the timing switch to be powered on and powered off;

the egg rack is driven by a rotating shaft to forward overturn for 60-65 degrees, backward overturn for 120-130 degrees after maintaining for 60-120 min, forward overturn for 120-130 degrees after maintaining for 60-120 min, and cyclic reciprocation;

and the reversing switch is initially closed every time the egg rack is turned over.

Preferably, the alpha is 25-30 degrees, and the beta is 60-65 degrees.

Wherein fans are arranged on the left side wall and the right side wall of the incubator box body.

Preferably, the driving motor and the speed reducing motor are both forward and reverse motors.

Preferably, the light strip is a white, red, green or blue light strip.

The reversing switch comprises a switch body, a forward tentacle and a reverse tentacle, the reversing switch comprises a switch body and a handle, the reversing switch is fixedly arranged on the inner side of the top wall of the incubator box body, the handle extends downwards to the upper end of the egg rack, the egg rack is turned forward to turn over the initial forward toggle handle, and is turned backward to turn over the initial reverse toggle handle to close the reversing switch, so that the outlet mode of the reversing switch is changed.

Further, the top of the egg rack is provided with a front cross beam and a rear cross beam, the front cross beam and the rear cross beam are communicated with bevel angle ends on the top ends of the egg support brackets, the egg rack forwards and forwards overturns the initial front cross beam toggle handle, and backwards and reversely overturns the initial rear cross beam toggle handle.

The travel switch is arranged on the inner side of the top wall of the incubator box body, and the support frame is provided with a forward rotating contact and a reverse rotating contact.

The invention also provides a working method of the illumination device for the octagonal incubator, which comprises the following steps:

(1) The driving motor drives the egg rack to start to forward turn by 60-65 degrees through the rotating shaft, the egg rack forward turns the initial front cross beam to toggle the handle to close the reversing switch, the reducing motor is electrified, the reducing motor drives the supporting frame to drive the plurality of extending brackets to rotate, the supporting frame rotates forward by 25-30 degrees to the forward contact travel switch, the reducing motor is powered off, the supporting frame stops rotating forward, the plurality of extending brackets extend forward and backward obliquely in a staggered manner, the lamp belt maintains the position after forward rotation to provide illumination for eggs, and the timing switch controls the illumination period;

(2) The egg rack is kept to incline forward by 60-65 degrees for 60-120 min and then reversely overturned backward by 120-130 degrees, the handle is turned to close the reversing switch by the beam after the initial reverse overturning of the egg rack, the speed reducing motor is electrified to reverse the speed reducing motor, the support frame reversely rotates by 25-30 degrees to the reverse contact travel switch to power off the speed reducing motor, the support frame stops reversely rotating, the plurality of extending supports alternately extend forwards and backwards and forwards obliquely and downwards obliquely, the lamp belt maintains the reversed position to provide illumination for eggs, and the illumination period is controlled by the timing switch;

(3) The egg rack is kept to incline by 60-65 degrees backwards for 60-120 min, then is turned forwards and overturned to incline by 60-65 degrees forwards, and the steps are repeated and repeated.

The technical scheme of the invention has the following beneficial effects:

1. the lamp belt rotates along with the rotation of the egg rack, so that all eggs are guaranteed to receive illumination, and the illumination period is controllable.

2. The illumination device does not influence the flow field in the incubator and the rotation of the egg rack in the incubator.

3. The illumination device of the invention is easy to install.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1;

fig. 3 is a schematic diagram of the egg rack of the invention after being turned forward by 65 degrees;

fig. 4 is a schematic diagram of the egg rack of the present invention after reverse overturning by 65 degrees;

fig. 5 is a schematic diagram of the reduction motor according to the present invention.

Reference numerals illustrate:

1. a incubator box; 2. an egg rack; 20. a rotation shaft; 21. an egg support bracket; 22. egg supporting pieces; 3. Egg holders; 4. a speed reducing motor; 5. a support frame; 6. an extension bracket; 7. a reversing switch; 8. a timing switch; 9. a fan; 10. and a travel switch.

Detailed Description

In order to make the technical problems, technical solutions and advantages to be solved more apparent, the following detailed description will be given with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 and 2, the embodiment of the invention provides an illumination device for an octagonal incubator, the incubator comprises an incubator body 1 and an egg rack 2, the egg rack 2 is arranged in the incubator body 1, the egg rack 2 comprises a rotating shaft 20 and a plurality of egg tray supports 21 which are arranged on the rotating shaft 20 from left to right at intervals. Because the egg rack can be turned back and forth in the hatching process, the front side and the rear side of the upper end and the lower end of the egg rack are made into inclined patterns, and the success of turning can be ensured.

The two ends of the rotating shaft 20 are supported and positioned on the left side wall and the right side wall of the incubator box 1 through bearings, and one end of the rotating shaft 20 extends out of the incubator box 1 and is connected with a driving motor.

Fans 9 are arranged on the left side wall and the right side wall of the incubator box 1. The fans are arranged at the left side and the right side of the egg rack, the wind field is not influenced by the overturning of the egg rack, and the cooling effect can be ensured.

The illumination device comprises a reversing switch 7, a travel switch 10, a gear motor 4, a timing switch 8, a supporting frame 5 and a plurality of extending supports 6, wherein a lamp strip is arranged on each extending support 6, and is white, red, green or blue, and preferably green. The projection length of the extension bracket 6 in the horizontal direction is not more than the distance from the horizontal direction of the support frame to the front end or the rear end of the incubator body.

An extending bracket 6 is arranged between every two adjacent egg supporting brackets 21, and a plurality of extending brackets 6 are arranged in a staggered way in a way of extending forwards and backwards from the supporting frame, and can be designed as follows: the installation is initially, the extending bracket 6 which is arranged forwards from the supporting frame 5 extends obliquely downwards forwards and has an included angle beta with the supporting frame 5, the extending bracket 6 which is arranged backwards from the supporting frame 5 extends obliquely downwards backwards and has an included angle alpha with the supporting frame 5, and the alpha is 0-30 degrees, preferably 0 degrees. The beta is 0-30 degrees, preferably 25 degrees. It is worth explaining: the range and combination of the values of α and β are not limited to the above, and may be adjusted according to the actual installation position and size.

The gear motor 4 is fixedly arranged on the inner side of the top wall of the incubator box 1 (the shell of the gear motor is fixedly connected with the top wall of the incubator box), and the supporting frame 5 extending along the left-right direction is arranged on the inner side of the top wall of the incubator box 1 above the egg rack 2 through bearing supports at two ends of the supporting frame.

The reversing switch 7 and the travel switch 10 are respectively connected with the gear motor 4 in series, the gear motor 4 is controlled to be electrified by the reversing switch 7, and the travel switch 10 is controlled to be powered off, so that the wiring diagram is shown in fig. 5. The egg rack 2 is driven by a rotating shaft to forward overturn for 60-65 degrees (shown in fig. 3), backward overturn for 120-130 degrees after 60-120 min, forward overturn for 120-130 degrees after 60-120 min, and cyclic reciprocation. And when the egg rack 2 turns over, the reversing switch 7 is initially closed, and a speed reducing motor is started. In this embodiment, the reversing switch 7 includes a switch body and a handle, the reversing switch 7 is fixedly arranged on the inner side of the top wall of the incubator box 1, the handle extends downwards to the upper end of the egg rack 2, and the egg rack 2 turns over the reversing switch twice in a turning period through forward turning over initial forward turning over the handle and backward turning over initial backward turning over the handle, so that the outgoing line mode of the reversing switch is changed, and the gear motor is enabled to turn forward and backward. The top of the egg rack 2 is provided with a front cross beam and a rear cross beam, the front cross beam and the rear cross beam are communicated with bevel angle ends on the top ends of a plurality of egg support brackets 21, the egg rack 2 forwards and forwards overturns the initial front cross beam toggle handle, and backwards and reversely overturns the initial rear cross beam toggle handle. The travel switch 10 is arranged on the inner side of the top wall of the incubator box 1, and the support frame 5 is provided with a forward contact and a reverse contact.

The speed reducing motor in the embodiment is a small-sized forward and reverse rotating motor, can be directly purchased in the market, and can be selected from 6W-140W according to actual needs. The type of the reversible switch is not limited, and in principle, any reversible switch sold in the market can be used as long as the reversible switch is sized to be mounted on the inner side of the top wall of the incubator box, and the handle can be turned over by the egg rack for initial stirring. The choice of the travel switch is not limited, and in principle any commercially available travel switch can be used, provided that it is sized to be mounted inside the top wall of the incubator cabinet. If the travel switch is not easy to select or install, a commercially available conventional timing switch can be used for controlling the power-off of the gear motor. When the gear motor, the reversing switch and the travel switch are connected, wiring is carried out according to respective specifications, and the gear motor, the reversing switch and the travel switch are conventional technology in the electrical field, so that the description is omitted in the embodiment.

The lamp strip is connected in series with the timing switch 8 and is controlled to be powered on and powered off by the timing switch 8. The timing switch in the structure is a conventional timing switch, and the instruction book for installing the timing switch is used for circuit wiring.

In this embodiment, the driving motor and the gear motor 4 are both forward and reverse motors.

The working method of the illumination device for the octagonal incubator comprises the following steps: the driving motor drives the egg rack to turn forward (the upper end forwards and the lower end backwards) by 65 degrees through the rotating shaft, the egg rack forward turns over the initial front cross beam and toggles the handle to close the reversing switch, the reducing motor is electrified, the reducing motor drives the supporting frame to drive the plurality of extending brackets to rotate, the supporting frame rotates forward by 25 degrees to the forward contact to contact with the travel switch, the reducing motor is powered off, the supporting frame stops rotating forward, the plurality of extending brackets extend forward and backward obliquely (as shown in fig. 3) in a staggered manner, the lamp strip maintains the position after forward rotation to provide illumination for eggs, and the timing switch controls the illumination period.

The egg rack is reversely turned backwards by 120-130 degrees after being inclined forwards by 65 degrees for 60-120 min, the handle is turned on by the beam after the initial reverse turning of the egg rack, the reversing switch is turned on for powering on the gear motor, the gear motor is reversed, the support frame reversely rotates by 25 degrees to the reverse contact travel switch, the gear motor is powered off, the support frame stops reversely rotating, the plurality of extending supports alternately extend forwards and backwards and downwards obliquely (as shown in fig. 4), the lamp strip maintains the reversed position to provide illumination for eggs, and the illumination period is controlled by the timing switch.

The egg rack is kept inclined by 65 degrees backwards for 60-120 min, then is turned forwards and forwards to be inclined by 65 degrees forwards, and the steps are repeated and repeated.

While the foregoing is directed to the preferred embodiments of the present invention, it will be appreciated by those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present invention, and such modifications and adaptations are intended to be comprehended within the scope of the present invention.

Claims

1. The utility model provides an illumination device for octagonal incubator, the incubator includes incubator box and egg frame, egg frame is in incubator box, its characterized in that, egg frame includes rotation axis and from left to right interval sets up the multi-disc egg of rotation axis and holds in the palm the support, hold in the palm the support from down to the interval on being provided with a plurality of egg support piece, egg support position on two adjacent egg support corresponding egg support piece between the support, the front and back angle of the upper and lower end of egg support is the oblique angle, the both ends of rotation axis pass through the bearing support position on the left and right lateral wall of incubator box, the one end of rotation axis is from the incubator box stretch out the back and link to each other with driving motor;

the egg rack is driven by a rotating shaft to forward and forward turn for 60-65 degrees, and is kept for 60-120 min and then backward and backward turned for 120-130 degrees, and is kept for 60-120 min and then forward and forward turned for 120-130 degrees, and the egg rack is circularly reciprocated;

the reversing switch is initially closed every time the egg rack is turned over;

the reversing switch comprises a switch body and a handle, the reversing switch is fixedly arranged on the inner side of the top wall of the incubator box body, the handle extends downwards to the upper end of the egg rack, and the egg rack is closed by forward turning of the initial forward toggle handle and backward reverse turning of the initial reverse toggle handle, so that the wire outlet mode of the reversing switch is changed;

the top end of the egg rack is provided with a front cross beam and a rear cross beam, the front cross beam and the rear cross beam are communicated with bevel angle ends on the top ends of a plurality of egg tray supports, the egg rack forwards and forwards overturns the initial front cross beam toggle handle, and backwards and reversely overturns the initial rear cross beam toggle handle;

2. The illumination device for an octagonal incubator of claim 1, wherein fans are arranged on the left and right side walls of the incubator body.

3. The illumination device for an octagonal incubator of claim 1, wherein the driving motor and the speed reducing motor are both forward and reverse motors.

4. The illumination device for an octagonal incubator of claim 1, wherein the light strip is a white, red, green or blue light strip.

5. A method of operating the illumination device for an octagonal incubator as claimed in any one of claims 1 to 4, comprising the steps of:

(1) The driving motor drives the egg rack to turn forward for 60-65 degrees through the rotating shaft, the initial front cross beam of the egg rack to turn forward toggles the handle to close the reversing switch, the reducing motor is electrified, the reducing motor drives the supporting frame to drive the plurality of extending brackets to rotate, the supporting frame rotates forward for 25-30 degrees until the forward contact contacts the travel switch, the reducing motor is powered off, the supporting frame stops rotating forward, the plurality of extending brackets alternately extend forward, backward and downward obliquely, the lamp strip maintains the position after forward rotation to provide illumination for eggs, and the timing switch controls the illumination period;

(2) The egg rack is kept to incline forward by 60-65 degrees for 60-120 min and then reversely overturned backwards by 120-130 degrees, the initial rear cross beam of the egg rack which reversely overturns toggles the handle to close the reversing switch, the speed reducing motor is electrified to reverse the speed reducing motor, the support frame reversely rotates by 25-30 degrees to the reverse contact travel switch to power off the speed reducing motor, the support frame stops reversely rotating, the plurality of extending supports alternately extend forwards and backwards and downwards obliquely, the lamp strip keeps the reversed position to provide illumination for eggs, and the timing switch controls the illumination period;

(3) The egg rack is kept to incline backwards by 60-65 degrees for 60-120 min, then is turned forwards and forwards to incline forwards by 60-65 degrees, and the steps are repeated and repeated.