KR101969453B1 - Artificial Incubator Rolling Device - Google Patents

Abstract

The present invention relates to an egg turning device, which is installed in an incubation chamber space (11) of an incubator in which the incubation chamber space (11) and a driving chamber space (22) are divided by a back plate (33). The egg turning device of the present invention comprises: a support plate (110) vertically disposed at both left and right sides of an incubation chamber space (11); a guide shelf (120) having both left and right ends placed on the support plate (110) to be horizontally installed in the incubation chamber space (11); a transfer tray (130) which is a square-shaped structure formed with an empty space in a central part, installed on an upper surface of the guide shaft (120), and having a plurality of guide grooves (131) at front and rear end parts thereof; and a plurality of guide bars (140) placed on the guide grooves (131) of the transfer tray (130), arranged in a forward and backward direction to cross the empty space of the central part of the transfer tray (130), and loading a fertilized egg. The guide bars (140) are placed on the different guide grooves (131) in accordance with the size of the fertilized egg to adjust an installation interval of the guide bars (140).

Description

{Artificial Incubator Rolling Device}

The present invention relates to an incubator egg plant which periodically rotates an embryo of an incubator so that air flow (convection) is smooth, the size can be adjusted according to the size of embryo, Is installed.

Embryo in hatching is a kind of living organism that causes cell division. Therefore, the amount of oxygen in the same condition as the natural condition is required in the incubator, the proper temperature and humidity should be maintained, and eggs should be rolled at a constant angle at a constant cycle.

When the embryo is placed on a flat surface, the egg components serve as a buffer to protect the egg yolk that is nourished during the hatching process, the embryo floating on the upper part of the whiteness, the yolk, and the embryo (a cell that actually develops by cell division) Egg whites, whites, and egg shells that envelop these components.

It is the point where the embryo floating on the whiteness is positioned where the egg is kept in the natural state and the eggs are kept in the half egg while maintaining the proper temperature and humidity for each kind of algae.

In other words, the temperature and humidity transferred to the embryo are kept constant, and the embryo and the egg are replaced with each other at regular intervals to prevent the embryo from being pressed.

In order to reproduce such hatching conditions in natural state, it is necessary to maintain the constant temperature and humidity even in the case of the artificial incubator, and to rotate the eggs at a constant angle for a certain period of time. In most of the incubation period, The speed is too fast, the speed is not controlled properly, and the drive is located inside the incubation chamber.

Therefore, the hatching rate is lowered due to the stress of the embryo, the hatching of the hatchlings frequently occurs between the roller and the shelf, the air flow inside the incubation chamber is not smooth due to the shear device, There is a problem in that replacement or repair of the drive device is troublesome.

[Prior Art Literature]

Published Japanese Patent Application No. 10-2016-0003416

Registration No. 10-0714495

In order to solve the above problems, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a hatching chamber which can smoothly circulate air inside the incubation chamber, suitably adjust the size according to the size of embryo, It is an object of the present invention to provide an incubator egg guard device with a new structure which can prevent performance degradation or malfunction of the drive device and facilitate replacement or repair of the egg guard device or the drive device.

Technical features of the present invention are as follows.

The present invention relates to a turbulence device installed in a incubation chamber space (11) of an incubator in which a incubation chamber space (11) and a drive chamber space (22) are partitioned by a back plate (33) A support plate 110 vertically disposed on both sides; A guide shelf 120 installed horizontally in the incubation chamber space 11 with both left and right side ends thereof mounted on the support plate 110; A conveyance tray 130 installed on an upper surface of the guide shelf 120 and having a plurality of guide grooves 131 at a front end and a rear end thereof; And a plurality of guide bars 140 placed in the guide grooves 131 of the conveyance tray 130 and disposed in the forward and backward directions to cross the empty space of the conveyance tray 130 and on which the embryo is loaded And the spacing between the guide bars 140 is adjusted by receiving the guide bars 140 in different guide grooves 131 according to the size of the embryo.

Technical effects of the present invention according to the above configuration are as follows.

First, it is possible to ensure smooth air flow inside the incubation chamber.

In other words, a plurality of through holes 121 passing through the upper and lower surfaces of the guide shelf 120 installed in a multi-layer structure are provided, so that convection inside the incubation chamber can be smoothly performed.

Second, it is easy to adjust the installation interval of the guide bar 140 that supports the embryo, so that it can be used for embryo hatching of various sizes.

In other words, the guide bar 140 on which the embryo is loaded can be mounted on the guide groove 131 at an appropriate position according to the size of the embryo to be loaded, so that the distance between the guide bars 140 Can be used for embryo hatching.

Third, it is possible to prevent the performance of the driving apparatus including the motor due to temperature or humidity inside the incubation chamber from deteriorating or failing due to separation of the driving apparatus and the partition.

Fourth, since it can be easily separated from the driving device, it is possible to easily perform replacement or repair of the turntable or the driving device.

Fig. 1 shows a planar structure of an incubator to which the present invention is applied.
2 is a sectional view showing a side structure of an incubator to which the present invention is applied.
3 is a cross-sectional view showing the front structure of the incubator egg plant of the present invention.
4 shows a frontal structure of a drive device used with an incubator egg plant according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

The present invention relates to a turbulence device in which a incubation chamber space (11) and a drive chamber space (22) are provided in a incubation chamber space (11) of an incubator partitioned by a back plate (33).

The incubator egg making apparatus of the present invention comprises a support plate 110, a guide shelf 120, a feed tray 130, and a guide bar 140 as shown in Figs.

The support plate 110 is vertically disposed on both left and right sides of the incubation chamber space 11 to support the guide shelf 120 as shown in FIG. 2 or FIG.

As shown in FIG. 2, the support plates 110 may have a two-layer structure or two or more layers on the left and right sides, respectively, or three or more layers.

The guide shelf 120 is a plate-like structure in which both left and right ends of the guide shelf 120 are mounted on the support plate 110 and horizontally installed in the incubation chamber space 11, Layer structure or a three-layer structure or more.

As shown in FIG. 1, the guide shelf 120 is provided with a plurality of through-holes 121 passing through the upper and lower surfaces thereof to smoothly flow air inside the incubation chamber.

1 or 3, a conveying tray 130 is installed on the upper surface of the guide shelf 120 as a " square " shaped structure in which a hollow space is formed in the central portion, A guide groove 131 is provided.

The member forming the conveyance tray 130 may be a rod or a section having various cross-sectional shapes.

As shown in FIG. 4, the transfer tray 130 has a fore-and-aft connection pin 132 protruding rearward from the rear end of the transfer tray 130, and is coupled to the drive unit. The recipient 130 rotates the embryo on the guide bar 140 while reciprocating in the left and right direction.

The egg coupling pin 132 passes through the back plate 33 separating the incubation chamber space 11 and the drive chamber space 22 and enters the drive chamber space 22 and is then installed in the drive chamber space 22 So that the influence of the temperature and humidity of the incubation chamber space 11 on the electric field of the drive device installed in the drive chamber space 22 is minimized.

The incubator driving device for reciprocating the fore-and-aft connection pin 132 horizontally reciprocates the cradle 210, the housing part 220, the electric motor 230, the lead screw (not shown) 240, and a limit sensor 250, and the like.

The cradle 210 passes through a back plate 33 protruding rearward from the rear end of the conveyance tray 130 installed in the incubation chamber space 11 and partitioning the incubation chamber space 11 and the drive chamber space 22 The fore-and-a-far-coupling pin 132 entering the drive chamber space 22 is inserted and engaged with the left and right reciprocating motion.

The front surface of the cradle 210 is formed with a hole through which the fore and aft coupling pin 132 is inserted and a screw nut 211 for reciprocating right and left in conjunction with rotation of the electric motor 230 The cradle 210 is horizontally disposed on the rear of the body.

The housing part 220 is attached to the back plate 33 so as to maintain the airtightness and provides the interior of the housing part 220 to the installation space of the cradle 210. The housing part 220 has a cradle 210 A guide portion 221 for receiving the upper and lower ends and guiding the left and right reciprocating motion of the cradle 210 is provided.

2, when the housing part 220 is attached to the back plate 33 so as to maintain the airtightness by providing a step between the upper and lower inner sides of the housing part 220, A space for accommodating the lower end of the cradle 210 is provided. This space serves as a guide portion 221 for guiding the left and right reciprocating motion of the cradle 210.

The electric motor 230 may be mounted on one side of the housing part 220 to minimize the influence of the temperature and humidity of the incubation chamber space 11. The concrete type or size of the electric motor 230 is not limited to a specific product, Any product can be used that can rotate with power supplied and easily switch the direction of rotation periodically.

The lead screw 240 is connected to the rotation shaft of the electric motor 230 via a coupling or the like and is rotated together with the lead screw 240. The lead screw 240 is fastened to the screw nut 211 provided on the cradle 210, (Not shown).

A reduction gear for reducing the rotation speed of the lead screw 240 may be added between the electric motor 230 and the lead screw 240 although not shown in the drawings.

The lead screw 240 is fastened to the screw nut 211 of the cradle 210 so that the cradle 210 reciprocates in the left and right direction according to the rotation direction of the electric motor 230. [

A screw supporter 241 having an end of a lead screw 240 inserted and supported is provided inside the housing part 220 so that rotation of the lead screw 240 is smoothly performed.

As shown in FIG. 4, the limit sensor 250 is spaced apart from the left and right sides of the inside of the housing part 220, detects the contact with the cradle 210 moving in the left and right direction, The control board 260 switches the rotation direction of the electric motor 230 according to the detected signal.

That is, when any one of the limit sensors 250 touches the cradle 210, the rotation direction of the electric motor 230 is changed according to the sensing signal, and the left and right reciprocating motions are repeated.

The type of the limit sensor 250 is not limited to a specific product. Any type of limit sensor 250 can be used as long as it can detect the position of the cradle 210 and generate a sensing signal. Various contact or non-contact type sensors can be used.

The control board 260 may be mounted on one side of the drive chamber space 22 (the upper space of the housing part 220) so as to be separated from the housing part 220 as shown in FIG. 4, And may be attached to the outer surface of the housing part 220 so as to form a body with the housing part 220. The control part 230 controls the operation of electrical components of the incubator including the electric motor 230.

The cradle 210, the electric motor 230, the leadscrew 240, and the housing 220 can be manufactured as a single module and can be mounted or removed together.

A plurality of spacers 150 are attached to the lower surface of the conveyance tray 130 so that the conveyance tray 130 is spaced from the guide shelf 120 and installed on the guide shelf 120 And serves to reduce the frictional force of the conveyance tray 130 that reciprocates in the left and right direction.

1 and 3, the guide bar 140 is disposed in the guide groove 131 of the conveyance tray 130 and is disposed in the front-rear direction so as to cross the center empty space of the conveyance tray 130, The embryos are loaded on top of the bar 140.

The guide bar 140 can adjust the distance (installation interval) between the guide bars 140 by mounting the guide bar 140 at a suitable position according to the size of the embryo to be loaded.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken as limiting of the scope of the present invention. Addition or deletion of a technique, and limitation of a numerical value are included in the protection scope of the present invention.

11: Hatching chamber space
22: driving chamber space
33: back plate
110: Support plate
120: Guide shelf
121: Through hole
130: Feed tray
131: Guide groove
132:
140: Guide Bar
150: Spacer
210: Cradle
211: Screw nut
220: housing part
221: guide portion
230: Electric motor
240: Lead Screw
241: Screw supporter
250: Limit sensor
260: Control board

Claims (4)

And a hatching chamber space 11 in which a hatching chamber space 11 and a driving chamber space 22 are partitioned by a back plate 33,
A support plate 110 vertically disposed on left and right sides of the incubation chamber space 11;
A guide shelf 120 installed horizontally in the incubation chamber space 11 on both sides of the support plate 110 and having a plurality of through holes 121 on the bottom surface thereof and serving as a passage for air flow;
A conveyance tray 130 installed on an upper surface of the guide shelf 120 and having a plurality of guide grooves 131 at a front end and a rear end thereof; And
A plurality of guide bars 130 disposed in the front and rear direction of the transfer tray 130 so as to cross the empty space in the center of the transfer tray 130 and being inserted into the guide grooves 131 of the transfer tray 130, (140);
, ≪ / RTI >
The conveyance tray (130)
According to the size of the embryo, the guide bar 140 is inserted into different guide grooves 131 to adjust the spacing between the guide bars 140,
The egg transfer connection pin 132 is connected to a rear plate (not shown) which separates the incubation chamber space 11 and the driving chamber space 22 from the transfer tray 130, 33 and inserted into the driving chamber space 22 and inserted into and engaged with a driving device installed in the driving chamber space 22. The guide bar is coupled to the driving chamber space 22 in a reciprocating manner in conjunction with the driving device, 140) of the incubator is periodically rolled. The method of claim 1,
A plurality of spacers 150 attached to a lower surface of the transfer tray 130;
Further comprising an incubator egg propagation device.
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