CN202197665U

CN202197665U - Automatic incubator

Info

Publication number: CN202197665U
Application number: CN2011202777702U
Authority: CN
Inventors: 邹灵; 孙雪松; 沈俊锋; 李玉仁; 朱辉; 徐希峰; 项金辉; 顾正荣; 顾韶峰
Original assignee: ISHII LIVESTOCK EQUIPMENT CO Ltd SHANGHAI
Current assignee: ISHII LIVESTOCK EQUIPMENT CO Ltd SHANGHAI
Priority date: 2011-08-02
Filing date: 2011-08-02
Publication date: 2012-04-25
Anticipated expiration: 2021-08-02

Abstract

The utility model discloses an automatic incubator, which comprises a box body, a processor arranged on the box body, a balanced air inlet pipe, egg frame carriages, a fan used for sending air to the egg frame carriages in a forced way, an air inlet, a heat exchanger coil, a CO2 sensor for measuring the CO2 density in the box body of the incubator, a ventilation door and a temperature sensor. The CO2 sensor is arranged in the box body; the ventilation door is arranged in the middle of a top plate of the box body; the processor is connected with the CO2 sensor and the ventilation door respectively; the temperature sensor is arranged on a lateral plate corresponding to a circulating air duct in the box body; the heat exchanger coil is arranged between the two adjacent rows of egg frame carriages in the box body and is equipped with a connector which is connected with an external hot water source and an external cold water source; and the processor is connected with the temperature sensor and the connector respectively and is used for controlling the communication between the heat exchanger coil and the external hot water source or the external cold water source. With the adoption of the automatic incubator, the incubation environment in the incubator can be simulated more accurately and the regulated more simply and more easily.

Description

A kind of automatic hatch machine

Technical field

The utility model relates to a kind of automatic hatch machine, is to belong to the hatching of breeding eggs technology.

Background technology

In the prior art; The balance blast pipe is equipped with at air inlet place at hatch machine; On the sky of casing plate, be equiped with fan, heating tube and water cooling tube, fresh air gets in the body through the balance blast pipe, controls heating tube, goes up water cooling tube and is located at the following water-cooled coil pipe between adjacent two row's egg unwheelings with the detection signal of temperature sensor; Air themperature is remained in the design temperature scope; Circulate in casing with the fan force air then, this circulation air path is consistent the temperature in the whole box body relatively, changes the placement direction of egg unwheeling simultaneously; Make the width of every egg unwheeling parallel with the wind direction of circulation air path, with the environment of simulation in the hatch machine with hatch the consistent of physiological environment.Because what blast pipe adopted is the chimney flue type structure, therefore, the fresh air that gets in the hatch machine casing is well mixed with the interior circulating air of casing; Moreover; Temperature control equipment has adopted heating tube, has gone up water cooling tube and following water-cooled coil pipe; Not only cause the link of control too complicated; And, be difficult to realize the harmony of each regional temperature in the hatch machine for the large-scale hatch machines that accommodate the unwheeling of many row's eggs, especially can not solve different all instar embryo eggs and mix the uppity difficult problem of temperature that the heat difference of incubating generation causes.In addition, just very high to water quality requirement like this because the humidification of hatch machine adopts spray method, cause shower nozzle to stop up easily, thereby cause non-uniform temperature.In addition, research shows that in the process of hatching of breeding eggs, embryonated egg can constantly produce CO ₂, and CO ₂Excessive concentration can influence the growth of embryonated egg, and then the quality of the incubation rate of influence kind of egg and the young bird that hatches, but does not also have in the prior art a kind ofly can effectively control CO ₂How the device of concentration and/or method are regulated and control especially to accommodate many rows egg unwheeling in the hatch machine and different all instar embryo eggs mix the CO in the large-scale hatch machine of incubating ₂Concentration is the difficult problem that solution is badly in need of in this area.

The utility model content

To above-mentioned existing in prior technology problem and defective; The purpose of the utility model provides a kind of automatic hatch machine; Not only can realize each regional temperature basis equalization in the whole hatch machine; Local temperature control is more convenient and accurate, effectively solves the uppity difficult problem of temperature that the mixed heat difference of incubating generation of different all instar embryo eggs causes, and can effectively regulate and control especially to accommodate in the hatch machine CO in many rows egg unwheeling and the mixed large-scale hatch machine of incubating of different all instar embryo eggs ₂Concentration is to reach an environmental simulation requirement that accommodates in many rows egg unwheeling and the mixed large-scale hatch machine of incubating of different all instar embryo eggs.

For realizing above-mentioned purpose, the technical scheme that the utility model adopts is following:

A kind of automatic hatch machine comprises casing and is located at the processor on the casing, balance blast pipe, the CO in egg unwheeling, the fan toward egg unwheeling forced air supply, air inlet, heat exchanger coil, the measurement hatch machine casing ₂The CO of concentration ₂Sensor, air door and temperature sensor; Said CO ₂Sensor is located in the casing, and said air door is located at the top board middle part of casing; Said processor respectively with said CO ₂Sensor and said air door link to each other; Said temperature sensor be located in the casing with the corresponding side plate of circulation air path on; Said heat exchanger coil is located between two adjacent in casing row's egg unwheelings; Heat exchanger coil is provided with the joint that links to each other with external thermal water source and external cold water source; Said processor links to each other with temperature sensor and joint respectively, and processor is used to control being communicated with of heat exchanger coil and external thermal water source or external cold water source.

Said heat exchanger coil is divided into plurality of sections; The size of each section heat exchanger coil is corresponding with separate unit egg unwheeling lateral dimension along its length; Each section heat exchanger coil is respectively equipped with the joint that communicates with external thermal water source and external cold water source; The corresponding joint of each section heat exchanger coil links to each other with said processor respectively, and box side is provided with and the corresponding temperature sensor of each section heat exchanger coil, and each temperature sensor links to each other with said processor respectively.

Said balance blast pipe be located at said air inlet under.

Said balance blast pipe comprises two baffle plates, and the top board of two baffle plates and casing and the side plate of casing constitute intake stack, and the two ends of intake stack are provided with opening; Said intake stack is parallel to each other with the fan of automatic hatch machine; The horizontal level of the lower baffle plate of said intake stack is higher than the horizontal level at egg unwheeling top.

Baffle plate below the said intake stack is provided with air vent.

The length of said intake stack is 1/3 of box side length.

Said automatic hatch machine also comprises humidifier, and said humidifier is a ultrasonic humidifier.

Compared with prior art; Because the control of the temperature of the hatch machine of the utility model is to adopt heat exchanger coil to realize energy exchange; Said heat exchanger coil is located between two adjacent in casing row's egg unwheelings; And be connected with external thermal water source or external cold water source, every section heat exchanger coil adopts independent control; And CO ₂Control be through the COs of processor with hatching of breeding eggs different hatching fates in the cycle ₂The concentration permissible value is redefined for corresponding standard value, automatically with CO ₂The detected CO of sensor ₂Concentration value compares with preset respective standard value, if through judging the CO that detects ₂Concentration value is during greater than corresponding preset standard value, and then processor can be exported signal to air door, opening air door, thereby realizes CO in the hatch machine ₂The regulation and control of concentration.Therefore; The utility model can be realized each regional temperature basis equalization in the whole hatch machine; Local temperature control is more convenient and accurate; Effectively solve the uppity difficult problem of temperature that the mixed heat difference of incubating generation of different all instar embryo eggs causes, realize to accommodate in the large-scale hatch machine many rows egg unwheeling and the mixed of different all instar embryo eggs and incubate; And the external water source that is connected with heat exchanger coil can be that the energy that waste water reuse that equipment such as boiler produces also can be used as equipment such as boiler uses, and has energy-conservation advantage; Can effectively solve the CO that especially accommodates in the hatch machine in many rows egg unwheeling and the mixed large-scale hatch machine of incubating of different all instar embryo eggs in addition ₂The regulation and control difficult problem of concentration has improved incubation rate and the quality of the young bird that hatches.

Description of drawings

Fig. 1 is the structural representation of a kind of automatic hatch machine of providing of the utility model;

Fig. 2 is the schematic top plan view of Fig. 1;

Fig. 3 is along the cutaway view of A-A line among Fig. 2;

Fig. 4 is the structural representation of baffle plate below the intake stack among Fig. 1.

Embodiment

Further specify the technical scheme of the utility model below in conjunction with accompanying drawing and embodiment.

See also shown in Figure 1: a kind of automatic hatch machine that the utility model provides; Comprise: casing 1 and be located at the processor (not showing among the figure) on the casing 1, balance blast pipe 2, egg unwheeling 3, the fan 4 toward egg unwheeling forced air supply, air inlet 5, heat exchanger coil 6, measure the CO in the hatch machine casing ₂The CO of concentration ₂Sensor (not showing among the figure), air door 7 and temperature sensor 8, CO ₂Sensor is located in the casing 1, and air door 7 is located at the top board middle part of casing 1, processor respectively with CO ₂Sensor and air door 7 link to each other, and CO2 concentration surpasses setting value, controls the door 7 that blows in by processor through relay.Processor is with the CO of hatching of breeding eggs different hatching fates in the cycle ₂The concentration permissible value is redefined for corresponding standard value, can be automatically with CO ₂The detected CO of sensor ₂Concentration value compares with preset respective standard value, if through judging the CO that detects ₂Concentration value is during greater than corresponding preset standard value, and then processor can be to air door 7 output signals, opening air door 7, thereby realizes CO in the hatch machine ₂The regulation and control of concentration.

Temperature sensor 8 be located in the casing 1 with the corresponding side plate of circulation air path on; Heat exchanger coil 6 is located between two adjacent in the casing 1 row's egg unwheelings 3; Heat exchanger coil 6 is provided with the joint that links to each other with external thermal water source and external cold water source; Processor links to each other with temperature sensor 8 and joint respectively, and processor is used to control being communicated with of heat exchanger coil 6 and external thermal water source or external cold water source.The detection signal control heat exchanger coil 6 of temperature sensor 8 remains in the design temperature scope temperature in the casing 1.

See also Fig. 2, shown in Figure 3 again; Wherein each heat exchanger coil 6 can also be divided into independently 3 sections; The size of each section heat exchanger coil 61 is corresponding with separate unit egg unwheeling 3 lateral dimension along its length; Each section heat exchanger coil 61 is respectively equipped with the joint that communicates with external thermal water source and external cold water source; Each section heat exchanger coil 61 corresponding joints link to each other with processor respectively, and box side is provided with and each section heat exchanger coil 61 corresponding temperature sensors 81 (seeing shown in Figure 2), and each temperature sensor 81 links to each other with processor respectively.See also Fig. 1, Fig. 2 again, wherein show four row's egg unwheelings, the unwheeling of every row's egg is made up of three egg unwheelings, is arranged to the layout of four rows, three row, and the horizontal direction of every egg unwheeling is parallel with the circulated air wind direction, and makes the egg frame in the egg unwheeling parallel with the circulated air wind direction.Be provided with a heat exchanger coil 6 between the unwheeling of every row egg, totally 9 sections heat exchanger coils 6 are divided into 3 groups, and every row consist of one group, and control method is the signal difference independent startup according to every row temperature sensor 81 separately.Yet the layout of egg unwheeling is not limited to four rows, three row, for example also two arranges four row, four rows and four columns or the like, and at this moment, heat exchanger coil 6 is arranged between adjacent per two row egg unwheelings.

Balance blast pipe 2 be located at automatic hatch machine air inlet 5 under; Comprise two baffle plates 21; Two baffle plates 21 constitute intake stack with the top board of casing 1 and the side plate 11 of casing 1; The two ends of intake stack are opening-like, and the baffle plate 21 below the intake stack is provided with the air vent (see figure 4), and the length of intake stack is 1/3 of box side 11 length.Intake stack is parallel to each other with the fan 4 of automatic hatch machine.The horizontal level of the lower baffle plate of intake stack is higher than the horizontal level at egg unwheeling 3 tops.Make things convenient for fresh air well to mix like this with casing 1 interior circulating air.Get into the casing of automatic hatch machine when fresh air after; Because the suction function of fan; Can directly the both ends open of fresh air from intake stack be sucked; And force to mix fully with the circulating air in the casing, in addition, can also mix more fully through the fresh air that air vent flows into.

Automatically hatch machine also comprises humidifier 9, and said humidifier is to adopt the ultrasonic humidification.The ultrasonic humidification be utilize piezoelectric ceramics intrinsic supersonic oscillations characteristics; Produce resonance through certain oscillating circuit means and piezoelectric ceramics natural mode shape; Directly the liquid mist of piezoelectric ceramics contact is changed into the molecule of 1-3 μ m; Blow out by blower fan then, so just can avoid shower nozzle to be prone to the defective of stopping up at any time at random.

Arrow among Fig. 1 shows the air-flow direction in the automatic hatch machine of the utility model: the fresh air that gets into hatch machine is through balance blast pipe 2 balances, equably with after air through egg unwheeling 3 fully mixes; See off after fan 4 suctions by forced air supply; Because iron plate is stamped at egg unwheeling 3 tops, so wind just can only be delivered to the rear portion along the passage at egg unwheeling top.Portion of air is got rid of by the exhaust outlet that is located at the there, and most of air can be forced to get in the egg unwheeling.The temperature sensor that air themperature can be set at the there detects.

In sum; The utility model can be realized each regional temperature basis equalization in the whole hatch machine; Local temperature control is more convenient and accurate; Effectively solve the uppity difficult problem of temperature that the mixed heat difference of incubating generation of different all instar embryo eggs causes, realize to accommodate in the large-scale hatch machine many rows egg unwheeling and the mixed of different all instar embryo eggs and incubate; And the external water source that is connected with heat exchanger coil can be that the energy that waste water reuse that equipment such as boiler produces also can be used as equipment such as boiler uses, and has energy-conservation advantage; Can effectively solve the CO that especially accommodates in the hatch machine in many rows egg unwheeling and the mixed large-scale hatch machine of incubating of different all instar embryo eggs in addition ₂The regulation and control difficult problem of concentration makes the simulation of the environment of hatching in the hatch machine more accurate, has improved incubation rate and the quality of the young bird that hatches.

Those of ordinary skill in the art will be appreciated that; Above embodiment only is the purpose that is used for explaining the utility model; And be not with the qualification of doing the utility model; As long as in the essential scope of the utility model, in the scope to the variation of the above embodiment, claim that modification all will drop on the utility model.

Claims

1. an automatic hatch machine is characterized in that: comprise casing and be located at the processor on the casing, balance blast pipe, the CO in egg unwheeling, the fan toward egg unwheeling forced air supply, air inlet, heat exchanger coil, the measurement hatch machine casing ₂The CO of concentration ₂Sensor, air door and temperature sensor; Said CO ₂Sensor is located in the casing, and said air door is located at the top board middle part of casing; Said processor respectively with said CO ₂Sensor and said air door link to each other; Said temperature sensor be located in the casing with the corresponding side plate of circulation air path on; Said heat exchanger coil is located between two adjacent in casing row's egg unwheelings; Heat exchanger coil is provided with the joint that links to each other with external thermal water source and external cold water source; Said processor links to each other with temperature sensor and joint respectively, and processor is used to control being communicated with of heat exchanger coil and external thermal water source or external cold water source.

2. automatic hatch machine according to claim 1; It is characterized in that: said heat exchanger coil is divided into plurality of sections; The size of each section heat exchanger coil is corresponding with separate unit egg unwheeling lateral dimension along its length; Each section heat exchanger coil is respectively equipped with the joint that communicates with external thermal water source and external cold water source; The corresponding joint of each section heat exchanger coil links to each other with said processor respectively, and box side is provided with and the corresponding temperature sensor of each section heat exchanger coil, and each temperature sensor links to each other with said processor respectively.

3. automatic hatch machine according to claim 1 is characterized in that: said balance blast pipe be located at automatic hatch machine air inlet under.

4. automatic hatch machine according to claim 3 is characterized in that: said balance blast pipe comprises two baffle plates, and the top board of two baffle plates and casing and the side plate of casing constitute intake stack, and the two ends of intake stack are provided with opening; Said intake stack is parallel to each other with the fan of automatic hatch machine; The horizontal level of the lower baffle plate of said intake stack is higher than the horizontal level at egg unwheeling top.

5. automatic hatch machine according to claim 4 is characterized in that: the baffle plate below the said intake stack is provided with air vent.

6. automatic hatch machine according to claim 4 is characterized in that: the length of said intake stack is 1/3 of box side length.

7. automatic hatch machine according to claim 1 is characterized in that: said automatic hatch machine also comprises humidifier, and said humidifier is a ultrasonic humidifier.