CN216722686U - Incubation and heat preservation device utilizing geothermal energy - Google Patents

Abstract

The application discloses geothermal energy utilizes hatching heat preservation device relates to incubation device technical field. Including heat preservation hatching storehouse and hatching layer board, the front end laminating in heat preservation hatching storehouse has closed protecgulum, heat preservation hatching storehouse with the tie point of closed protecgulum is provided with the lid gymnastics, hatching layer board set up in the inboard in heat preservation hatching storehouse, hatching layer board's surface is provided with space isolation mechanism, a lateral wall in heat preservation hatching storehouse is provided with geothermal energy storehouse. This practicality wholly adopts square structure, embeds great space, can be in the vertical automatic quantity that sets up incubation bearing board, and the space isolation mechanism of configuration, can be according to the demand of hatching, through keeping apart the space in mainboard and the portable horizontal plane of isolation subplate to can put the incubation egg of different types and quantity in the space of difference, make the incubation egg fill in to the device inside simultaneously and can not influence each other.

Description

Incubation and heat preservation device utilizing geothermal energy

Technical Field

The application relates to the technical field of incubation equipment, in particular to a geothermal energy utilization incubation heat preservation device.

Background

Hatching is a process of starting free life of an animal from the embryo in an egg membrane to the outside, the term of hatching is generally applicable to oviparous animals although the term of hatching is generally used for the oviparous animals, hatching is a phenomenon that the animal breaks the shell after the embryo development in the egg is completed, and a batch of eggs are hatched from the beginning to the end of all hatching and is called a hatching period.

The general heat preservation equipment can accommodate hatching eggs of different types, but does not isolate the space in the hatching bin, and the hatching eggs of different types are accumulated together in a large number and are difficult to observe and distinguish in the later period.

SUMMERY OF THE UTILITY MODEL

An object of the application is to provide a geothermal energy utilizes hatching heat preservation device to solve current problem: the general heat preservation equipment can accommodate hatching eggs of different types, but does not isolate the space in the hatching bin, and the hatching eggs of different types are accumulated together in a large number and are difficult to observe and distinguish in the later period.

In order to solve the technical problem, the application is realized by the following technical scheme: including heat preservation hatching storehouse and hatching layer board, the front end laminating in heat preservation hatching storehouse has closed protecgulum, heat preservation hatching storehouse with the tie point of closed protecgulum is provided with the lid gymnastics, hatching layer board set up in the inboard in heat preservation hatching storehouse, hatching layer board's surface is provided with space isolation mechanism, a lateral wall in heat preservation hatching storehouse is provided with geothermal energy storehouse, the place ahead in geothermal energy storehouse is provided with heat conduction mechanism.

Further, space isolation mechanism includes the movable slot, keeps apart mainboard, isolation slot and keeps apart the subplate, the movable slot set up in the up end central point position of hatching bearing board, keep apart the mainboard activity laminate in the recess inner wall of movable slot, the isolation slot set up in keep apart a lateral wall of mainboard, keep apart the subplate set up in keep apart one side of mainboard, the isolation slot with a side end of keeping apart the subplate passes through the slider and connects, and the space isolation mechanism of setting can carry out the size to a set of space and keep apart to put the hatching egg of different quantity and kind.

Further, hatching bearing board adopts square fretwork platelike structure, the activity groove is provided with 2 groups, and two sets of the long end lateral wall in activity groove is laminated each other, keep apart the mainboard with keep apart the subplate and all adopt platelike structure, keep apart the mainboard with keep apart the subplate and be vertical distribution, keep apart the subplate through with the swing joint of isolation inslot wall can along keep apart the surperficial horizontal migration of mainboard, hollow out construction's design for the gas permeability is stronger.

Further, heat conduction mechanism includes heating pipe, heating chamber, inserted bar and air discharge duct, the heating pipe install in the preceding terminal surface in geothermal energy storehouse, the inserted bar set up in the place ahead of heating pipe, the heating chamber laminate in the rear end face of inserted bar, the air discharge duct is seted up in the up end in heating chamber, the inserted bar with the inner wall threaded connection of heating pipe, the heat conduction mechanism of vertical design, it is more even to the inside heat conduction in heat preservation hatching storehouse.

Further, the heating pipe set up in the preceding terminal surface in geothermal energy storehouse is the equidistant distribution of direction, the heating storehouse adopts hollow structure, the heating pipe passes through the inserted bar with constitute the connectivity between the heating storehouse, the heating storehouse adopts square plate structure, through the heating storehouse of different quantity of pegging graft for the heat is more even.

Furthermore, spacing draw-in groove has been seted up to the inside wall in heat preservation hatching storehouse, hatching layer board with spacing draw-in groove joint is connected, spacing draw-in groove sets up in the inside wall top-down interval distribution in heat preservation hatching storehouse, closed protecgulum with swing joint between the lid is controlled, interval distribution's spacing draw-in groove mountable does not use the hatching layer board of quantity to the maximize utilizes the inside space in heat preservation hatching storehouse.

1. The hatching egg device has the advantages that the whole hatching egg device is of a square structure, large space is arranged in the hatching egg device, the number of the hatching bearing plates can be automatically arranged in the longitudinal direction, and the space isolation mechanism can move the space in a horizontal plane through the isolation main board and the isolation auxiliary board according to the hatching requirements, so that hatching eggs of different types and numbers can be placed in different spaces, the hatching eggs can be simultaneously filled into the hatching egg device, the mutual influence cannot be caused, and the hatching egg device is easy to distinguish;

2. the hatching support plate is square and hollowed, so that hatching eggs can be supported, and meanwhile, the hatching support plate has high air permeability, so that each group of hatching eggs is heated more uniformly, and heat energy guarantee is provided for the hatching eggs;

3. this application utilizes geothermal energy storehouse to put through geothermal energy, and at the surperficial interval distribution multiunit heating pipe in geothermal energy storehouse, can be with the heating pipe of different level and position, the screw thread inserts the heating storehouse of different quantity and position, can freely distribute the heat like this, because geothermal energy storehouse is installed in the lateral wall position, can make the more even distribution of heat like this in each position.

4. This application overall structure is simple, can freely cut apart the inside space in heat preservation hatching storehouse to can classify the isolation to the hatching egg of variation in size, utilize the swing joint of lid gymnastics and closed protecgulum, the closed protecgulum of lifting upwards can realize taking out and filling the hatching egg.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a hatching and heat-preserving device utilizing geothermal energy according to the present application;

fig. 2 is a schematic structural diagram of a limiting clamping groove of the incubation and heat preservation device for geothermal energy utilization;

FIG. 3 is a side view of the hatching support plate of the hatching and heat preserving device utilizing geothermal energy according to the present application;

fig. 4 is a side view of a heating pipe of a geothermal energy utilization hatching and heat preserving device according to the present application.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a heat preservation hatching bin; 2. a limiting clamping groove; 3. hatching the bearing plate; 4. a movable groove; 5. isolating the main board; 6. an isolation trench; 7. an isolation subplate; 8. closing the front cover; 9. a geothermal energy bin; 10. a heating pipe; 11. a heat supply bin; 12. a lid body exercise; 13. inserting a rod; 14. an exhaust groove.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1, 2 and 3, the present application is a geothermal energy utilization incubation thermal insulation device, which includes a thermal insulation incubation chamber 1 and an incubation support plate 3, wherein a closed front cover 8 is attached to a front end of the thermal insulation incubation chamber 1, a cover body 12 is disposed at a connection point between the thermal insulation incubation chamber 1 and the closed front cover 8, and the incubation support plate 3 is disposed inside the thermal insulation incubation chamber 1. Hatching bearing board 3's surface is provided with space isolation mechanism, space isolation mechanism includes movable groove 4, keep apart mainboard 5, isolation groove 6 and isolation subplate 7, movable groove 4 is seted up in hatching bearing board 3's up end central point position, keep apart 5 movable laminatings of mainboard in the recess inner wall of movable groove 4, isolation groove 6 is seted up in a lateral wall of keeping apart mainboard 5, keep apart subplate 7 and set up in one side of keeping apart mainboard 5, isolation groove 6 passes through the slider with a side end of keeping apart subplate 7 and is connected. The whole incubator utilizes the heat preservation incubation cabin 1 to wrap the inner side, and the heat preservation incubation cabin 1 made of heat insulation materials realizes incubation.

As shown in fig. 1 and 3, the space isolation mechanism can isolate a group of spaces so as to put hatching eggs with different numbers and types. Hatching bearing board 3 adopts square fretwork platelike structure, activity groove 4 is provided with 2 groups, and the long end lateral wall of two sets of activity grooves 4 is laminated each other, keep apart mainboard 5 and keep apart subplate 7 and all adopt platelike structure, keep apart mainboard 5 and keep apart subplate 7 and be vertical distribution, keep apart subplate 7 through the swing joint with 6 inner walls of isolation groove can be along the surperficial horizontal migration who keeps apart mainboard 5, hatching bearing board 3 fretwork's design, make the gas permeability stronger, can make the heat of 1 inside in heat preservation hatching storehouse freely diffuse like this, thereby make the heat distribution of 1 inside in heat preservation hatching storehouse more even.

As shown in fig. 1 and 2, a geothermal energy bin 9 is arranged on one side wall of the heat preservation incubation bin 1, a limiting clamping groove 2 is formed in the inner side wall of the heat preservation incubation bin 1, an incubation bearing plate 3 is connected with the limiting clamping groove 2 in a clamping mode, the limiting clamping groove 2 is arranged on the inner side wall of the heat preservation incubation bin 1 and distributed at intervals from top to bottom, a closed front cover 8 is movably connected with a cover body operating device 12, the incubation bearing plate 3 which does not need to be arranged in quantity can be installed on the limiting clamping groove 2 which is distributed at intervals, and therefore the space inside the heat preservation incubation bin 1 is utilized to the maximum. Design geothermal energy storehouse 9 in the lateral wall position, compare in the mode of installing in the bottom for the heat is leading-in comparatively even in vertical each position to the inside of heat preservation hatching storehouse 1, because spacing draw-in groove 2 adopts the design of vertical interval distribution, can be at different high installation hatching bearing board 3, thereby can freely keep apart the inside longitudinal space of heat preservation hatching storehouse 1.

As shown in fig. 1 and 4, a heat conducting mechanism is provided in front of the geothermal energy storage 9. Heat conduction mechanism includes heating pipe 10, heating chamber 11, inserted bar 13 and air discharge duct 14, heating pipe 10 installs in the preceding terminal surface in geothermal energy storehouse 9, inserted bar 13 sets up in the place ahead of heating pipe 10, heating chamber 11 laminates in the rear end face of inserted bar 13, air discharge duct 14 is seted up in heating chamber 11's up end, inserted bar 13 and heating pipe 10's inner wall threaded connection, vertical heat conduction mechanism of design, it is more even to the heat conduction of heat preservation hatching 1 inside. The heating pipe 10 sets up to be the equidistant distribution of direction in the preceding terminal surface in geothermal energy storehouse 9, and heating storehouse 11 adopts hollow structure, and heating pipe 10 passes through to constitute the intercommunication structure between inserted bar 13 and the heating storehouse 11, and heating storehouse 11 adopts square plate structure, through the heating storehouse 11 of the different quantity of pegging graft for the heat is more even. By inserting different numbers of heat supply bins 11, the heat at the geothermal energy bin 9 can be rapidly discharged to the other side of the heat-preservation hatching bin 1.

One specific application of this embodiment is: when the device is used, firstly, the outer wall of the hatching bearing plate 3 is buckled in the limiting clamping groove 2 with the corresponding horizontal height, so that the hatching bearing plate 3 is kept stable, then the position of the isolating main plate 5 is moved by utilizing the movable connection between the isolating main plate 5 and the inner wall of the movable groove 4, and then the position of the isolating auxiliary plate 7 is adjusted by utilizing the movable connection between the isolating auxiliary plate 7 and the isolating groove 6, so that the space above the hatching bearing plate 3 can be isolated, because the heat-insulating hatching chamber 1 has a certain longitudinal height, a plurality of groups of hatching bearing plates 3 can be plugged into the heat-insulating hatching chamber 1, the heights are reasonably distributed according to hatching requirements, then the inserting rod 13 is inserted into the heating pipe 10 below the hatching bearing plate 3, after the geothermal energy chamber 9 is started, the heat is transferred to the inside of the heat supply chamber 11 through the heating pipe 10, and the heat is upwards discharged from the exhaust groove 14 on the surface of the heat supply chamber 11, thereby realizing the heating of the hatching eggs.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the present application disclosed above are intended only to aid in the explanation of the application. The preferred embodiments are not exhaustive and do not limit the application to the precise embodiments described. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the application and the practical application, to thereby enable others skilled in the art to best understand and utilize the application. The application is limited only by the claims and their full scope and equivalents.

Claims (6)

1. The utility model provides a geothermal energy utilizes hatching heat preservation device which characterized in that: including heat preservation hatching storehouse (1) and hatching cushion board (3), the front end laminating in heat preservation hatching storehouse (1) has closed protecgulum (8), heat preservation hatching storehouse (1) with the tie point of closed protecgulum (8) is provided with lid gymnastics (12), hatching cushion board (3) set up in the inboard in heat preservation hatching storehouse (1), the surface of hatching cushion board (3) is provided with space isolation mechanism, a lateral wall in heat preservation hatching storehouse (1) is provided with geothermal energy storehouse (9), the place ahead in geothermal energy storehouse (9) is provided with heat conduction mechanism.

2. The incubation and heat preservation device for utilizing geothermal energy according to claim 1, wherein the space isolation mechanism comprises a movable groove (4), an isolation main board (5), an isolation groove (6) and an isolation auxiliary board (7), the movable groove (4) is arranged at the central point of the upper end face of the incubation supporting board (3), the isolation main board (5) is movably attached to the inner wall of the groove of the movable groove (4), the isolation groove (6) is arranged on one side wall of the isolation main board (5), the isolation auxiliary board (7) is arranged on one side of the isolation main board (5), and the isolation groove (6) is connected with one side end of the isolation auxiliary board (7) through a sliding block.

3. The geothermal energy utilization hatching heat preservation device according to claim 2, characterized in that the hatching support plate (3) is of a square hollowed-out plate-shaped structure, the movable grooves (4) are provided with 2 groups, the long end side walls of the two groups of movable grooves (4) are mutually attached, the isolation main plate (5) and the isolation auxiliary plate (7) are of plate-shaped structures, the isolation main plate (5) and the isolation auxiliary plate (7) are vertically distributed, and the isolation auxiliary plate (7) can horizontally move along the surface of the isolation main plate (5) through the movable connection with the inner wall of the isolation groove (6).

4. The geothermal energy utilization hatching heat preservation device according to claim 1, characterized in that the heat conduction mechanism comprises a heating pipe (10), a heating chamber (11), an inserted bar (13) and an exhaust duct (14), the heating pipe (10) is installed on the front end face of the geothermal energy chamber (9), the inserted bar (13) is arranged in front of the heating pipe (10), the heating chamber (11) is attached to the rear end face of the inserted bar (13), the exhaust duct (14) is arranged on the upper end face of the heating chamber (11), and the inserted bar (13) is in threaded connection with the inner wall of the heating pipe (10).

5. A geothermal energy utilization hatching heat preservation device according to claim 4, characterized in that the heating pipes (10) are arranged on the front end surface of the geothermal energy bin (9) and distributed at equal intervals in the direction, the heating bin (11) adopts a hollow structure, the heating pipes (10) and the heating bin (11) form a communication structure through the inserted bars (13), and the heating bin (11) adopts a square plate-shaped structure.

6. The geothermal energy utilization hatching heat preservation device according to claim 1, characterized in that the inner side wall of the heat preservation hatching bin (1) is provided with a limiting clamping groove (2), the hatching bearing plate (3) is connected with the limiting clamping groove (2) in a clamping manner, the limiting clamping grooves (2) are arranged on the inner side wall of the heat preservation hatching bin (1) and are distributed at intervals from top to bottom, and the closed front cover (8) is movably connected with the cover body manipulator (12).

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