CN217108832U - Supporting device for bird embryo signal acquisition - Google Patents

Abstract

The utility model discloses a supporting device for bird embryo signal acquisition, which comprises a bird embryo acceptor for accepting bird embryos, a camera mounting mechanism for mounting a camera, a circuit board mounting mechanism for mounting a signal processing circuit board, and an acceptor mounting mechanism for mounting the bird embryo acceptor; bird embryo acceptor is installed in the center of acceptor installation mechanism, and camera installation mechanism connects in the upper portion of acceptor installation mechanism, and circuit board installation mechanism connects in the side of acceptor installation mechanism. The utility model discloses simple structure, reasonable in design realizes conveniently and with low costs, can effectively use in the collection of birds embryo signal, realizes the swift installation to embryo's signal of telecommunication collection sensor and video acquisition camera, excellent in use effect, convenient to popularize and use.

Description

Supporting device for bird embryo signal acquisition

Technical Field

The utility model belongs to the technical field of the medicine research and development animal experiment, concretely relates to birds is strutting arrangement for embryo signal acquisition.

Background

It is well known that cardiovascular diseases can pose a serious threat to life if not treated in time. Although the modern medical level has greatly prolonged human life, cardiovascular disease diagnosis and treatment is still a great problem.

In recent years, with the continuous development of economy and the continuous deepening of industrialization, the number of patients with cardiovascular diseases tends to increase year by year, and therefore, the cardiovascular disease diagnosis and treatment also receives more and more attention. Due to the accelerated pace of life, more and more people smoke, drink alcohol and stay up night, so that the cardiovascular disease is not seriously suffered, and the number of patients with cardiovascular disease is increased. The pathogenic factors of cardiovascular diseases are various, including heredity, smoking, obesity, drinking, mental factors, external stress, high cholesterol and the like, wherein the three most important pathogenic factors are hypertension, smoking and high cholesterol. For hundreds of millions of patients with cardiovascular diseases worldwide, especially for patients at high risk of cardiovascular diseases, how to reduce the morbidity and mortality of the cardiovascular diseases through effective intervention means becomes an increasingly urgent major public health problem.

The rapidly growing number of patients with cardiovascular diseases brings great demands to the development of cardiovascular disease drugs. From the market rate, compared with biological medicines, the current chemical medicine development still occupies the leading position of the cardiovascular disease medicine development. The main purpose of the research and development of new drugs is to prevent and treat diseases and ensure health. The new drug screening comprises three stages of in vitro tests, in vivo tests and clinical research. In vitro assays use animal or human cell lines to observe lethal injury. If the medicine is effective in vitro, the medicine is transferred to in vivo screening, animal models are mainly used, and animal experiments play an immeasurable role in medicine research and development. Preclinical studies refer to chemical synthetic or natural product purification studies, drug analysis studies, as well as pharmacodynamic, pharmacokinetic and toxicological studies, and pharmacological studies performed prior to the drug entering clinical studies. In preclinical trials, screening for new drugs was performed mainly in rodents. Mice are the most commonly used animal model in preclinical experimental studies, however, because of the critical genetic, molecular, biological and cytological differences between mice and humans, mice are not suitable as animal models for simulating human diseases, and therefore, the animal model cannot be an effective vector for seeking a treatment method.

Avian (including poultry) embryos are relatively high in cost performance and easier to handle than mouse experiments, and therefore can be used to assist in the development of human vascular disease drugs. However, avian embryo blood vessels are very small in diameter (<1mm), and have very small amplitude (<1mm) and very high frequency (>200 times/min), which makes qualitative and quantitative analysis of avian embryo blood vessels very difficult. The bird embryo blood vessel analysis is proposed, but the prior art still lacks a supporting device which is simple in structure and reasonable in design and is used for bird embryo signal acquisition.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that not enough among the above-mentioned prior art is directed against, provide a birds embryo is strutting arrangement for signal acquisition, its simple structure, reasonable in design, it is convenient and with low costs to realize, can effectively use in the collection of birds embryo signal, realizes the swift installation to embryo's signal of telecommunication collection sensor and video acquisition camera, and then realizes the collection and subsequent analysis to birds embryo signal, excellent in use effect, convenient to popularize and use.

In order to solve the technical problem, the utility model discloses a technical scheme is: a supporting device for bird embryo signal acquisition comprises a bird embryo acceptor for accepting bird embryos, a camera mounting mechanism for mounting a camera, a circuit board mounting mechanism for mounting a signal processing circuit board, and an acceptor mounting mechanism for mounting the bird embryo acceptor; birds embryo acceptor installs the center department at acceptor installation mechanism, camera installation mechanism connects on acceptor installation mechanism's upper portion, circuit board installation mechanism connects the side at acceptor installation mechanism.

Foretell strutting arrangement for birds embryo signal acquisition, the shape of birds embryo acceptor is hollow semi-ellipsoid shape.

Foretell strutting arrangement for birds embryo signal collection, the edge of birds embryo acceptor opening part is provided with a plurality of lugs, the side of birds embryo acceptor evenly is provided with a plurality of jacks that are used for installing embryo's signal of telecommunication collection sensor.

Foretell strutting arrangement for birds embryo signal gathers, acceptor installation mechanism includes bottom sprag board and acceptor mounting panel, be connected with acceptor mounting panel support column between bottom sprag board and the acceptor mounting panel, the center of acceptor mounting panel is provided with the round hole, the edge of round hole is provided with the recess that corresponds with the lug shape, birds embryo acceptor is installed in the round hole, and fixes through the meshing of lug and recess.

Foretell strutting arrangement for birds embryo signal collection, camera installation mechanism is including first camera mounting panel and the second camera mounting panel of stacking from top to bottom, be connected with camera mounting panel support column between second camera mounting panel and the acceptor mounting panel, be provided with first half waist shape hole on the first camera mounting panel, be provided with half waist shape hole of second on the second camera mounting panel, through the cooperation installation camera in half waist shape hole of first half waist shape hole and the half waist shape hole of second.

Foretell strutting arrangement for birds embryo signal collection, circuit board installation mechanism is including the box that is used for installing the circuit board, be provided with the trompil that supplies the signal line to pass on the box, bottom sprag board and acceptor mounting panel all are connected with the box.

Foretell strutting arrangement for birds embryo signal collection, be provided with the through wires hole that is used for supplying the signal line to pass on the acceptor mounting panel.

Foretell strutting arrangement for birds embryo signal collection, the edge of bottom sprag board is provided with ascending hem.

Above-mentioned strutting arrangement for birds embryo signal gathers, the shape of box is cuboid.

Foretell strutting arrangement for birds embryo signal collection, be provided with a plurality of erection columns that are used for installing the circuit board in the box.

Compared with the prior art, the utility model has the following advantage:

1. the utility model discloses simple structure, reasonable in design realizes conveniently and with low costs.

2. The utility model relates to an acceptor installation mechanism fixes birds embryo acceptor through the meshing of lug and recess, and simple to operate is swift.

3. The utility model relates to a hollow semi-ellipsoidal birds embryo acceptor, and evenly set up a plurality of jacks that are used for installing embryo's signal of telecommunication collection sensor in birds embryo acceptor side, when accepting birds embryo, realize the effective collection to birds embryo's signal of telecommunication.

4. The utility model relates to a camera installation mechanism, through the fixed camera in the cooperation in the half waist shape hole of second on first camera mounting panel and the second camera mounting panel, easy operation.

5. The utility model discloses can effectively use in the collection of birds embryo signal, realize the swift installation to embryo's signal of telecommunication acquisition sensor and video acquisition camera, and then realize collection and subsequent analysis to birds embryo signal, excellent in use effect, convenient to popularize and use.

To sum up, the utility model discloses simple structure, reasonable in design realizes conveniently and with low costs, can effectively use in the collection of birds embryo signal, realizes the swift installation to embryo's signal of telecommunication collection sensor and video acquisition camera, and then realizes the collection and subsequent analysis to birds embryo signal, excellent in use effect, convenient to popularize and use.

The technical solution of the present invention is further described in detail by the accompanying drawings and examples.

Drawings

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

FIG. 2 is a schematic structural view of the bird embryo acceptor of the present invention;

FIG. 3 is a schematic structural view of the adaptor mounting mechanism and the circuit board mounting mechanism of the present invention;

fig. 4 is the schematic structural diagram of the camera mounting mechanism of the present invention.

Description of reference numerals:

1-an avian embryo acceptor; 2-camera mounting mechanism; 2-1 — a first camera mounting plate;

2-a second camera mounting plate; 2-3-camera mounting plate support column; 2-4-first half waist-shaped hole;

2-5-second half waist-shaped hole; 3-circuit board mounting mechanism; 3-1-box body;

3-2, opening holes; 3-mounting the column; 4-adaptor mounting means;

4-1-bottom support plate; 4-2-adaptor mounting plate; 4-3-adaptor mounting plate support column;

4-round hole; 4-5-groove; 4-6-threading hole;

4-7-folding; 5-a bump; 6-jack.

Detailed Description

As shown in fig. 1, the supporting device for collecting avian embryo signals of the present invention comprises an avian embryo acceptor 1 for accepting avian embryos, a camera mounting mechanism 2 for mounting a camera, a circuit board mounting mechanism 3 for mounting a signal processing circuit board, and an acceptor mounting mechanism 4 for mounting the avian embryo acceptor 1; bird embryo acceptor 1 is installed in the center department of acceptor installation mechanism 4, camera installation mechanism 2 is connected on the upper portion of acceptor installation mechanism 4, circuit board installation mechanism 3 is connected in the side of acceptor installation mechanism 4.

In this embodiment, as shown in FIG. 2, the bird embryo acceptor 1 is shaped like a hollow semi-ellipsoid.

In this embodiment, as shown in fig. 2, a plurality of projections 5 are arranged on the edge of the opening of the bird embryo acceptor 1, and a plurality of insertion holes 6 for installing embryo electric signal collecting sensors are uniformly arranged on the side surface of the bird embryo acceptor 1.

During specific implementation, the embryo electric signal acquisition sensor is inserted into the jack 6 to form an array acquisition signal, so that the weak electric signal of the bird embryo can be effectively acquired.

In this embodiment, as shown in fig. 3, the adaptor mounting mechanism 4 includes a bottom support plate 4-1 and an adaptor mounting plate 4-2, an adaptor mounting plate support column 4-3 is connected between the bottom support plate 4-1 and the adaptor mounting plate 4-2, a circular hole 4-4 is disposed in the center of the adaptor mounting plate 4-2, a groove 4-5 corresponding to the shape of the bump 5 is disposed at the edge of the circular hole 4-4, and the bird embryo adaptor 1 is mounted in the circular hole 4-4 and fixed by the engagement of the bump 5 and the groove 4-5.

In specific implementation, the bird embryo acceptor 1 is fixed on the acceptor mounting plate 4-2 through the meshing action between the bump 5 on the bird embryo acceptor 1 and the groove 4-5 on the acceptor mounting plate 4-2.

In this embodiment, as shown in fig. 4, the camera mounting mechanism 2 includes a first camera mounting plate 2-1 and a second camera mounting plate 2-2 stacked up and down, a camera mounting plate support column 2-3 is connected between the second camera mounting plate 2-2 and the adaptor mounting plate 4-2, the first camera mounting plate 2-1 is provided with a first half-kidney-shaped hole 2-4, the second camera mounting plate 2-2 is provided with a second half-kidney-shaped hole 2-5, and the camera is mounted through the cooperation of the first half-kidney-shaped hole 2-4 and the second half-kidney-shaped hole 2-5.

When the camera is specifically implemented, the first camera mounting plate 2-1 and the second camera mounting plate 2-2 can be fixedly connected together through screws, one end of the first half-kidney-shaped hole 2-4 is located at the center of the first camera mounting plate 2-1, and the other end of the first half-kidney-shaped hole 2-4 is located at the edge of the first camera mounting plate 2-1 to form a first opening; one end of the second semi-waist-shaped hole 2-5 is positioned at the center of the second camera mounting plate 2-2, and the other end of the second semi-waist-shaped hole 2-5 is positioned at the edge of the second camera mounting plate 2-2 to form a second opening; when the camera is installed, the camera is placed in the second half-kidney-shaped hole 2-5 of the second camera installation plate 2-2, then the first camera installation plate 2-1 is placed on the second camera installation plate 2-2, the direction of the first opening is opposite to that of the second opening, and the camera is fixed through the matching of the first half-kidney-shaped hole 2-4 and the second half-kidney-shaped hole 2-5.

In this embodiment, as shown in fig. 3, the circuit board mounting mechanism 3 includes a box body 3-1 for mounting a circuit board, the box body 3-1 is provided with an opening 3-2 for a signal line to pass through, and the bottom support plate 4-1 and the adapter mounting plate 4-2 are both connected to the box body 3-1.

In this embodiment, the adaptor mounting plate 4-2 is provided with a threading hole 4-6 for a signal wire to pass through.

During specific implementation, a signal wire connected with the embryo electric signal acquisition sensor sequentially passes through the threading hole 4-6 and the opening 3-2 and is connected with a circuit board in the box body 3-1.

In this embodiment, as shown in FIG. 3, the edge of the bottom support plate 4-1 is provided with an upward flap 4-7.

In specific implementation, the bottom support plate 4-1 is used for receiving embryo liquid seeped out from the bird embryo acceptor 1 while playing a supporting role, so as to avoid polluting the environment.

In this embodiment, as shown in fig. 3, the box 3-1 has a rectangular parallelepiped shape.

In this embodiment, as shown in fig. 3, a plurality of mounting posts 3-3 for mounting a circuit board are disposed in the box 3-1.

In specific implementation, the circuit board is fixedly connected to the mounting column 3-3 in the box body 3-1 through a screw.

When the utility model is used, the bird embryo acceptor 1 is firstly installed on the acceptor installation plate 4-2 of the acceptor installation mechanism 4, then the embryo electric signal acquisition sensor is inserted into the jack 6 on the side surface of the bird embryo acceptor 1, and a signal wire connected with the embryo electric signal acquisition sensor sequentially passes through the threading hole 4-6 and the opening hole 3-2 and is connected with a circuit board in the box body 3-1 in the circuit board installation mechanism 3; and then the camera is placed in the second half-kidney-shaped hole 2-5 of the second camera mounting plate 2-2, the first camera mounting plate 2-1 is placed on the second camera mounting plate 2-2, the direction of the first opening is opposite to that of the second opening, and the camera is fixed through the matching of the first half-kidney-shaped hole 2-4 and the second half-kidney-shaped hole 2-5.

The above, only be the preferred embodiment of the utility model discloses a it is not right to make any restriction the utility model discloses all according to the utility model discloses any simple modification, change and the equivalent structure change of technical essence to what above embodiment was made all still belong to the technical scheme's of the utility model protection within range.

Claims (10)

1. The utility model provides an birds embryo is strutting arrangement for signal acquisition which characterized in that: the device comprises a bird embryo acceptor (1) for accepting bird embryos, a camera mounting mechanism (2) for mounting a camera, a circuit board mounting mechanism (3) for mounting a signal processing circuit board, and an acceptor mounting mechanism (4) for mounting the bird embryo acceptor (1); bird embryo acceptor (1) is installed in the center department of acceptor installation mechanism (4), camera installation mechanism (2) are connected on the upper portion of acceptor installation mechanism (4), circuit board installation mechanism (3) are connected in the side of acceptor installation mechanism (4).

2. The avian embryo signal collection support device according to claim 1, wherein: the shape of the bird embryo acceptor (1) is hollow semi-ellipsoid.

3. The avian embryo signal collection support device according to claim 1, wherein: the edge of birds embryo acceptor (1) opening part is provided with a plurality of lugs (5), the side of birds embryo acceptor (1) evenly is provided with a plurality of jacks (6) that are used for installing embryo's signal of telecommunication collection sensor.

4. The avian embryo signal collection support device according to claim 3, wherein: the birds embryo bearing device is characterized in that the bearing device installing mechanism (4) comprises a bottom supporting plate (4-1) and a bearing device installing plate (4-2), a bearing device installing plate supporting column (4-3) is connected between the bottom supporting plate (4-1) and the bearing device installing plate (4-2), a round hole (4-4) is formed in the center of the bearing device installing plate (4-2), a groove (4-5) corresponding to the shape of the lug (5) is formed in the edge of the round hole (4-4), the birds embryo bearing device (1) is installed in the round hole (4-4), and is fixed through the lug (5) and the groove (4-5) in a meshed mode.

5. A bird embryo signal acquisition support device according to claim 4, wherein: camera installation mechanism (2) are including first camera mounting panel (2-1) and second camera mounting panel (2-2) of stacking from top to bottom, be connected with camera mounting panel support column (2-3) between second camera mounting panel (2-2) and adaptor mounting panel (4-2), be provided with first half waist shape hole (2-4) on first camera mounting panel (2-1), be provided with half waist shape hole of second (2-5) on second camera mounting panel (2-2), through the cooperation installation camera of first half waist shape hole (2-4) and half waist shape hole of second (2-5).

6. A bird embryo signal acquisition support device according to claim 4, wherein: the circuit board mounting mechanism (3) comprises a box body (3-1) for mounting a circuit board, the box body (3-1) is provided with a hole (3-2) for a signal line to pass through, and the bottom supporting plate (4-1) and the adaptor mounting plate (4-2) are both connected with the box body (3-1).

7. A bird embryo signal acquisition support device according to claim 4, wherein: the adaptor mounting plate (4-2) is provided with a threading hole (4-6) for a signal wire to pass through.

8. A bird embryo signal acquisition support device according to claim 4, wherein: the edge of the bottom support plate (4-1) is provided with an upward folded edge (4-7).

9. The avian embryo signal collection support device according to claim 6, wherein: the box body (3-1) is cuboid.

10. The avian embryo signal collection support device according to claim 6, wherein: the box body (3-1) is internally provided with a plurality of mounting columns (3-3) for mounting a circuit board.

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