CN111454829A

CN111454829A - Water-saving and electricity-saving medical bacteria incubator

Info

Publication number: CN111454829A
Application number: CN202010272395.6A
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-09
Filing date: 2020-04-09
Publication date: 2020-07-28

Abstract

The invention relates to a water-saving and electricity-saving medical bacteria incubator, which comprises an incubator body (200), a culture dish (300) and an elastic water curtain part (400), wherein the water curtain part drives a water curtain formed by a first swing rod (412), a second swing rod (413) and a third swing rod (414) to swing in a reciprocating mode through switching repulsion and attraction of an electromagnet (408) and a permanent magnet (407) so as to humidify culture gas, and the water flow in a first water collector (201) is disturbed through reciprocating motion of the electromagnet (408) and the permanent magnet (407) arranged in the first water collector (201) so as to humidify the culture gas. The invention can not only make the water curtain composed of the first swing rod (412) and the second swing rod (413) swing back and forth through the elastic water curtain part (400), but also utilize the generated humidifying effect, thereby generating good humidifying effect, saving water and electricity.

Description

Water-saving and electricity-saving medical bacteria incubator

Technical Field

The invention relates to a medical experimental tool, in particular to a medical drug experimental tool.

Background

During the deployment of new drugs, pharmacological experiments typically need to be performed using bacterial cultures. During the experiment, the bacteria need to be configured in an environment which is more suitable for the growth of the bacteria, particularly in an environment with higher humidity. It is common practice to place a glass of clear water in the bacteria incubator to achieve the humidification effect. But fails to meet the culture requirements of certain bacteria that are particularly moist. Other techniques, such as ultrasonic humidification, cannot humidify a particular humidification fluid, such as a culture solution or physiological saline or an insecticide or hormone, because they would clog the ultrasonic humidification jets. In addition, the traditional fixed water curtain type humidification has lower evaporation effect, and wastes water and electricity.

Therefore, there is a need for a water-saving and power-saving medical bacteria incubator with good humidification effect, no water quality selection and high humidification efficiency.

Disclosure of Invention

The invention aims to solve the technical problem of providing a water-saving and electricity-saving medical bacteria incubator which has good humidification effect, does not select water quality and has high humidification efficiency.

The invention relates to a water-saving and electricity-saving medical bacteria incubator, which comprises

A tank body, wherein culture gas is arranged in the tank body, and a first water collector is arranged at the bottom of the tank body;

a culture dish fixed to a side surface of an inside of the case by a fixing rod;

and the elastic water curtain part drives the water curtain consisting of the first swing rod, the second swing rod and the third swing rod to swing in a reciprocating manner by switching repulsion and attraction of the electromagnet and the permanent magnet so as to humidify the culture gas, and breaks up water flow in the first water collector by reciprocating motion of the electromagnet and the permanent magnet arranged in the first water collector so as to humidify the culture gas.

The invention relates to a water-saving and electricity-saving medical bacteria incubator, wherein an elastic water curtain part comprises a second water collector, a water pump, a first guide pipe, a spray head, a second guide pipe, a guide cylinder, a permanent magnet, an electromagnet, a power supply module, a first connecting rod, a second connecting rod, a first swing rod, a second swing rod, a third swing rod, a first shaft and a second shaft; the second water collector is arranged on the outer side of the box body, a water pump is arranged in the second water collector, a water inlet of the water pump is communicated with the second water collector, a water outlet of the water pump is communicated with one end of the first guide pipe, the other end of the first guide pipe is communicated with a water inlet of the spray head, the spray head is fixed with the bottom of the culture dish, and a water outlet of the spray head sprays water towards the tops of the first swing rod and/or the third swing rod;

a guide cylinder is arranged in the first water collector, the bottom of the guide cylinder is fixed with the permanent magnet, an electromagnet is arranged on the upper portion of the permanent magnet, the electromagnet moves along the inside of the guide cylinder and is matched with the guide cylinder in shape, the electromagnet is connected with a power module through a lead, the top of the electromagnet is fixed with the bottom of the first connecting rod, the top of the first connecting rod is hinged with the top of the second connecting rod, the bottom of the second connecting rod is hinged with the middle of the first oscillating rod, the bottom of the first oscillating rod is hinged with the top of the second oscillating rod, the bottom of the second oscillating rod is installed on the first shaft through a bearing, the first shaft is fixed with the side surface of the inside of the box body, the top of the first oscillating rod is hinged with the top of the third oscillating rod, and the bottom of the third oscillating rod is installed on the second shaft through a bearing, the second shaft is fixed to a side surface of the inside of the case.

The invention relates to a water-saving and electricity-saving medical bacteria incubator, wherein the upper part of the inner circumferential surface of a guide cylinder is fixed with the outer circumferential surface of a limiting ring, and the inner diameter of the inner circumferential surface of the limiting ring is smaller than the outer diameter of an electromagnet.

The invention relates to a water-saving and electricity-saving medical bacteria incubator, wherein an electromagnet comprises a coil layer, a fixed layer, a rubber layer and a friction layer from inside to outside, the fixed layer is wound outside the coil layer, the coil layer is made of a coil of a lead, the fixed layer is made of aluminum or plastic, the rubber layer is wrapped outside the fixed layer, the rubber layer is made of rubber, the friction layer is wrapped outside the rubber layer, and the friction layer is made of cast iron.

The invention relates to a water-saving and electricity-saving medical bacteria incubator, wherein the shape of a permanent magnet is the same as the internal shape of a guide cylinder.

The invention relates to a water-saving and electricity-saving medical bacteria incubator, wherein a gap is formed between the shape of a permanent magnet and the interior of a guide cylinder.

The invention relates to a water-saving and electricity-saving medical bacteria incubator, wherein the bottom of a guide cylinder is fixed with the bottom of a first water collector.

The invention relates to a water-saving and electricity-saving medical bacteria incubator, wherein a guide cylinder is fixed with the side surface of the interior of a first water collector.

The invention relates to a water-saving and electricity-saving medical bacteria incubator, wherein a guide cylinder is fixed with the side surface of a first water collector through a third connecting rod.

The water-saving and power-saving medical bacteria incubator is different from the prior art in that the water curtain formed by the first swing rod and the second swing rod can be swung in a reciprocating mode through the elastic water curtain part, water in the first water collector can be stirred through the reciprocating motion of the first electromagnet for driving the first swing rod and the second swing rod to move, and the generated wave humidification effect is utilized, so that a good humidification effect is generated, and water and electricity are saved.

The water-saving and power-saving medical bacteria incubator of the invention is further explained with reference to the attached drawings.

Drawings

FIG. 1 is a front view of a water and electricity saving medical bacteria incubator;

FIG. 2 is a dynamic variation diagram of FIG. 1;

FIG. 3 is a top view of FIG. 1;

FIG. 4 is an enlarged view of a portion of FIG. 1;

FIG. 5 is an enlarged view of a portion of FIG. 2;

FIG. 6 is an enlarged view of a portion of FIG. 3;

FIG. 7 is an enlarged view of a portion of FIG. 4;

fig. 8 is a detail view of fig. 7.

Detailed Description

As shown in figures 1-8, referring to figures 1, 2, 3 and 4, the water-saving and electricity-saving medical bacteria incubator comprises

A tank 200 in which culture gas is disposed and a first water collector 201 is disposed at the bottom thereof;

a culture dish 300 fixed to a side surface of the inside of the case 200 by a fixing rod 301;

and an elastic water curtain part 400 for humidifying the culture gas by driving a water curtain composed of a first swing link 412, a second swing link 413, and a third swing link 414 to swing back and forth by switching repulsion and attraction of an electromagnet 408 and a permanent magnet 407, and disturbing water flow in the first water collector 201 by the back and forth movement of the electromagnet 408 and the permanent magnet 407 disposed in the first water collector 201.

In the present invention, the elastic water curtain part 400 can not only swing the water curtain formed by the first swing link 412 and the second swing link 413 in a reciprocating manner, but also can stir the water in the first water collector 201 by the reciprocating movement of the first electromagnet 408 driving the first swing link 412 and the second swing link 413 to move, and the generated wave generates a humidifying effect, thereby generating a good humidifying effect, saving water and electricity.

Wherein the culture gas may be: low oxygen air, high pressure air, low pressure air, highly toxic gases, and the like.

The first water collector 201 and the second water collector 401 are basin-shaped or bowl-shaped bodies with openings on the upper portions.

Wherein, the elastic water curtain parts 400 can be uniformly distributed along the circumferential direction of the inside of the box body 200 by 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 or more groups.

As a further explanation of the present embodiment, referring to fig. 4, 5 and 6, the elastic water curtain part 400 includes a second water collector 401, a water pump 402, a first conduit 403, a nozzle 404, a second conduit 405, a guide tube 406, a permanent magnet 407, an electromagnet 408, a power module 409, a first link 410, a second link 411, a first swing link 412, a second swing link 413, a third swing link 414, a first shaft 415 and a second shaft 416; the second water collector 401 is disposed outside the box body 200, a water pump 402 is disposed inside the second water collector, a water inlet of the water pump 402 is communicated with the second water collector 401, a water outlet of the water pump 402 is communicated with one end of the first conduit 403, the other end of the first conduit 403 is communicated with a water inlet of the spray head 404, the spray head 404 is fixed to the bottom of the culture dish 300, and a water outlet of the spray head 404 sprays water toward the tops of the first swing link 412 and/or the third swing link 414;

a guide cylinder 406 is arranged in the first water collector 201, the bottom of the guide cylinder 406 is fixed with the permanent magnet 407, the upper part of the permanent magnet 407 is provided with an electromagnet 408, the electromagnet 408 moves along the inside of the guide cylinder 406 and is matched with the shape of the guide cylinder, the electromagnet 408 is connected with a power module 409 through a lead, the top of the electromagnet 408 is fixed with the bottom of the first connecting rod 410, the top of the first connecting rod 410 is hinged with the top of the second connecting rod 411, the bottom of the second connecting rod 411 is hinged with the middle part of the first swing rod 412, the bottom of the first swing rod 412 is hinged with the top of the second swing rod 413, the bottom of the second swing rod 413 is mounted on the first shaft 415 through a bearing, the first shaft 415 is fixed with the side surface inside the box body 200, and the top of the first swing rod 412 is hinged with the top of the third swing rod 414, the bottom of the third swing link 414 is mounted on the second shaft 416 through a bearing, and the second shaft 416 is fixed to a side surface of the inside of the case 200.

The invention stirs the water in the first water collector 201 by the attraction and repulsion of the electromagnet 408 and the permanent magnet 407, thereby generating water waves in the first water collector 201, even generating water splash to increase the humidifying effect; and the attraction and repulsion of the electromagnet 408 and the permanent magnet 407 enable the first link 410 to move up and down, the first link 410 enables the first swing link 412, the second swing link 413 and the third swing link 414 to swing back and forth through the second link 411, and the water flow sprayed by the spray head can change the flowing direction along with the swing of the first swing link 412, the second swing link 413 and the third swing link 414 when flowing along the first swing link 412, the second swing link 413 and the third swing link 414, so that the contact chance and the contact area of the water flow and the culture gas are increased, even flying water drops are generated, the evaporation effect is further increased, and the humidification effect is increased. In addition, the swinging of the second swing rod 413 and the third swing rod 414 which are partially arranged in the first water collector can also act on the water in the first water collector, so that the water is further increased in wave and more complex in stroke by matching with the movement of the electromagnet 408, and the humidifying effect is increased.

According to the invention, the water pump 402, the first conduit 403 and the second conduit 405 drive the water flow to flow back to the second water collector 401 along the spray head 404, the first swing rod 412, the second swing rod 413 and the third swing rod 414 of the first water collector 201, so that the water flow can be continuously circulated, and the water is saved. The lowest position of the first sump 201 is higher than the highest position of the second sump 401, so that when humidification is not required, the water in the first sump 201 flows back to the second sump 401 by turning off the water pump 402, and humidification is stopped.

As a further explanation of this embodiment, referring to fig. 4 and 7, the upper portion of the inner circumferential surface of the guide cylinder 406 is fixed to the outer circumferential surface of the position-limiting ring 430, and the inner diameter of the inner circumferential surface of the position-limiting ring 430 is smaller than the outer diameter of the electromagnet 408.

The limit ring 430 limits the electromagnet 408 moving along the axial direction inside the guide cylinder 406, thereby preventing the electromagnet 408 from flying out of the guide cylinder 406 due to the overlarge repulsive force.

As a further explanation of this embodiment, referring to fig. 8, the electromagnet 408 includes an inner to an outer coil layer 481, a fixing layer 482, a rubber layer 483, and a friction layer 484, the coil layer 481 is surrounded by the fixing layer 482, the coil layer 481 is made of a coil of a conductive wire, the fixing layer 482 is made of aluminum or plastic, the fixing layer 482 is surrounded by a rubber layer 483, the rubber layer 483 is made of rubber, the rubber layer 483 is surrounded by a friction layer 484, and the friction layer 484 is made of cast iron.

The present invention can ensure the waterproof performance and the friction performance of the electromagnet 408 made of the above-mentioned multi-layer, that is, the coil layer 481 is connected with the power module through the conducting wire, so that the coil layer 481 can generate the magnetic induction wire to attract and repel the electromagnet 408 and the permanent magnet 407, the coil layer 481 can protect the coil layer 481 from being squeezed through the fixing layer 482, the rubber layer 483 can ensure the waterproof performance of the coil layer 481, and the friction layer 484 can realize lower friction force through cast iron with lower surface friction coefficient to avoid obstructing the movement of the electromagnet 408 along the guide cylinder 406 after repelling or attracting.

Wherein, the wire of the coil layer 481 passes through and is embedded on the rubber layer 483 and the friction layer 484 to achieve the double waterproof effect, and the wire of the coil layer 481 is covered by the rubber skin to prevent water, so that the electromagnet 408 can avoid short circuit when reciprocating in water.

The electromagnet 408 comprises a coil layer 481, a fixing layer 482, a rubber layer 483 and a friction layer from inside to outside, wherein the coil layer 481 is connected with a power module through a lead, the power module is fixed with the bottom of the culture dish 300 and is connected with a user terminal through a wireless communication module, the power module is a battery with a circuit board for connection, the fixing layer 482 is wrapped outside the coil layer 481, the fixing layer 482 is made of aluminum or plastic, the rubber layer 483 is made of rubber, the friction layer 484 is made of cast iron, and the friction layer 484 is in contact with the inner surface of the guide cylinder 406.

As a further explanation of the present embodiment, referring to fig. 4 and 5, the shape of the permanent magnet 407 is the same as the inner shape of the guide cylinder 406.

In the invention, the shape of the permanent magnet 407 is the same as the internal shape of the guide cylinder 406, and the side end surface of the permanent magnet 407 can be completely fixed with the internal part of the guide cylinder 406, so that the wave is reduced as much as possible, and the phenomenon that the water is excessively splashed into the culture dish 300 to dilute the liquid in the culture dish 300 is avoided.

Of course, as a preferred modification, referring to fig. 6 and 7, the permanent magnet 407 may have a shape with a gap from the inside of the guide cylinder 406.

Of course, as a preferable mode, the shape of the permanent magnet 407 is different from the inner shape of the guide cylinder 406, or there is a gap, or the projection area of the permanent magnet 407 in the guide cylinder 406 is smaller than the total projection area in the guide cylinder 406, that is, there is a gap between the permanent magnet 407 and the guide cylinder 406, which allows water to flow downward, so as to increase waves and water splash, improve the humidification effect, save water and save electricity.

As a further explanation of this embodiment, referring to fig. 2, the bottom of the guide 406 is fixed to the bottom of the first sump 201.

In the invention, the guide cylinder 406 is fixed with the bottom of the first water collector 201, so that the bottom of the guide cylinder 406 is not communicated with the bottom of the first water collector 201 to generate deeper waves in the first water collector 201, and the phenomenon that water drops fly into the culture dish 300 to dilute the liquid in the culture dish 300 due to overlarge water is avoided.

Of course, a variant of this embodiment is that, as shown in fig. 1 and 4, the guide 406 is fixed to the inner lateral surface of the first water collector 201.

According to the invention, the bottom of the guide cylinder 406 is communicated with the bottom of the first water collector 201 in a manner of fixing the side surface, and the movement depth of the electromagnet 408 is relatively high, so that large water splash and wave are generated on the horizontal plane of the first water collector 201, the humidifying effect and the power utilization efficiency are increased, and the water and electricity are saved.

Of course, a modification of this embodiment is that, referring to fig. 3, 4, 5 and 6, the guide cylinder 406 is fixed to the side surface of the first water collector 201 by a third link 431.

In the invention, the bottom of the guide cylinder 406 is communicated with the bottom of the first water collector by fixing the third connecting rod 431, and the moving depth of the electromagnet 408 is relatively high, so that large water splash and wave are generated on the horizontal plane of the first water collector 201 to increase the humidifying effect and the power utilization efficiency, thereby saving water and electricity, and not obstructing the movement of the first swing rod 412, the second swing rod 413 and the third swing rod 414.

The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solution of the present invention by those skilled in the art should fall within the protection scope defined by the claims of the present invention without departing from the spirit of the present invention.

Claims

1. The utility model provides a medical bacteria incubator of water conservation power saving type which characterized in that: comprises that

A tank (200) in which culture gas is disposed and a first water collector (201) is disposed at the bottom thereof;

a culture dish (300) fixed to a side surface of the inside of the case (200) by a fixing rod (301);

and an elastic water curtain part (400) which drives a water curtain consisting of the first swing rod (412), the second swing rod (413) and the third swing rod (414) to swing back and forth by switching repulsion and attraction of the electromagnet (408) and the permanent magnet (407) so as to humidify the culture gas, and disturbs water flow in the first water collector (201) by the back and forth movement of the electromagnet (408) and the permanent magnet (407) arranged in the first water collector (201) so as to humidify the culture gas.

2. The water and power saving medical bacteria incubator according to claim 1, wherein: the elastic water curtain part (400) comprises a second water collector (401), a water pump (402), a first guide pipe (403), a spray head (404), a second guide pipe (405), a guide cylinder (406), a permanent magnet (407), an electromagnet (408), a power supply module (409), a first connecting rod (410), a second connecting rod (411), a first swing rod (412), a second swing rod (413), a third swing rod (414), a first shaft (415) and a second shaft (416); the second water collector (401) is arranged outside the box body (200), a water pump (402) is arranged in the second water collector, a water inlet of the water pump (402) is communicated with the second water collector (401), a water outlet of the water pump (402) is communicated with one end of the first conduit (403), the other end of the first conduit (403) is communicated with a water inlet of the spray head (404), the spray head (404) is fixed with the bottom of the culture dish (300), and a water outlet of the spray head (404) sprays water towards the tops of the first swing rod (412) and/or the third swing rod (414);

a guide cylinder (406) is arranged in the first water collector (201), the bottom of the guide cylinder (406) is fixed with the permanent magnet (407), an electromagnet (408) is arranged at the upper part of the permanent magnet (407), the electromagnet (408) moves along the inside of the guide cylinder (406) and is matched with the guide cylinder in shape, the electromagnet (408) is connected with a power module (409) through a lead, the top of the electromagnet (408) is fixed with the bottom of the first connecting rod (410), the top of the first connecting rod (410) is hinged with the top of the second connecting rod (411), the bottom of the second connecting rod (411) is hinged with the middle part of the first swing rod (412), the bottom of the first swing rod (412) is hinged with the top of the second swing rod (413), and the bottom of the second swing rod (413) is mounted on the first shaft (415) through a bearing, the first shaft (415) is fixed with the side surface of the inside of the box body (200), the top of the first swing link (412) is hinged with the top of the third swing link (414), the bottom of the third swing link (414) is mounted on the second shaft (416) through a bearing, and the second shaft (416) is fixed with the side surface of the inside of the box body (200).

3. The water and power saving medical bacteria incubator according to claim 2, wherein: the upper part of the inner circumferential surface of the guide cylinder (406) is fixed with the outer circumferential surface of the limiting ring (430), and the inner diameter of the inner circumferential surface of the limiting ring (430) is smaller than the outer diameter of the electromagnet (408).

4. The water and power saving medical bacteria incubator according to claim 3, wherein: the electromagnet (408) comprises a coil layer (481), a fixing layer (482), a rubber layer (483) and a friction layer (484), wherein the coil layer (481) is wound with the fixing layer (482) outside the coil layer (481), the coil layer (481) is made of a coil of a conducting wire, the fixing layer (482) is made of aluminum or plastic, the fixing layer (482) is wrapped with the rubber layer (483), the rubber layer (483) is made of rubber, the rubber layer (483) is wrapped with the friction layer (484), and the friction layer (484) is made of cast iron.

5. The water and power saving type medical bacteria incubator according to claim 4, wherein: the shape of the permanent magnet (407) is the same as the internal shape of the guide cylinder (406).

6. The water and power saving type medical bacteria incubator according to claim 4, wherein: a gap is formed between the shape of the permanent magnet (407) and the inside of the guide cylinder (406).

7. The water and power saving medical bacteria incubator according to claim 5, wherein: the bottom of the guide cylinder (406) is fixed with the bottom of the first water collector (201).

8. The water and power saving medical bacteria incubator according to claim 6, wherein: the guide cylinder (406) is fixed to a side surface of an inside of the first sump (201).

9. The water and power saving medical bacteria incubator according to claim 6, wherein: the guide cylinder (406) is fixed to a side surface of the first sump (201) by a third link (431).