CN210841046U - Energy-efficient plant tissue culture case - Google Patents

Abstract

The utility model discloses an energy-efficient plant tissue incubator, the power distribution box comprises a box body and a box door, the chamber door passes through hinge swing joint box, the box includes installation mechanism and circulation air inlet mechanism, installation mechanism's inside has set gradually circulating fan, first energy-saving fluorescent tube, the reflector panel, the energy-saving fluorescent tube of second, air duct board and shelf, first energy-saving fluorescent tube is installed to circulating fan's front end, first energy-saving fluorescent tube is equipped with the reflector panel along the vertical direction bottom side, the lower extreme of reflector panel is connected with the energy-saving fluorescent tube of second, the lower extreme of the energy-saving fluorescent tube of second is equipped with air duct board, the shelf is installed to air duct board's lower extreme, the bottom intercommunication of shelf has circulation air inlet mechanism, the left side. The incubator realizes the effects of good sealing effect and integration of the control system through the design of the incubator body and the incubator door.

Description

Energy-efficient plant tissue culture case

Technical Field

The utility model relates to a biological culture device technical field specifically is an energy-efficient plant tissue culture case.

Background

Tissue culture is an important method for biological research and plant breeding. In the tissue culture in the laboratory, the conditions of illumination intensity, temperature, humidity and the like need to be manually controlled, and the frequency and wavelength range of light needs to be regulated and controlled as necessary to ensure the efficient and smooth operation of the tissue culture. The existing tissue culture box is mostly transformed from a microorganism culture box for use, and the illumination control of the existing tissue culture box cannot meet the requirement of precise regulation and control of tissue culture. There are some special design's tissue culture case also, however, current tissue culture case can not effectively regulate and control irradiant intensity, also can not adjust the illumination of different angle light, and it is inhomogeneous often to have illumination especially in the tissue culture case of high density, and the phenomenon that is in the light blocks, group banks up and can not control the environment accurately, is unfavorable for improving group and banks up efficiency and effect with earth, brings adverse effect to tissue culture.

The existing tissue culture box has a slightly simple design structure, low culture efficiency, less intelligent application, lack of a circulating air inlet mechanism and an intelligent control system, insufficient energy conservation and high efficiency of the device, poor heat insulation performance of the inner wall of the culture box, and incapability of effectively observing the culture condition in the box.

In response to these problems and challenges, we have proposed an energy-efficient plant tissue incubator, which has the advantages of high culture efficiency, good energy-saving and high-efficiency performance of the device, excellent heat preservation and insulation performance of the inner wall of the incubator, and effective observation of the culture conditions in the incubator.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy-efficient plant tissue incubator, it is higher to have cultivation efficiency, the energy-conservation nature and the high efficiency of device are good, the inner wall heat preservation and the heat-proof quality of incubator are excellent, can observe advantages such as the cultivation condition in the incasement effectively, thereby it is slightly simple to have solved traditional tissue incubator project organization, cultivation efficiency is lower, the intellectuality is used less, lack circulation air inlet mechanism and intelligent control system, the device can not be enough energy-conservation and high-efficient, the inner wall heat preservation and the heat-proof quality of incubator are relatively poor, can not observe the problem of the cultivation condition in the incasement effectively.

In order to achieve the above object, the utility model provides a following technical scheme: a high-efficiency energy-saving plant tissue culture box comprises a box body and a box door, wherein the box door is movably connected with the box body through a hinge, the box body comprises an installation mechanism and a circulating air inlet mechanism, a circulating fan, a first energy-saving lamp tube, a reflecting plate, a second energy-saving lamp tube, an air duct plate and a shelf are sequentially arranged in the installation mechanism, the first energy-saving lamp tube is installed at the front end of the circulating fan, the reflecting plate is arranged on the bottom side of the first energy-saving lamp tube in the vertical direction, the lower end of the reflecting plate is connected with the second energy-saving lamp tube, the air duct plate is arranged at the lower end of the second energy-saving lamp tube, the shelf is installed at the lower end of the air duct plate, the circulating air inlet mechanism; the left side of the mounting mechanism is connected with a box door;

the chamber door includes the door body and motor, and the motor is installed on the left side terminal surface of the door body, is equipped with observation porthole and control panel on the preceding terminal surface of the door body in proper order, and control panel comprises LED display screen and operating button, and operating button sets up the right side at the LED display screen.

Furthermore, the preceding terminal surface of the door body is equipped with carbon dioxide concentration warning light and temperature warning light respectively, and the equal electric connection control panel of carbon dioxide concentration warning light and temperature warning light.

Furthermore, a sealing strip and a temperature sensor are respectively installed on the inner side surface of the door body, the sealing strip is made of ethylene propylene diene monomer rubber, and the temperature sensor is electrically connected with a temperature early warning lamp.

Further, install carbon dioxide concentration infrared sensor on the inner wall of installation mechanism, carbon dioxide concentration infrared sensor electric connection carbon dioxide concentration warning light.

Further, a heater is arranged in the inner cavity of the door body, and the rear end of the heater is connected with the motor.

Further, the inner wall of the installation mechanism is respectively provided with a heat insulation layer, a reinforcing layer and a heat insulation layer, and the reinforcing layer is arranged in an interlayer of the heat insulation layer and the heat insulation layer.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. this energy-efficient plant tissue incubator through the design of box and chamber door, has realized that the incubator seals effectually and the effect of control system integration.

2. The efficient and energy-saving plant tissue culture box achieves the purpose of saving energy by installing the first energy-saving lamp tube, the reflector and the second energy-saving lamp tube, so that the aim of using less light energy to achieve the same light energy as that required by a common culture box can be achieved; through being provided with circulation air inlet mechanism and circulating fan respectively, can guarantee the interior sufficient intake of case, promote the energy-conservation nature of device, also improved tissue culture's quality.

3. According to the efficient energy-saving plant tissue culture box, the carbon dioxide concentration infrared sensor and the temperature sensor are arranged, so that the carbon dioxide concentration and temperature conditions in the device can be sensed in time, and the cultured tissue is prevented from dying due to overhigh carbon dioxide concentration or overhigh temperature; the aim of controlling the door temperature is achieved by connecting the heater with the motor, and the optimal culture quality is ensured; through being provided with heat preservation, enhancement layer and insulating layer, promoted the heat preservation and insulation performance of incubator, more can adapt to complicated cultivation environment, prolonged the life of device, the cost is reduced.

Drawings

Fig. 1 is a schematic structural view of the closed state of the present invention;

FIG. 2 is a schematic view of the structure of the open state of the present invention;

FIG. 3 is a schematic view of the structure of the door of the present invention;

FIG. 4 is a schematic view of the planar structure of the inner chamber of the box door of the present invention;

fig. 5 is a schematic view of the sectional structure of the inner wall of the mounting mechanism of the present invention.

In the figure: 1. a box body; 11. an installation mechanism; 111. a circulating fan; 112. a first energy saving lamp tube; 113. a reflector; 114. a second energy saving lamp tube; 115. an air duct plate; 116. a shelf; 117. a carbon dioxide concentration infrared sensor; 118. a heat-insulating layer; 119. a reinforcing layer; 11A, a heat insulation layer; 12. a circulating air inlet mechanism; 121. circulating air inlet holes; 2. a box door; 21. a door body; 211. an observation porthole; 212. a control panel; 2121. an LED display screen; 2122. an operation button; 213. a carbon dioxide concentration early warning lamp; 214. a temperature warning light; 215. a sealing strip; 216. a temperature sensor; 217. a heater; 22. an electric motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, a high-efficiency energy-saving plant tissue incubator comprises a box body 1 and a box door 2, wherein the box door 2 is movably connected with the box body 1 through a hinge, the box body 1 comprises a mounting mechanism 11 and a circulating air inlet mechanism 12, a circulating fan 111, a first energy-saving lamp tube 112 and a reflector 113 are sequentially arranged in the mounting mechanism 11, the energy-saving refrigerator comprises a second energy-saving lamp tube 114, an air duct plate 115 and a shelf plate 116, wherein a first energy-saving lamp tube 112 is installed at the front end of a circulating fan 111, a reflecting plate 113 is arranged on the bottom side of the first energy-saving lamp tube 112 in the vertical direction, the lower end of the reflecting plate 113 is connected with the second energy-saving lamp tube 114, the air duct plate 115 is installed at the lower end of the second energy-saving lamp tube 114, the shelf plate 116 is installed at the lower end of the air duct plate 115, the bottom end of the shelf plate 116 is communicated with a circulating air inlet mechanism 12, a plurality of circulating air inlet holes 121 are installed on the; the front end face of the door body 21 is respectively provided with a carbon dioxide concentration early warning lamp 213 and a temperature early warning lamp 214, and the carbon dioxide concentration early warning lamp 213 and the temperature early warning lamp 214 are both electrically connected with the control panel 212; the inner wall of the mounting mechanism 11 is provided with a carbon dioxide concentration infrared sensor 117, and the carbon dioxide concentration infrared sensor 117 is electrically connected with a carbon dioxide concentration early warning lamp 213. The first energy-saving lamp tube 112, the reflecting plate 113 and the second energy-saving lamp tube 114 are arranged, so that the purpose of saving energy is achieved, and the purpose of using less light energy to achieve the same light energy as that required by a common incubator; by respectively arranging the circulating air inlet mechanism 12 and the circulating fan 111, sufficient air inlet volume in the box can be ensured, the energy-saving property of the device is improved, and the tissue culture quality is also improved; by installing the carbon dioxide concentration infrared sensor 117 and the temperature sensor 216, the carbon dioxide concentration and temperature conditions in the device can be sensed in time, and the cultured tissues can be prevented from dying due to overhigh carbon dioxide concentration or overhigh temperature.

Referring to fig. 3-4, a high-efficiency energy-saving plant tissue incubator, a door 2 includes a door body 21 and a motor 22, the motor 22 is installed on the left end face of the door body 21, an observation porthole 211 and a control panel 212 are sequentially arranged on the front end face of the door body 21, the control panel 212 is composed of an LED display 2121 and an operation button 2122, and the operation button 2122 is arranged on the right side of the LED display 2121; the inner side surface of the door body 21 is respectively provided with a sealing strip 215 and a temperature sensor 216, the sealing strip 215 is made of ethylene propylene diene monomer rubber, and the temperature sensor 216 is electrically connected with a temperature early warning lamp 214; a heater 217 is arranged in the inner cavity of the door body 21, and the rear end of the heater 217 is connected with the motor 22. The heater 217 is connected with the motor 22, so that the aim of controlling the door temperature is fulfilled, and the optimal culture quality is ensured.

Referring to fig. 5, the inner wall of the mounting mechanism 11 is respectively provided with an insulating layer 118, a reinforcing layer 119 and a heat insulating layer 11A, and the reinforcing layer 119 is arranged in an interlayer of the insulating layer 118 and the heat insulating layer 11A. Through being provided with heat preservation 118, enhancement layer 119 and insulating layer 11A, promoted the heat preservation heat-proof quality of incubator, more can adapt to complicated cultivation environment, prolonged the life of device, the cost is reduced.

In summary, the following steps: the efficient and energy-saving plant tissue culture box is characterized in that a circulating fan 111, a first energy-saving lamp tube 112, a reflector 113, a second energy-saving lamp tube 114, an air duct plate 115 and a shelf 116 are sequentially arranged in an installation mechanism 11, the first energy-saving lamp tube 112 is installed at the front end of the circulating fan 111, and the purpose of saving energy is achieved by installing the first energy-saving lamp tube 112, the reflector 113 and the second energy-saving lamp tube 114, so that the purpose of using less light energy as that required by a common culture box can be achieved; the first energy-saving lamp tube 112 is provided with a reflector 113 along the bottom side in the vertical direction, the lower end of the reflector 113 is connected with a second energy-saving lamp tube 114, the lower end of the second energy-saving lamp tube 114 is provided with an air duct plate 115, the lower end of the air duct plate 115 is provided with a shelf 116, the bottom end of the shelf 116 is communicated with the circulating air inlet mechanism 12, and the circulating air inlet mechanism 12 and the circulating fan 111 are respectively arranged, so that the sufficient air inlet amount in the box can be ensured, the energy saving performance of the device is improved, and the tissue culture quality is also improved; a plurality of circulating air inlet holes 121 are arranged on the front end surface of the circulating air inlet mechanism 12; the left side of the mounting mechanism 11 is connected with a box door 2; the motor 22 is installed on the left end face of the door body 21, the front end face of the door body 21 is sequentially provided with an observation porthole 211 and a control panel 212, the control panel 212 is composed of an LED display 2121 and an operation button 2122, and the operation button 2122 is arranged on the right side of the LED display 2121; the inner side surface of the door body 21 is respectively provided with the sealing strip 215 and the temperature sensor 216, the inner wall of the mounting mechanism 11 is provided with the carbon dioxide concentration infrared sensor 117, and the carbon dioxide concentration infrared sensor 117 and the temperature sensor 216 are mounted, so that the carbon dioxide concentration and temperature conditions in the device can be sensed timely, and the death of the cultured tissues due to overhigh carbon dioxide concentration or overhigh temperature can be avoided; a heater 217 is arranged in the inner cavity of the door body 21, the rear end of the heater 217 is connected with the motor 22, and the heater 217 is connected with the motor 22, so that the aim of controlling the door temperature is fulfilled, and the culture quality is guaranteed to be optimal; heat preservation 118, enhancement layer 119 and insulating layer 11A are installed respectively to the inner wall of installation mechanism 11, through being provided with heat preservation 118, enhancement layer 119 and insulating layer 11A, have promoted the heat preservation heat-proof quality of incubator, more can adapt to complicated cultivation environment, have prolonged the life of device, the cost is reduced.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an energy-efficient plant tissue incubator, includes box (1) and chamber door (2), and hinge swing joint box (1), its characterized in that are passed through in chamber door (2): the box body (1) comprises an installation mechanism (11) and a circulating air inlet mechanism (12), a circulating fan (111), a first energy-saving lamp tube (112), a reflecting plate (113), a second energy-saving lamp tube (114), an air duct plate (115) and a shelf (116) are sequentially arranged in the installation mechanism (11), the first energy-saving lamp tube (112) is installed at the front end of the circulating fan (111), the reflecting plate (113) is arranged on the bottom side of the first energy-saving lamp tube (112) in the vertical direction, the lower end of the reflecting plate (113) is connected with the second energy-saving lamp tube (114), the air duct plate (115) is arranged at the lower end of the second energy-saving lamp tube (114), the shelf (116) is installed at the lower end of the air duct plate (115), the circulating air inlet mechanism (12) is communicated with the bottom end of the shelf (116), and a plurality of circulating; the left side of the mounting mechanism (11) is connected with a box door (2);

the box door (2) comprises a door body (21) and a motor (22), the motor (22) is installed on the left end face of the door body (21), an observation porthole (211) and a control panel (212) are sequentially arranged on the front end face of the door body (21), the control panel (212) is composed of an LED display screen (2121) and an operation button (2122), and the operation button (2122) is arranged on the right side of the LED display screen (2121).

2. The high-efficiency energy-saving plant tissue culture box according to claim 1, characterized in that: the front end face of the door body (21) is respectively provided with a carbon dioxide concentration early warning lamp (213) and a temperature early warning lamp (214), and the carbon dioxide concentration early warning lamp (213) and the temperature early warning lamp (214) are electrically connected with the control panel (212).

3. The high-efficiency energy-saving plant tissue culture box according to claim 2, characterized in that: the inner side surface of the door body (21) is respectively provided with a sealing strip (215) and a temperature sensor (216), the sealing strip (215) is made of ethylene propylene diene monomer rubber, and the temperature sensor (216) is electrically connected with the temperature early warning lamp (214).

4. The high-efficiency energy-saving plant tissue culture box according to claim 2, characterized in that: install carbon dioxide concentration infrared sensor (117) on the inner wall of installation mechanism (11), carbon dioxide concentration infrared sensor (117) electric connection carbon dioxide concentration warning light (213).

5. The high-efficiency energy-saving plant tissue culture box according to claim 1, characterized in that: a heater (217) is arranged in the inner cavity of the door body (21), and the rear end of the heater (217) is connected with a motor (22).

6. The high-efficiency energy-saving plant tissue culture box according to claim 1, characterized in that: the inner wall of the mounting mechanism (11) is respectively provided with a heat insulation layer (118), a reinforcing layer (119) and a heat insulation layer (11A), and the reinforcing layer (119) is arranged in an interlayer of the heat insulation layer (118) and the heat insulation layer (11A).

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