CN210573455U - Fungus production monitoring devices - Google Patents

Abstract

The utility model discloses a fungus class production monitoring devices, including monitoring mechanism and ventilation mechanism, the inner wall at the proof box is installed to monitoring mechanism, the side of proof box still communicates there is ventilation mechanism, the front end of proof box still is connected with the chamber door through spring hinge rotation, the proof box in-connection has multiunit supporting mechanism, the side of proof box still communicates the breather pipe that has the valve, monitoring mechanism includes temperature sensor, humidity transducer, oxygen concentration sensor and connecting plate, temperature sensor, humidity transducer and oxygen concentration sensor all bond in the bottom of connecting plate, the connecting plate passes through multiunit countersunk head bolt and is connected with the proof box, the air-blower bonds through the viscose and digs the inner wall of the passageway of ventilating of establishing on the proof box top. This fungus class production monitoring devices not only can accurately obtain data, and the influence is little, still is convenient for observe and adjust, conveniently obtains the most accurate data.

Description

Fungus production monitoring devices

Technical Field

The utility model belongs to the technical field of the fungus class production, concretely relates to fungus class production monitoring devices.

Background

Fungi are a large family, which is ubiquitous. Currently, about 10 or more species of fungi are known. The fungi have simple structure, no organs such as roots, stems, leaves and the like, generally have no pigments such as chlorophyll and the like, and are mostly used for heterotrophic life. Fungi are classified into three types of organisms having no relationship with each other, the phylum Bacteroides, the phylum Myxomycota and the phylum Eumycota. Wherein slime bacteria is an organism between an animal and a fungus. It is a naked, cell wall-free, multinucleated protoplasm mass called a amoeboid (similar to amoeba) during the vegetative phase. But in the breeding period, it can produce spore with cellulose cell wall and has the character of fungus. Before fungus class batch production, mostly need carry out experimental production to learn the adaptation range of the required temperature of production growth, humidity and oxygen concentration, but traditional monitoring devices's monitoring is not very accurate, can receive the influence of for example nearer heating pipe.

Therefore, in order to meet the current situation, designing and producing a bacteria production monitoring device is urgently needed to meet the requirement of practical use.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a fungus class production monitoring devices to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a fungus class production monitoring devices, includes monitoring mechanism and ventilation mechanism, monitoring mechanism installs the inner wall at the proof box, the side of proof box still communicates there is ventilation mechanism, the front end of proof box still is connected with the chamber door through spring hinge rotation, the proof box in-connection has multiunit supporting mechanism, the side of proof box still communicates the breather pipe that has the valve.

Preferably, the monitoring mechanism comprises a temperature sensor, a humidity sensor, an oxygen concentration sensor and a connecting plate, the temperature sensor, the humidity sensor and the oxygen concentration sensor are all bonded at the bottom end of the connecting plate, and the connecting plate is connected with the test box through a plurality of groups of countersunk bolts.

Preferably, ventilation mechanism includes air-blower, air funnel and communicating pipe, the air-blower bonds through the viscose and digs the inner wall of the passageway of establishing of ventilating on the test box top, the top welding of air-blower has the air funnel, and the opposite side of air funnel passes through the left side below intercommunication of the test box of communicating pipe, and the periphery of communicating pipe bonds and has the rubber sleeve that is used for heat preservation, the side of test box bonds and has the heating pipe.

Preferably, the supporting mechanism includes the mount, even board and riser, the vertical inner wall of the both sides of proof box digs the horizontal screw hole that is equipped with multiunit equidistance and arranges, the transverse profile of mount sets up to the style of calligraphy of the mouth, the inner wall of mount bonds the even board that has multiunit equidistance to arrange, the riser has all been welded to the lateral surface that two sets of symmetries of mount set up, and the horizontal bolt that passes the horizontal through-hole of riser still is connected with horizontal screw hole, be provided with the culture dish that is used for placing the fungus class on the mount.

Preferably, the front end of the box door is provided with a coded lock used for being connected with the test box, and the inner wall of a perspective groove dug at the front end of the box door is bonded with a perspective window.

Preferably, the light is installed to even board bottom in the middle of supporting mechanism, and the light is also installed to the horizontal inner wall of proof box top, the side of proof box is connected with PLC and battery, and PLC passes through electric wire electric connection with temperature sensor, humidity transducer, oxygen concentration sensor, air-blower, light and heating pipe, the side that the chamber door is close to supporting mechanism bonds and has the reflector.

The utility model discloses a technological effect and advantage: according to the fungus production monitoring device, the temperature sensor, the humidity sensor and the oxygen concentration sensor of the monitoring mechanism can monitor various data in the test box, the monitoring mechanism is close to the ventilation mechanism, air of the test box can circulate due to air exhaust of the air blower, the accuracy of data monitoring is improved, and the heating pipe is arranged on one side far away from the monitoring mechanism, so that the influence degree is small; the transverse bolts of the supporting mechanism are connected with the transverse threaded holes at different positions, so that the height of the supporting mechanism can be adjusted, different requirements are met, and the culture dish of the supporting mechanism can be illuminated by the illuminating lamp; the PLC precisely controls various instruments, so that data are debugged, required data are finally tested, and a perspective window is convenient for workers to visually observe; this fungus class production monitoring devices not only can accurately obtain data, and the influence is little, still is convenient for observe and adjust, conveniently obtains the most accurate data.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a cross-sectional view of a test chamber of the present invention;

fig. 3 is a schematic structural view of the supporting mechanism of the present invention;

fig. 4 is a circuit connection diagram of the present invention.

In the figure: the device comprises a monitoring mechanism 1, a ventilation mechanism 2, a test box 3, a box door 4, a supporting mechanism 5, a temperature sensor 6, a humidity sensor 7, an oxygen concentration sensor 8, a connecting plate 9, a blower 10, a ventilation hopper 11, a communicating pipe 12, a fixing frame 13, a connecting plate 14, a vertical plate 15, a lighting lamp 16, a PLC17 and a storage battery 18.

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.

Unless defined otherwise, all references to up, down, left, right, front, back, inner and outer directions herein are to be interpreted as referring to up, down, left, right, front, back, inner and outer directions in the drawings to which the invention is applied, and all references are hereby incorporated herein by reference.

The utility model provides a fungus class production monitoring devices as shown in fig. 1-4, including monitoring mechanism 1 and ventilation mechanism 2, monitoring mechanism 1 installs the inner wall at proof box 3, proof box 3's side still communicates ventilation mechanism 2, proof box 3's front end still is connected with chamber door 4 through spring hinge rotation, proof box 3 in-connection has multiunit supporting mechanism 5, proof box 3's side still communicates the breather pipe that has the valve.

Specifically, monitoring mechanism 1 includes temperature sensor 6, humidity transducer 7, oxygen concentration sensor 8 and connecting plate 9, temperature sensor 6, humidity transducer 7 and oxygen concentration sensor 8 all bond in the bottom of connecting plate 9, connecting plate 9 is connected with proof box 3 through the multiunit countersunk head bolt.

Specifically, ventilation mechanism 2 includes air-blower 10, air funnel 11 and communicating pipe 12, air-blower 10 bonds through the viscose and digs the inner wall of the passageway of ventilating of establishing on 3 tops of proof box, the top welding of air-blower 10 has air funnel 11, and the left side below intercommunication of proof box 3 of communicating pipe 12 is passed through to air funnel 11's opposite side, and the periphery of communicating pipe 12 bonds and has and be used for heat retaining rubber sleeve, the side bonding of proof box 3 has the heating pipe, and is close to the tip of communicating pipe 12, reduces the error influence to monitoring mechanism 1.

It is specific, supporting mechanism 5 includes mount 13, even board 14 and riser 15, the vertical inner wall of the both sides of proof box 3 digs the horizontal screw hole that is equipped with multiunit equidistance and arranges, the transverse section of mount 13 sets up to the style of calligraphy of the mouth, the inner wall of mount 13 bonds has even board 14 that multiunit equidistance was arranged, is convenient for support and ventilate, riser 15 has all been welded to the lateral surface that two sets of symmetries of mount 13 set up, also conveniently ventilates from the side seam, and passes the horizontal bolt of the horizontal through-hole of riser 15 and still be connected with horizontal screw hole, adjusts the position of the horizontal screw hole of connection for supporting mechanism 5's height obtains adjusting, be provided with the culture dish that is used for placing the fungus class on mount.

Specifically, the trick lock that is used for being connected with proof box 3 is installed to the front end of chamber door 4, the perspective inslot inner wall that the front end of chamber door 4 was dug and is established bonds and has perspective window, and the staff of being convenient for observes the internal conditions from the outside.

Specifically, light 16 is installed to the even board 14 bottom in the middle of supporting mechanism 5, light 16 is also installed to the horizontal inner wall of proof box 3 top, and the switch of light 16 is adjusted according to actual need, the side of proof box 3 is connected with PLC17 and battery 18, and PLC17 and temperature sensor 6, humidity transducer 7, oxygen concentration sensor 8, air-blower 10, light 16 and heating pipe pass through electric wire electric connection, observe data from PLC17 'S display screen, and control and switch each instrument, the side that chamber door 4 is close to supporting mechanism 5 bonds there is the reflector, promote the illumination effect, the PLC17 model sets up to siemens S7300, air-blower 10 sets up to Jiangsu full wind environmental protection technology Limited' S CX-100, the heating pipe sets up to the MJCH heating pipe of specially nai good five metals electrical apparatus, temperature sensor 6 sets up to Wuhan 'S maser' S PT100, the oxygen concentration sensor 8 is set as the oxygen concentration sensor of the GAXT-X of Beijing Shangbaoda commercial Co., Ltd, and the humidity sensor 6 is set as the humidity sensor of Beijing Sensors sky science and technology Co., Ltd.

Specifically, this fungus class production monitoring devices, the quantity and the height of the supporting mechanism 5 of optional use as required, then close chamber door 4 and trick lock, control air-blower 10 according to PLC17 and open, then obtain the data that temperature sensor 6, humidity transducer 7 and oxygen concentration sensor 8 monitored from PLC17, then adjust as required, for example heating pipe, the valve and the light 16 of breather pipe to change the data in proof box 3, or artificial control, thereby observe the data that PLC17 monitored.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (6)

1. The utility model provides a fungus class production monitoring devices, includes monitoring mechanism (1) and ventilation mechanism (2), its characterized in that: the monitoring device is characterized in that the monitoring mechanism (1) is arranged on the inner wall of the test box (3), the side face of the test box (3) is communicated with a ventilation mechanism (2), the front end of the test box (3) is rotatably connected with a box door (4) through a spring hinge, a plurality of groups of supporting mechanisms (5) are connected in the test box (3), and the side face of the test box (3) is communicated with a ventilation pipe with a valve.

2. The bacteria production monitoring device of claim 1, wherein: monitoring mechanism (1) includes temperature sensor (6), humidity transducer (7), oxygen concentration sensor (8) and connecting plate (9), temperature sensor (6), humidity transducer (7) and oxygen concentration sensor (8) all bond in the bottom of connecting plate (9), connecting plate (9) are connected with proof box (3) through multiunit countersunk head bolt.

3. The bacteria production monitoring device of claim 1, wherein: ventilation mechanism (2) include air-blower (10), air funnel (11) and communicating pipe (12), air-blower (10) bond on test box (3) top through the viscose and dig the inner wall of the passageway of establishing of ventilating, the top welding of air-blower (10) has air funnel (11), and the left side below intercommunication of test box (3) that the opposite side of air funnel (11) passes through communicating pipe (12), and the periphery of communicating pipe (12) bonds and has and be used for heat retaining rubber sleeve, the side of test box (3) bonds and has the heating pipe.

4. The bacteria production monitoring device of claim 1, wherein: supporting mechanism (5) include mount (13), even board (14) and riser (15), the vertical inner wall of the both sides of proof box (3) digs the horizontal screw hole that is equipped with multiunit equidistance and arranges, the transverse section of mount (13) sets up to the style of calligraphy of the mouth, the inner wall of mount (13) bonds has even board (14) that multiunit equidistance was arranged, riser (15) have all been welded to the lateral surface that two sets of symmetries of mount (13) set up, and the horizontal bolt that passes the horizontal through-hole of riser (15) still is connected with horizontal screw hole, be provided with the culture dish that is used for placing the fungus class on mount (13).

5. The bacteria production monitoring device of claim 1, wherein: the coded lock used for being connected with the test box (3) is installed at the front end of the box door (4), and a perspective window is bonded to the inner wall of a perspective groove dug at the front end of the box door (4).

6. The bacteria production monitoring device of claim 1, wherein: light (16) are installed to even board (14) bottom in the middle of supporting mechanism (5), and light (16) are also installed to the horizontal inner wall of proof box (3) top, the side of proof box (3) is connected with PLC (17) and battery (18), and PLC (17) and temperature sensor (6), humidity transducer (7), oxygen concentration sensor (8), air-blower (10), light (16) and heating pipe pass through electric wire electric connection, the side that chamber door (4) are close to supporting mechanism (5) bonds and has the reflector.

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