CN207219615U - A kind of quantitative inoculating facility of automatic sterilizing - Google Patents

Abstract

The utility model discloses a kind of automatic quantitative inoculating facility of sterilizing, it is related to inoculating facility technical field, including：Babinet, the transmission device being arranged in the babinet and the bacteria crushing device set gradually from top to bottom, quantitative drawing-in device and bacterium bag perforating device, the discharge port of the bacteria crushing device is opposite with the feed inlet of the quantitative drawing-in device, and the feed inlet of the bacterium bag perforating device is opposite with the discharge port of the quantitative drawing-in device；Disinfection equipment is equipped with above the babinet, feed inlet is equipped with above the bacteria crushing device, level-sensing device is equipped with the bacteria crushing device, the bacteria crushing device and the quantitative drawing-in device are connected with the transmission device.The utility model effect of inoculation is good, and inoculation efficiency is high.

Description

A kind of quantitative inoculating facility of automatic sterilizing

Technical field

Inoculating facility technical field is the utility model is related to, more particularly to a kind of quantitative inoculating facility of automatic sterilizing.

Background technology

Inoculation is one of key link in Edible Fungi, is also referred to as sowed.If inoculation technique is unqualified, it will cause Living contaminants, survival rate is low, and therefore, inoculation will be carried out aseptically in strict accordance with sterile working code.

In the prior art, the inoculation of solid edible bacterium is usually carried out by manual type, and during inoculation, worker can directly contact Bacterium bag, and bacterium with worker etc. easily pollutes strain, and manually the inoculum concentration of strain is difficult to control, so as to lead Cause effect of inoculation poor.

The content of the invention

In view of this, the utility model provides a kind of quantitative inoculating facility of automatic sterilizing, its effect of inoculation is good, inoculation efficiency It is high.

The utility model is solved the above problems by following technological means：

The quantitative inoculating facility of the automatic sterilizing of one kind of the utility model, including：Babinet, the transmission being arranged in the babinet The device and bacteria crushing device set gradually from top to bottom, quantitative drawing-in device and bacterium bag perforating device, the strain crush The discharge port of device is opposite with the feed inlet of the quantitative drawing-in device, the feed inlet of the bacterium bag perforating device with it is described quantitative The discharge port of drawing-in device is opposite；Disinfection equipment is equipped with above the babinet, feed inlet is equipped with above the bacteria crushing device, Level-sensing device is equipped with the bacteria crushing device, the bacteria crushing device and the quantitative drawing-in device are filled with the transmission Put connection.

Further, the bacteria crushing device includes putting barrel, pulverization cylinder, crushes helical axis and several crushing vanes, Several described crushing vanes are fixed on the crushing helical axis, the level-sensing device be arranged on it is described put in barrel, The pulverization cylinder is put below barrel positioned at described, and the crushing helical axis is arranged in the pulverization cylinder, and the crushing is spiral One end of axis is connected with the transmission device.

Further, the quantitative drawing-in device includes proportioning device, splicing cylinder and rotation axis, and the splicing cylinder is arranged on institute State below pulverization cylinder, the proportioning device is arranged in the splicing cylinder, and one end of the rotation axis is consolidated with the proportioning device Fixed connection, the other end of the rotation axis are connected with the transmission device.

Further, the transmission device include the first driving gear, the second driving gear, the first driven gear, second from Moving gear, transmission shaft and motor, described one end for crushing helical axis are connected with first driving gear, first driven tooth Wheel is engaged with first driving gear, and one end of the transmission shaft is connected with first driven gear, the transmission shaft The other end is connected with second driving gear, and second driven gear is engaged with second driving gear, the rotation One end of axis is connected with second driven gear, and the motor is fixedly connected with the transmission shaft.

Further, the bacterium bag perforating device includes blanking tube, the first guide ring, lead, bolt, connecting rod, cam And guiding mechanism, the blanking tube are arranged on below the splicing cylinder, the lead is fixed on described connect by the bolt On barrel outer wall, first guide ring is set on the lead, and the cam is connected with the other end of the rotation axis, The one end of the cam also with the guiding mechanism is connected, and the other end of the guiding mechanism is vertical with one end of the connecting rod Connection, the other end of the connecting rod are fixedly connected with the side of first guide ring, the opposite side of first guide ring Fixed with the blanking tube.

Further, the bacterium bag perforating device further includes bacterium bag placing groove, leading screw and guide rod, and the bacterium bag placing groove is set Put below the blanking tube, the lower part of the bacterium bag placing groove passes through the leading screw and guide rod.

Further, the bacterium bag perforating device further includes the second guide ring, and second guide ring is set in the guiding On column, and one end of second guide ring is fixed on the outer wall of the splicing cylinder.

Further, the proportioning device include spherosome and be opened on the spherosome be used for measure strain quantity Quantitative slot, one end of the rotation axis are fixedly connected with the spherosome.

Further, the disinfection equipment includes ozone sterilization device.

Further, it is additionally provided with high efficiency particle air filter above the babinet.

The quantitative inoculating facility of the automatic sterilizing of one kind of the utility model has the advantages that：

The utility model provides a kind of automatic quantitative inoculating facility of sterilizing, including transmission device and sets successively from top to bottom The bacteria crushing device put, quantitative drawing-in device and bacterium bag perforating device, during inoculation, strain is poured into bacteria crushing device, Quantitative drawing-in device is fallen into after strain is crushed by bacteria crushing device, quantitative drawing-in device pours into a certain amount of strain Bacterium bag perforating device, then realize that bacterium bag is punched by bacterium bag perforating device, automatic ration seeded process is completed, effect of inoculation is good.

Brief description of the drawings

The utility model is further described with reference to the accompanying drawings and examples.

Fig. 1 is a kind of structure diagram of automatic quantitative inoculating facility of sterilizing of the utility model；

Fig. 2 is a kind of partial structural diagram of bacterium bag perforating device of the utility model；

Fig. 3 is the structure diagram of the quantitative inoculating facility of the automatic sterilizing of another kind of the utility model.

Embodiment

The utility model is described in detail below with reference to attached drawing, as shown in Figure 1 to Figure 3：One kind of the present embodiment The automatic quantitative inoculating facility of sterilizing includes：Babinet 1, the transmission device 2 being arranged in the babinet 1 and set gradually from top to bottom Bacteria crushing device 3, quantitative drawing-in device 4 and bacterium bag perforating device 5, the discharge port of the bacteria crushing device 3 with it is described The feed inlet of quantitative drawing-in device 4 is opposite, the discharging of the feed inlet of the bacterium bag perforating device 5 and the quantitative drawing-in device 4 Mouth is opposite；The top of babinet 1 is equipped with disinfection equipment 6, and the top of bacteria crushing device 3 is equipped with feed inlet, the strain powder Level-sensing device 7 is equipped with crushing device 3, the bacteria crushing device 3 and the quantitative drawing-in device 4 connect with the transmission device 2 Connect.

Wherein, the disinfection equipment 6 includes ozone sterilization device.

In the present embodiment, the bacteria crushing device 3 includes putting barrel 31, pulverization cylinder 32, crushes helical axis 33 and some A crushing vane 34, several described crushing vanes 34 are fixed on the crushing helical axis 33, and the level-sensing device 7 is set Put and put described in barrel 31, the pulverization cylinder 32 puts the lower section of barrel 31 positioned at described, and the crushing helical axis 33 is arranged on institute State in pulverization cylinder 32, and described one end for crushing helical axis 33 is connected with the transmission device 2.

In the present embodiment, the quantitative drawing-in device 4 includes proportioning device 41, splicing cylinder 42 and rotation axis 43, described to connect Barrel 42 is arranged on the lower section of pulverization cylinder 32, and the proportioning device 41 is arranged in the splicing cylinder 42, the rotation axis 43 One end be fixedly connected with the proportioning device 41, the other end of the rotation axis 43 is connected with the transmission device 2.

Wherein, the proportioning device 41 include spherosome and be opened on the spherosome be used for measure strain quantity Quantitative slot, one end of the rotation axis 43 are fixedly connected with the spherosome.

It should be noted that the size design of quantitative slot meets the required strain inoculum concentration of hole after bacterium bag punching.

In the present embodiment, the transmission device 2 includes the first driving gear 21, the second driving gear 22, the first driven tooth Take turns the 23, second driven gear 24, transmission shaft 25 and motor 26, described one end for crushing helical axis 33 and first driving gear 21 connections, first driven gear 23 engages with first driving gear 21, one end of the transmission shaft 25 and described the One driven gear 23 connects, and the other end of the transmission shaft 25 is connected with second driving gear 22, second driven tooth Wheel 24 is engaged with second driving gear 22, and one end of the rotation axis 25 is connected with second driven gear 24, described Motor 26 is fixedly connected with the transmission shaft 25.

In the present embodiment, the bacterium bag perforating device 5 includes blanking tube 51, the first guide ring 52, lead 53, bolt 54th, connecting rod 55, cam 56 and guiding mechanism 57, the blanking tube 51 are arranged on the lower section of splicing cylinder 42, the lead 53 are fixed on 42 outer wall of splicing cylinder by the bolt 54, and first guide ring 52 is set in the lead 53 On, the cam 56 is connected with the other end of the rotation axis 43, and the cam 56 also connects with one end of the guiding mechanism 57 Connect, one end vertical connection of the other end of the guiding mechanism 57 and the connecting rod 55, the other end of the connecting rod 55 with The side of first guide ring 52 is fixedly connected, and the opposite side of first guide ring 52 is fixed with the blanking tube 51.

Wherein, the lower end of blanking tube 51 is pointed structures, and the upper end of blanking tube 51 is installed on 42 lower end inner wall of splicing cylinder, Ensure that leakproofness is good so that strain will not be trickled down.

In the present embodiment, the bacterium bag perforating device 5 further includes bacterium bag placing groove 58, leading screw 59 and guide rod 60, described Bacterium bag placing groove 58 is arranged on the lower section of blanking tube 51, and the lower part of the bacterium bag placing groove 58 through the leading screw 59 and is oriented to Bar 60.

In the present embodiment, the bacterium bag perforating device 5 further includes the second guide ring 61, and second guide ring 61 is set in On the lead 53, and one end of second guide ring 61 is fixed on the outer wall of the splicing cylinder 42.

It should be noted that the utility model does not limit the quantity of lead 53, can be one or more, when When lead 53 is more, more leads 53 are uniformly fixed on the outer wall of splicing cylinder 42, and the first guide ring 52 and second The quantity of guide ring 61 is equal with the quantity of lead 53.

Wherein, the second guide ring 61 is used to improve directionality when blanking tube 51 moves up and down, and ensures that blanking tube 51 is done directly Line moves.

Further, the top of babinet 1 is additionally provided with high efficiency particle air filter 8.

Wherein, high efficiency particle air filter 8 is used to filter the air entered in babinet 1, prevents that strain etc. is contaminated, further Improve effect of inoculation.

The concrete operating principle of the utility model is：Strain is put into putting in barrel 31 in bacteria crushing device 3, puts material Level-sensing device 7 in cylinder 31 is used for the quantity for detecting strain in real time, when strain quantity is less than preset value, then sends alarm signal, User is reminded to add strain.Strain in barrel 31 is put since gravity from the discharge port for putting barrel 31 falls into pulverization cylinder 32 In, motor 26 drives the first driving gear 21 to rotate after the power is turned on, by transmission shaft 25, and the drive first of the first driving gear 21 is driven Gear 23 rotates, then crushes helical axis 33 and rotated under the drive of the first driven gear 23, so that crushing vane 34 rotates, The strain on crushing vane 34 that then drops is crushed blade 34 and crushes, and eventually falls into quantitative drawing-in device 4, meanwhile, motor 26 drive the second driving gear 22 to rotate by transmission shaft 25, and the second driving gear 22 drives the second driven gear 24 to rotate, and Before inoculation, the first driving gear 21 and the first driven gear 23, the second driving gear 22 and the second driven gear is previously set 24 transmission when 26 rotating speed of motor, after ensureing that strain drops into proportioning device 41, will fill up, with full by the quantitative slot calculated The required strain inoculum concentration of hole after sufficient bacterium bag punching, after quantitative slot fills up, the rotation axis 43 of quantitative drawing-in device 4 exists Rotated under the drive of second driven gear 24, and then drive spherosome to rotate so that the strain in quantitative slot falls into bacterium bag punching In the blanking tube 51 of device 5, at this time, cam 56 rotates under the drive of rotation axis 43, then the guiding mechanism being connected with cam 56 About 57 move reciprocatingly, when guiding mechanism 57 pumps, connecting rod 55 band connected vertically with guiding mechanism 57 Dynamic first guide ring 52 moves up and down on lead 53, so that the blanking tube 51 being fixedly connected with the first guide ring 52 Moving up and down, in the hole after strain feeding bacterium bag punching after most crushing at last, bacterium bag is placed in bacterium bag placing groove 58, Under the rotation of leading screw 59, bacterium bag placing groove 58 does orientation set a distance along guide rod 60 and moves, and it is inoculated to be finally completed automatic ration Journey, effect of inoculation is good, efficient.

The utility model provides a kind of automatic quantitative inoculating facility of sterilizing, including transmission device 2 and from top to bottom successively The bacteria crushing device 3 of setting, quantitative drawing-in device 4 and bacterium bag perforating device 5, during inoculation, pour into strain by strain and crush dress In putting 3, quantitative drawing-in device 4 is fallen into after strain is crushed by bacteria crushing device 3, quantitative drawing-in device 4 will be a certain amount of Strain pour into bacterium bag perforating device 5, then realize that bacterium bag is punched by bacterium bag perforating device 5, complete automatic ration seeded process, Effect of inoculation is good；Level-sensing device 7 is equipped with addition, putting in barrel 31, can ensure that strain inoculation feeding work is continuous, improve inoculation effect Rate.

Finally illustrate, above example is merely intended for describing the technical solutions of the present application, but not for limiting the present application, although ginseng The utility model is described in detail according to preferred embodiment, it will be understood by those of ordinary skill in the art that, can be to this The technical solution technical scheme is modified or replaced equivalently of utility model, without departing from the objective and model of technical solutions of the utility model Enclose, it should all cover among the right of the utility model.

Claims (10)

1. A kind of 1. quantitative inoculating facility of automatic sterilizing, it is characterised in that：Including：Babinet, the transmission being arranged in babinet dress Bacteria crushing device, quantitative drawing-in device and bacterium bag perforating device, the strain put and set gradually from top to bottom crush dress The discharge port put is opposite with the feed inlet of the quantitative drawing-in device, and the feed inlet of the bacterium bag perforating device is quantitatively fed with described Expect that the discharge port of device is opposite；

   Disinfection equipment is equipped with above the babinet, feed inlet, the bacteria crushing device are equipped with above the bacteria crushing device Interior to be equipped with level-sensing device, the bacteria crushing device and the quantitative drawing-in device are connected with the transmission device.
2. A kind of 2. automatic quantitative inoculating facility of sterilizing according to claim 1, it is characterised in that：The bacteria crushing device Institute is fixed at including putting barrel, pulverization cylinder, crushing helical axis and several crushing vanes, several described crushing vanes State and crush on helical axis, the level-sensing device be arranged on it is described put in barrel, the pulverization cylinder is put below barrel positioned at described, described Crush helical axis to be arranged in the pulverization cylinder, and described one end for crushing helical axis is connected with the transmission device.
3. A kind of 3. automatic quantitative inoculating facility of sterilizing according to claim 2, it is characterised in that：The quantitative drawing-in device Including proportioning device, splicing cylinder and rotation axis, the splicing cylinder is arranged on below the pulverization cylinder, and the proportioning device is arranged on In the splicing cylinder, one end of the rotation axis is fixedly connected with the proportioning device, the other end of the rotation axis with it is described Transmission device connects.
4. A kind of 4. automatic quantitative inoculating facility of sterilizing according to claim 3, it is characterised in that：The transmission device includes First driving gear, the second driving gear, the first driven gear, the second driven gear, transmission shaft and motor, the crushing are spiral One end of axis is connected with first driving gear, and first driven gear is engaged with first driving gear, the biography One end of moving axis is connected with first driven gear, and the other end of the transmission shaft is connected with second driving gear, institute The second driven gear to be stated to engage with second driving gear, one end of the rotation axis is connected with second driven gear, The motor is fixedly connected with the transmission shaft.
5. A kind of 5. automatic quantitative inoculating facility of sterilizing according to claim 4, it is characterised in that：The bacterium bag perforating device Including blanking tube, the first guide ring, lead, bolt, connecting rod, cam and guiding mechanism, the blanking tube is arranged on described Below splicing cylinder, the lead is fixed on the splicing drum outer wall by the bolt, and first guide ring is set in On the lead, the cam is connected with the other end of the rotation axis, the one end of the cam also with the guiding mechanism Connection, one end vertical connection of the other end of the guiding mechanism and the connecting rod, the other end of the connecting rod with it is described The side of first guide ring is fixedly connected, and opposite side and the blanking tube of first guide ring are fixed.
6. A kind of 6. automatic quantitative inoculating facility of sterilizing according to claim 5, it is characterised in that：The bacterium bag perforating device Bacterium bag placing groove, leading screw and guide rod are further included, the bacterium bag placing groove is arranged on below the blanking tube, and the bacterium bag is placed The lower part of groove passes through the leading screw and guide rod.
7. A kind of 7. automatic quantitative inoculating facility of sterilizing according to claim 6, it is characterised in that：The bacterium bag perforating device The second guide ring is further included, second guide ring is set on the lead, and one end of second guide ring is fixed On the outer wall of the splicing cylinder.
8. A kind of 8. automatic quantitative inoculating facility of sterilizing according to claim 3, it is characterised in that：The proportioning device includes Spherosome and the quantitative slot for being used to measure strain quantity being opened on the spherosome, one end of the rotation axis and the circle Sphere is fixedly connected.
9. A kind of 9. automatic quantitative inoculating facility of sterilizing according to claim 1, it is characterised in that：The disinfection equipment includes Ozone sterilization device.
10. A kind of 10. automatic quantitative inoculating facility of sterilizing according to claim 1, it is characterised in that：Above the babinet also Equipped with high efficiency particle air filter.