CN218345208U - High-efficient deactivation jar that can quantitative water of sending - Google Patents

Abstract

The utility model discloses a can quantitative high-efficient inactivation jar of sending water relates to the medical equipment field, which comprises a tank body, be provided with heating mechanism, rabbling mechanism and complementary unit on the jar body. The utility model discloses a set up heating mechanism and tank connection, can utilize heating mechanism to continuously produce high temperature vapor and internal through spray tube input tank with high temperature vapor when using the device, thereby utilize and continuously input the internal high temperature vapor of jar and the internal solution contact of jar and inactivate the bacterium in the solution, and through annotating intraductal solenoid valve and the electron flowmeter of being provided with of liquid, solved current inactivation jar can not send water to heating water tank regularly and quantitatively in the use, thereby lead to the moisture in the heating water tank to burn futilely and have the potential safety hazard easily, and produce the influence to inactivation efficiency and effect, and current inactivation jar deactivation effect and the relatively poor problem of efficiency in the use.

Description

High-efficient deactivation jar that can quantitative water of sending

Technical Field

The utility model relates to an inactivation jar, in particular to can quantitatively send high-efficient inactivation jar of water.

Background

In the experiment and production process of vaccine, etc., the produced waste liquid contains a large amount of bacteria, fungi, viruses and a large amount of microorganisms, so that the waste liquid needs to be inactivated by using a fire extinguishing apparatus.

The existing inactivation tank has some defects and shortcomings when in use, and the specific needs for improvement are as follows:

the present deactivation jar can not send water to heating water tank in fixed time and quantity in the use to it has the potential safety hazard to lead to heating water tank moisture to burn futilely easily, and to deactivation efficiency and effect production influence, and present deactivation jar deactivation effect and efficiency are relatively poor in the use.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can quantitative high-efficient deactivation jar of sending water to solve the current deactivation jar that provides among the above-mentioned background art and can not send water to heating water tank in fixed time and quantity in the use, thereby lead to easily that the heating water tank water-logging burns futilely and has the potential safety hazard, and exert an influence to deactivation efficiency and effect, and current deactivation jar deactivation effect and the relatively poor problem of efficiency in the use.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a high-efficient deactivation jar that can quantitatively send water, includes a jar body, be provided with heating mechanism, rabbling mechanism and complementary unit on the jar body, the side fixed connection of the external surface of jar downside and three backup pad, front side the front surface fixed connection of backup pad has control panel, the left side seted up logical groove in the backup pad and run through the intercommunication with its side about, internal wall fixedly connected with level sensor of jar and temperature sensor, level sensor and temperature sensor all are connected with control panel two-way electricity, jar body upper end fixedly connected with filling pipe and pressure gauge, jar body bottom fixedly connected with delivery pipe, all be provided with the valve in delivery pipe and the filling pipe.

As a preferred technical scheme of the utility model, heating mechanism includes the storage water tank, the storage water tank right flank is connected with the external fixed surface of the jar body, through sealed bearing and a puddler swing joint in the storage water tank bottom face, a puddler bottom fixedly connected with belt pulley one, a plurality of heater strips of storage water tank downside inner wall fixedly connected with, it is a plurality of the input of heater strip all is connected with control panel's output electricity.

As a preferred technical scheme of the utility model, the liquid pipe is annotated to fixedly connected with in the storage water tank upper surface, annotate the liquid inside pipe wall from last to fixedly connected with solenoid valve and electron flowmeter in proper order down, the input of solenoid valve is connected with control panel's output electricity, electron flowmeter is connected with the two-way electricity of control panel, in the storage water tank upper surface with the left end fixed connection of spray tube, the right-hand member of spray tube passes jar body jar wall and fixed connection on the inner wall of the jar body, be provided with a plurality of shower nozzles on the spray tube.

As a preferred technical scheme of the utility model, rabbling mechanism includes the motor, motor fixed connection is on the mount pad, and mount pad fixed connection is on jar external surface, the bottom fixed connection of motor output shaft and puddler two, the upper end of puddler two is passed jar body bottom and is extended to inside through sealed bearing, two belt pulley two of puddler two downside fixedly connected with, downside the belt pulley two pass through the belt and be connected with the belt pulley transmission that sets up in the heating mechanism, and the belt passes from leading to the groove.

As a preferred technical scheme of the utility model, complementary unit includes the flow guide box, the flow guide box left surface is connected with the external fixed surface of the jar body, sealed bearing and connecting axle swing joint are passed through in the bottom surface left side of flow guide box, the connecting axle passes through antifriction bearing swing joint simultaneously in two fixed plates, two the fixed plate left surface all is connected with the external fixed surface of the jar body, the bottom fixedly connected with belt pulley of connecting axle is three, belt pulley is three to be connected through the belt and the transmission of the last side belt pulley that sets up in the rabbling mechanism.

As a preferred technical scheme of the utility model, connecting axle upper end and right side bevel gear fixed connection, right side bevel gear is connected with the meshing of left side bevel gear, left side bevel gear fixed connection is at the right-hand member of fixed axle, the fixed axle passes through sealed bearing swing joint in the mounting panel, the equal fixed connection of side is on two inner walls of connecting pipe around the mounting panel, fixed axle left end fixedly connected with flabellum, two right-hand member fixed connections of connecting pipe are in the baffle box left surface, two left ends of connecting pipe pass jar body jar wall and extend to inside.

As the utility model discloses a preferred technical scheme, a plurality of hot plates of the equal fixedly connected with of the lower side inner wall on the flow guide box, a plurality of hot plate crisscross distribution in upper and lower both sides set up, and is a plurality of the input of hot plate all is connected with control panel's output electricity, flow guide box right flank downside fixedly connected with connecting pipe one.

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

1. the utility model discloses a set up heating mechanism and tank connection, can utilize heating mechanism to continuously produce high temperature vapor and internal through the spray tube input jar with high temperature vapor when using the device, thereby the utilization is continuously input jar internal high temperature vapor and jar internal solution contact and is carried out the inactivation to the bacterium in the solution, and through annotating intraductal solenoid valve and the electronic flowmeter of being provided with of liquid, can add appropriate clear water to the storage water tank in the timing ration through control panel control solenoid valve and electronic flowmeter during use, thereby avoid the whole evaporation of water in the storage water tank to have the potential safety hazard and produce the influence to the internal inactivation effect of jar, and then the degree of automation that has improved this device has reduced staff's the amount of labour.

2. The utility model discloses a set up rabbling mechanism and jar body coupling, can utilize the rabbling mechanism to stir the internal solution of jar when using the device, thereby make the internal solution of jar and the even contact improvement inactivation effect of high temperature vapor, and then avoid the lower influence inactivation effect of solution temperature of jar body bottom, be connected the rabbling mechanism with the heating mechanism transmission simultaneously, it stirs to drive puddler one when the motor work in the clear water of storage water tank to rotate, thereby make the clear water in the storage water tank be heated and evenly improve boiling efficiency, and also can make the rivers in the storage water tank flow and produce more vapor and get into jar internal improvement inactivation effect.

3. The utility model discloses a set up complementary unit and jar body coupling, and be connected complementary unit and rabbling mechanism transmission, the air suction flow guide incasement with external when rabbling mechanism work motor drives fixed axle and flabellum corotation, and it is internal with high-temperature gas input jar after the hot plate heating, and then further improve the internal programming rate and the temperature of jar, further improve deactivation effect and efficiency, also can utilize the motor to drive the flabellum reversal with jar internal gas and take out the internal pressure of balance jar simultaneously when internal pressure is too big, and can utilize the hot plate to carry out high temperature heating disinfection and sterilization to the gas of taking out when taking out the internal gas of jar, and then avoid jar internal germ to leak and have the potential safety hazard, and then further increased the functionality of this device, simultaneously with heating mechanism, rabbling mechanism and complementary unit three transmission are connected, thereby improved the setting up that the power supply between each mechanism of this device has reduced and improved the energy utilization ratio of this device.

Drawings

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

FIG. 2 is a schematic structural view of the heating mechanism of the present invention;

fig. 3 is a schematic front view of the cross-sectional structure of the present invention;

FIG. 4 is a schematic structural view of the stirring mechanism of the present invention;

fig. 5 is a schematic structural diagram of the auxiliary mechanism of the present invention.

In the figure: 1 tank body, 2 heating mechanisms, 21 water storage tank, 22 first stirring rod, 23 heating wire, 24 first belt pulley, 25 liquid injection pipe, 26 electronic flowmeter, 27 electromagnetic valve, 28 spray pipe, 3 support plate, 4 stirring mechanism, 41 motor, 42 second belt pulley, 43 second stirring rod, 5 control panel, 6 auxiliary mechanism, 61 diversion box, 62 heating plate, 63 first connecting pipe, 64 connecting shaft, 65 fixing plate, 66 third belt pulley, 67 bevel gear, 68 fixing shaft, 69 fan blade, 610 second connecting pipe, 611 mounting plate, 7 filling pipe, 8 pressure gauge, 9 discharge pipe, 10 temperature sensor and 11 liquid level sensor.

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 efforts all belong to the protection scope of the present invention.

Referring to fig. 1-5, the utility model provides a technical solution of a high-efficiency inactivation tank capable of quantitatively delivering water: including a jar body 1, be provided with heating mechanism 2 on jar body 1, rabbling mechanism 4 and complementary unit 6, jar body 1 surface downside and the side fixed connection of three backup pad 3, the front surface fixed connection of preceding side backup pad 3 has control panel 5, it runs through the intercommunication with its side about to set up logical groove on the backup pad 3 of left side, jar body 1 inner wall fixedly connected with level sensor 11 and temperature sensor 10, level sensor 11 and temperature sensor 10 all are connected with control panel 5 two-way electricity, through be provided with level sensor 11 and temperature sensor 10 in jar body 1, thereby utilize level sensor 11 to measure the solution volume in jar body 1, and utilize temperature sensor 10 to measure the temperature in jar body 1, jar body 1 upper end fixedly connected with pressure gauge filler pipe 7 and 8, jar body 1 bottom fixedly connected with filler pipe 9, all be provided with the valve in drain pipe 9 and the pipe 7.

Heating mechanism 2 includes storage water tank 21, storage water tank 21 right flank is connected with the surface fixed of the jar body 1, through sealed bearing and a puddler 22 swing joint in the storage water tank 21 bottom surface, a puddler 22 bottom fixedly connected with belt pulley 24, through be provided with a puddler 22 in storage water tank 21, thereby stir the clear water in the storage water tank 21 when puddler 22 rotates, thereby make the clear water in the storage water tank 21 be heated and evenly improve boiling efficiency, and also enable the rivers in the storage water tank 21 and flow and produce more vapor and get into the internal improvement inactivation effect that improves of jar, storage water tank 21 downside inner wall fixedly connected with a plurality of heater strips 23, the input of a plurality of heater strips 23 all is connected with control panel 5's output electricity.

The interior fixedly connected with of storage water tank 21 upper surface annotates liquid pipe 25, annotate liquid pipe 25 inner wall from last to lower fixedly connected with solenoid valve 27 and electron flowmeter 26 in proper order, the input of solenoid valve 27 is connected with control panel 5's output electricity, electron flowmeter 26 is connected with control panel 5 both-way electricity, through be provided with solenoid valve 27 and electron flowmeter 26 in annotating liquid pipe 25, can add right amount of clear water to storage water tank 21 in the timing ration through control panel 5 control solenoid valve 27 and electron flowmeter 26 work when using the device, thereby avoid the water in storage water tank 21 all to evaporate and have the potential safety hazard and produce the influence to the deactivation effect in jar body 1, in storage water tank 21 upper surface and the left end fixed connection of spray tube 28, the right-hand member of spray tube 28 passes jar body 1 jar wall and fixed connection on jar body 1's inner wall, be provided with a plurality of shower nozzles on the spray tube 28.

Rabbling mechanism 4 includes motor 41, motor 41 fixed connection is on the mount pad, and mount pad fixed connection is on jar 1 external surface, the bottom fixed connection of motor 41 output shaft and puddler two 43, the upper end of puddler two 43 passes jar 1 bottom and extends to inside through sealed bearing, through be provided with puddler two 43 in jar 1, solution to jar 1 interior when puddler two 43 rotates stirs, thereby make the solution of jar 1 interior and the even contact improvement inactivation effect of high temperature vapor, and then avoid the lower influence inactivation effect of the solution temperature of jar 1 bottom, two 43 downside fixedly connected with belt pulleys two 42 of puddler, downside belt pulley two 42 passes through the belt and is connected with the 24 transmissions of the belt pulley that set up in the heating mechanism 2, and the belt passes from leading to the inslot.

The auxiliary mechanism 6 comprises a flow guide box 61, the left side surface of the flow guide box 61 is fixedly connected with the outer surface of the tank body 1, the left side of the bottom surface of the flow guide box 61 is movably connected with a connecting shaft 64 through a sealing bearing, the connecting shaft 64 is movably connected in two fixing plates 65 through a rolling bearing, the left side surfaces of the two fixing plates 65 are fixedly connected with the outer surface of the tank body 1, the bottom end of the connecting shaft 64 is fixedly connected with a third belt pulley 66, and the third belt pulley 66 is in transmission connection with a second upper belt pulley 42 arranged in the stirring mechanism 4 through a belt.

The upper end of the connecting shaft 64 is fixedly connected with a right bevel gear 67, the right bevel gear 67 is meshed with the left bevel gear 67, the left bevel gear 67 is fixedly connected to the right end of a fixing shaft 68, the fixing shaft 68 is movably connected into a mounting plate 611 through a sealing bearing, the front side surface and the rear side surface of the mounting plate 611 are fixedly connected to the inner wall of a second connecting pipe 610, the left end of the fixing shaft 68 is fixedly connected with a fan blade 69, the right end of the second connecting pipe 610 is fixedly connected into the left side surface of the flow guide box 61, and the left end of the second connecting pipe 610 penetrates through the wall of the tank body 1 and extends into the inside of the tank body.

The equal a plurality of hot plates 62 of fixedly connected with of lower side inner wall on flow guide box 61, the crisscross distribution setting of a plurality of hot plates 62 in upper and lower both sides, through the crisscross setting of hot plate 62 in upper and lower both sides, thereby utilize crisscross hot plate 62 who sets up to carry out the water conservancy diversion to the air current in flow guide box 61, and then the mobile time of extension air current in flow guide box 61, and then improve the heating effect of hot plate 62 to air current in flow guide box 61, the input of a plurality of hot plates 62 all is connected with control panel 5's output electricity, flow guide box 61 right flank downside fixedly connected with connecting pipe 63.

The utility model discloses an operating procedure does:

when the device is used for inactivating test liquid, a user firstly rotates the upper valve to open the filling pipe 7, then the user pours the solution to be treated into the tank body 1 through the filling pipe 7, at the moment, the liquid level sensor 11 can be used for detecting the height of the solution in the tank body 1, detection data are transmitted to the control panel 5 to be displayed on the control panel 5, when the solution in the tank body 1 reaches a proper amount, the pouring of the solution is stopped, the upper valve is closed, at the moment, the user connects the liquid injection pipe 25 with an external water source, the electromagnetic valve 27 is opened through the control panel 5 to enable a proper amount of clean water to enter the water storage tank 21, at the moment, the user can control the motor 41, the heating wires 23 and the heating plates 62 to work through the control panel 5, when the heating wires 23 work, the clean water in the water storage tank 21 is heated, and when the clean water in the water storage tank 21 is boiled, steam is generated and sprayed into the tank body 1 through the spray pipe 28 to heat and inactivate the solution in the tank body 1;

when the output shaft of the motor 41 rotates forwards, the second stirring rod 42 is driven to rotate to stir the solution in the tank body 1, meanwhile, the first stirring rod 22 is driven to rotate to stir the clean water in the water storage tank 21 through the transmission of the second lower belt pulley 42 and the first belt pulley 24, the fixed shaft 68 and the fan blades 69 are driven to rotate forwards through the transmission of the second upper belt pulley 42, the third belt pulley 66, the connecting shaft 64 and the two bevel gears 67, when the fan blades 69 rotate forwards, the outside air is sucked into the flow guide box 61 through the first connecting pipe 63, the air entering the flow guide box 61 flows along the heating plate 62 and heats the air flow through the heating plate 62, the heated high-temperature air flow enters the tank body 1 through the second connecting pipe 610 to further raise the temperature in the tank body 1, in the process, the temperature sensor 10 can be used for measuring the temperature in the tank body 1, the measured data are transmitted to the control panel 5 for displaying, the pressure in the tank body 1 can be detected by using the pressure gauge 8, when the pressure in the tank body 1 is too high, the control panel 5 controls the motor 41 to drive the reverse rotation of the fixed shaft 68 and the fan blades 69, the air flow guide box 61 is sucked into the first connecting pipe 61, the flow guide box to balance the air flow in the connecting pipe 61, and the flow in the connecting pipe 61, the flow in the connecting pipe 61 is discharged, the flow balance process of the heating plate 61, germs can be discharged by the connecting pipe 61, and the control;

the device can be used for adding clean water into the water storage tank 21 at regular time and quantity through setting of the control panel 5, when the clean water needs to be added into the water storage tank 21, the control panel 5 opens the electromagnetic valve 27 to enable the external clean water to be injected into the water storage tank 21 through the liquid injection pipe 25, when the clean water flows through the electronic flowmeter 26, the amount of water flowing into the water storage tank 21 is detected and detected data is transmitted to the control panel 5, when the volume entering the water storage tank 21 reaches a set volume, the electromagnetic valve 27 is closed by the control panel 5, after inactivation of the solution in the tank body 1 is completed, the heating plate 62, the heating wire 23 and the motor 41 are closed by the control panel 5, and the lower side valve is rotated to enable the solution in the tank body 1 to be discharged through the discharge pipe 9.

In the description of the present invention, it should be understood that the indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the indicated device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

In the present invention, unless otherwise explicitly specified or limited, for example, it may be fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

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 (7)

1. The utility model provides a can quantitative high-efficient deactivation jar of sending water, includes jar body (1), its characterized in that: the utility model discloses a heating tank, including jar body (1), jar body (1) is last to be provided with heating mechanism (2), rabbling mechanism (4) and complementary unit (6), the side fixed connection of the downside of the external surface of jar body (1) and three backup pad (3), the front side the front surface fixed connection of backup pad (3) has control panel (5), the left side seted up logical groove on backup pad (3) and run through the intercommunication with its left and right sides, jar body (1) inner wall fixedly connected with level sensor (11) and temperature sensor (10), level sensor (11) and temperature sensor (10) all are connected with control panel (5) two-way electricity, jar body (1) upper end fixedly connected with filling pipe (7) and pressure gauge (8), jar body (1) bottom fixedly connected with delivery pipe (9), all be provided with the valve in delivery pipe (9) and filling pipe (7).

2. The high-efficiency inactivation tank capable of quantitatively delivering water as claimed in claim 1, wherein: heating mechanism (2) are including storage water tank (21), storage water tank (21) right flank is connected with the external fixed surface of the jar body (1), through sealed bearing and puddler (22) swing joint in storage water tank (21) bottom surface, puddler (22) bottom fixedly connected with belt pulley (24), a plurality of heater strips (23) of storage water tank (21) downside inner wall fixedly connected with, it is a plurality of the input of heater strip (23) all is connected with the output electricity of control panel (5).

3. The high-efficiency inactivation tank capable of sending water quantitatively according to claim 2, characterized in that: storage water tank (21) upper surface internal fixedly connected with annotates liquid pipe (25), annotate liquid pipe (25) inner wall from last to down fixedly connected with solenoid valve (27) and electron flowmeter (26) in proper order, the input of solenoid valve (27) is connected with the output electricity of control panel (5), electron flowmeter (26) are connected with control panel (5) two-way electricity, in storage water tank (21) upper surface with the left end fixed connection of spray tube (28), the right-hand member of spray tube (28) passes jar body (1) jar wall and fixed connection on the inner wall of jar body (1), be provided with a plurality of shower nozzles on spray tube (28).

4. The high-efficiency inactivation tank capable of quantitatively delivering water as claimed in claim 1, wherein: rabbling mechanism (4) are including motor (41), motor (41) fixed connection is on the mount pad, and mount pad fixed connection is on jar body (1) surface, the bottom fixed connection of motor (41) output shaft and puddler two (43), the upper end of puddler two (43) passes jar body (1) bottom and extends to its inside through sealed bearing, two belt pulley two (42) of puddler two (43) downside fixedly connected with, downside belt pulley two (42) are connected through belt and belt pulley (24) transmission that sets up in heating mechanism (2), and the belt passes from leading to the groove.

5. The high-efficiency inactivation tank capable of quantitatively delivering water as claimed in claim 1, wherein: complementary unit (6) are including flow guide box (61), flow guide box (61) left surface is connected with the outer fixed surface of the jar body (1), sealed bearing and connecting axle (64) swing joint are passed through in the bottom surface left side of flow guide box (61), swing joint is in two fixed plates (65) simultaneously through antifriction bearing in connecting axle (64), two fixed plate (65) left surface all is connected with the outer fixed surface of the jar body (1), the bottom fixedly connected with belt pulley three (66) of connecting axle (64), upside belt pulley two (42) transmission connection that belt and rabbling mechanism (4) set up are passed through in belt three (66).

6. The high-efficiency inactivation tank capable of sending water quantitatively is characterized in that: connecting axle (64) upper end and right side bevel gear (67) fixed connection, right side bevel gear (67) are connected with left side bevel gear (67) meshing, and the left side bevel gear (67) fixed connection is at the right-hand member of fixed axle (68), fixed axle (68) are through sealed bearing swing joint in mounting panel (611), the equal fixed connection in mounting panel (611) front and back side is on connecting pipe two (610) inner wall, fixed axle (68) left end fixedly connected with flabellum (69), connecting pipe two (610) right-hand member fixed connection is in baffle box (61) left side, connecting pipe two (610) left end passes jar body (1) jar wall and extends to its inside.

7. The high-efficiency inactivation tank capable of quantitatively delivering water as claimed in claim 5, wherein: the equal a plurality of hot plate (62) of fixedly connected with of lower side inner wall about flow guide box (61), a plurality of hot plate (62) of upper and lower both sides crisscross distribution setting, it is a plurality of the input of hot plate (62) all is connected with the output electricity of control panel (5), flow guide box (61) right flank downside fixedly connected with connecting pipe (63).

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