1. The utility model provides a quick sterilizing equipment for microbiological detection, its structure is equipped with organism (1), controls panel (2), top cap (3), opening and closing door (4), control panel (2) embedded solid and install on organism (1) outside terminal surface, the articulated one side position of connecting in organism (1) of opening and closing door (4), top cap (3) are located opening and closing door (4) top and activity joint in organism (1) top, its characterized in that:

the steam turbine engine body is characterized in that the engine body (1) is provided with an inner container (11), a bearing device (12), a pressure frame (13) and a steam nozzle (14), the bearing device (12) is embedded in the middle position of the inner side of the inner container (11), the pressure frame (13) is located below the bearing device (12), the pressure frame (13) is communicated with and matched with the pressure frame (13), and the steam nozzle (14) is installed at the two ends of the inner side of the inner container (11).

2. The rapid sterilization apparatus for microorganism detection according to claim 1, wherein: the bearing device (12) is provided with a carrier plate (121), a clamping groove (122), a movable body (123) and a circulation cavity (124), the clamping groove (122) and the carrier plate (121) are of an integrated structure and are arranged in a penetrating mode, the movable body (123) moves in the circulation cavity (124), the circulation cavity (124) and the carrier plate (121) are of an integrated structure and are located on the inner side of the circulation cavity, and the movable body (123) and the clamping groove (122) are arranged adjacently and are matched.

3. The rapid sterilization apparatus for microorganism detection according to claim 2, wherein: the movable body (123) is provided with a displacement plate (a1), a hemispherical block (a2) and a jacking device (a3), the hemispherical block (a2) is connected to the inner side end of the displacement plate (a1), and the jacking device (a3) is connected to the other side of the displacement plate (a1) and is in movable fit with the displacement plate.

4. The rapid sterilization apparatus for microorganism detection according to claim 3, wherein: the displacement plate (a1) is provided with a solid plate (a11), a cavity (a12) and a displacement ball (a13), the cavity (a12) is embedded in the solid plate (a11), and the displacement ball (a13) is movably arranged in the cavity (a 12).

5. The rapid sterilization apparatus for microorganism detection according to claim 3, wherein: the hemispherical block (a2) is provided with a heated block (a21), a resisting rod (a22), a magnetic block (a23) and a spring (a24), wherein the resisting rod (a22) moves inside the heated block (a21), the magnetic block (a23) is connected to the tail end of the resisting rod (a22) in movable fit, the spring (a24) is connected between the resisting rods (a22), and the magnetic block (a23) is in clearance fit with the inner side end of the heated block (a 21).

6. The rapid sterilization apparatus for microorganism detection according to claim 3, wherein: the jacking device (a3) is provided with a rod frame (a31) and a jacking block (a32), wherein the jacking block (a32) is connected at one side end position of the rod frame (a31) and is movably matched with the rod frame.

7. The rapid sterilization apparatus for microorganism detection according to claim 6, wherein: the ejecting block (a32) is provided with contact blocks (s1), a folding block (s2) and a knocking ball (s3), the folding block (s2) is connected between the contact blocks (s1), and the knocking ball (s3) is movably arranged at the inner side end of the contact block (s 1).

8. The rapid sterilization apparatus for microorganism detection according to claim 7, wherein: the contact block (s1) is provided with a solid block (s11), a groove cavity (s12) and a rolling ball (s13), the groove cavity (s12) and the solid block (s11) are of an integrated structure and are located inside the groove cavity, and the rolling ball (s13) is movably arranged in the groove cavity (s 12).

Background

In a biological culture operation, it is generally necessary to detect and kill microorganisms to make the biological culture in a sterile state, a rapid sterilization apparatus is a device that can denature and inactivate microorganisms in a culture by using physical and chemical means such as temperature and air pressure, and a pressurized steam sterilizer is a type of equipment for microbial detection sterilization, which kills the microorganisms in a short time by using a large amount of steam.

Based on the findings of the inventor, the existing rapid sterilization device for detecting microorganisms has the following defects:

the liquid culture is usually placed in a vessel, when the culture solution contains protein and sugar substances, the liquid culture has heat resistance, and the reaction in the culture medium can form precipitates which are different from the liquid culture and are easy to contain bacteria-wrapping substances so as to precipitate the bacteria-wrapping substances, so that the steam can not completely react with microorganisms in the culture solution, and the sterilization efficiency is influenced.

Therefore, it is necessary to provide a rapid sterilization apparatus for microbial detection.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a rapid sterilization device for microorganism detection, so as to solve the problems in the prior art.

In order to achieve the purpose, the invention is realized by the following technical scheme: a quick sterilization device for microbial detection is structurally provided with a machine body, an operation panel, a top cover and an opening and closing door, wherein the operation panel is fixedly embedded on the end face of the outer side of the machine body, the opening and closing door is hinged and connected to one side end of the machine body, and the top cover is positioned above the opening and closing door and is movably clamped on the top end of the machine body.

The machine body is provided with an inner container, a bearing device, a pressure frame and steam nozzles, the bearing device is embedded in the middle position of the inner side of the inner container, the pressure frame is positioned below the bearing device, the pressure frame is communicated with the pressure frame and matched with the pressure frame, and the steam nozzles are arranged at two ends of the inner side of the inner container.

As a further improvement of the invention, the carrying device is provided with a carrier plate, clamping grooves, movable bodies and circulation cavities, wherein the clamping grooves and the carrier plate are of an integrated structure and are arranged in a through manner, the movable bodies move in the circulation cavities, the circulation cavities and the carrier plate are of an integrated structure and are positioned on the inner sides of the circulation cavities, the movable bodies and the clamping grooves are arranged adjacently and matched, the carrier plate is a plate with vertical through openings, the upper end and the lower end of each clamping groove are through, the diameter width of each clamping groove is gradually reduced from top to bottom, the number of the movable bodies is four, the movable bodies are transversely and uniformly distributed relative to the carrier plate, and the inside of each circulation cavity is in an empty groove state.

As a further improvement of the invention, the movable body is provided with a displacement plate, hemispherical blocks and a top collision device, the hemispherical blocks are connected at the inner side end of the displacement plate, the top collision device is connected at the other side of the displacement plate and is movably matched with the displacement plate, two hemispherical blocks and top collision devices are respectively connected at the two side ends of the displacement plate and are matched with one another, two groups of the hemispherical blocks are arranged and are oppositely arranged to perform relative displacement, the hemispherical blocks are in a hemispherical state and can deform under heat, and the top collision device has elasticity.

As a further improvement of the invention, the displacement plate is provided with a solid plate, four cavities and four displacement balls, the cavities are embedded in the solid plate, the displacement balls move in the cavities, the displacement balls are vertically and uniformly arranged relative to the solid plate, the interior of the displacement balls is of a rhombic hollow structure, and the displacement balls have certain weight bias and are spherical blocks.

As a further improvement of the invention, the hemispherical block is provided with a heated block, a resisting rod, a magnetic block and a spring, the resisting rod is movable inside the heated block, the magnetic block is connected to the tail end of the resisting rod and is movably matched, the spring is connected between the resisting rods, the magnetic block is connected to the inner end of the heated block in a clearance fit manner, the resisting rod has elasticity and is hinged and folded, the magnetic block is magnetic to generate a mutual attraction magnetic field, the heated block can expand in an arc shape when being heated, and the heated block deforms when being heated.

As a further improvement of the invention, the jacking device is provided with a rod frame and a jacking block, the jacking block is connected at one side end of the rod frame and is movably matched with the rod frame, the rod frame has elasticity, and the jacking block is in a hemispherical state.

As a further improvement of the invention, the ejecting block is provided with contact blocks, folding blocks and a knocking ball, the folding blocks are connected between the contact blocks, the knocking ball moves at the inner side end of the contact blocks, the folding blocks have good dragging elasticity, the contact blocks are in a petal shape and are in an up-and-down symmetrical structure relative to the folding blocks, and the knocking ball can be circularly and elastically knocked.

As a further improvement of the invention, the contact block is provided with a solid block, a groove cavity and a rolling ball, the groove cavity and the solid block are of an integrated structure and are positioned in the groove cavity, the rolling ball moves in the groove cavity, the inner part of the groove cavity is in a hollow groove state, and the rolling ball has weight.

Compared with the prior art, the invention has the following beneficial effects:

1. through steam and hemisphere piece contact, make it be heated the inflation, the displacement plate produces drive power, order about the top and hit the device and lean on to the household utensils, by being heated the piece side direction arch gradually, do benefit to support the pole and drive the magnetic path and put the activity of turning over, supplementary heated block deformation, become reaction force by the attracting magnetic force of magnetic path and the elasticity of spring, the circulation expands, closed change, supplementary real board resets the displacement, the displacement ball rolls along with the real board, to the side direction production impact, do benefit to the real board and receive bigger displacement drive power, thereby can constantly displace, drive the reciprocal striking household utensils of top and hit the device, make the material in the household utensils active, and make the sterilization operation more thorough.

2. Through the supplementary kicking block of bar frame effect peripheral end of household utensils, by the hemisphere structure of kicking block, it produces the buffering of can kick-backing in the side direction top moves, do benefit to the contact block and under the elasticity of the piece that contracts is supplementary, some pendulum is rolled over, the drive is beaten the ball, it produces reaction force of being convenient for, beat the contact block, make the spin driven in the vallecular cavity and the rollback move, make real piece constantly produce under power and shake, bring the micro-amplitude jarring to the household utensils, the fungus thing of being convenient for is active and is reacted.

Drawings

Fig. 1 is a schematic structural diagram of a rapid sterilization apparatus for microorganism detection according to the present invention.

Fig. 2 is a schematic view of an internal cross-sectional structure of a machine body according to the present invention.

Fig. 3 is a schematic view of an internal cross-sectional structure of a carrying device according to the present invention.

Fig. 4 is a schematic view of the internal cross-sectional structure of a movable body according to the present invention.

Fig. 5 is a schematic view of the internal cross-sectional structure of a displacement plate according to the present invention.

Fig. 6 is a schematic view of an internal cross-sectional structure of a hemispherical block according to the present invention.

Fig. 7 is a schematic view of the internal cross-sectional structure of a roof impact device of the present invention.

Fig. 8 is a schematic view of an internal cross-sectional structure of a top block according to the present invention.

Fig. 9 is a schematic diagram of an internal cross-sectional structure of a contact block according to the present invention.

In the figure: the steam jet-propelled steam generator comprises a generator body-1, a control panel-2, a top cover-3, an opening and closing door-4, an inner container-11, a bearing device-12, a pressure frame-13, a steam nozzle-14, a carrier plate-121, a clamping groove-122, a movable body-123, a circulation cavity-124, a displacement plate-a 1, a hemispherical block-a 2, a jacking device-a 3, a solid plate-a 11, a cavity-a 12, a displacement ball-a 13, a heated block-a 21, a pushing rod-a 22, a magnetic block-a 23, a spring-a 24, a rod frame-a 31, a jacking block-a 32, a contact block-s 1, a folding block-s 2, a knocking ball-s 3, a solid block-s 11, a groove cavity-s 12 and a-s 13.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 6:

the invention provides a quick sterilization device for microbial detection, which is structurally provided with a machine body 1, an operation panel 2, a top cover 3 and an opening and closing door 4, wherein the operation panel 2 is embedded and fixedly installed on the end surface of the outer side of the machine body 1, the opening and closing door 4 is hinged and connected to one side end position of the machine body 1, and the top cover 3 is positioned above the opening and closing door 4 and is movably clamped at the top end of the machine body 1.

The machine body 1 is provided with an inner container 11, a bearing device 12, a pressure frame 13 and steam nozzles 14, the bearing device 12 is embedded in the middle position of the inner side of the inner container 11, the pressure frame 13 is located below the bearing device 12, the pressure frame 13 is communicated with and matched with the pressure frame 13, and the steam nozzles 14 are installed at two ends of the inner side of the inner container 11.

Wherein, load-bearing device 12 is equipped with support plate 121, draw-in groove 122, activity body 123, circulation chamber 124, draw-in groove 122 and support plate 121 just link up the setting for integrated structure, activity body 123 moves about in circulation chamber 124, circulation chamber 124 just is located its inboard with support plate 121 for integrated structure, activity body 123 and draw-in groove 122 adjacent setting and cooperate, support plate 121 is the plate that has vertical through mouth, draw-in groove 122 upper and lower end link up, and the footpath width from last to reducing gradually down, activity body 123 is equipped with four, and is horizontal even the arrangement about support plate 121, circulation chamber 124 inside is the dead slot state, activity body 123 moves about in the space that circulation chamber 124 provided, acts on the household utensils that bear on draw-in groove 122, produces lateral power to the household utensils.

The movable body 123 is provided with a displacement plate a1, a hemispherical block a2 and a top-collision device a3, the hemispherical block a2 is connected to the inner end of the displacement plate a1, the top-collision device a3 is connected to the other side of the displacement plate a1 and is movably matched with the displacement plate a1, two hemispherical blocks a2 and two top-collision devices a3 are respectively connected to the two side ends of the displacement plate a1 and are matched with one another, two sets of the.

The displacement plate a1 is provided with a solid plate a11, a cavity a12 and four displacement balls a13, the cavity a12 is embedded in the solid plate a11, the displacement balls a13 move in the cavity a12, the cavities a12 are vertically and uniformly arranged relative to the solid plate a11, the interiors of the cavities are rhombic hollow structures, the displacement balls a13 have certain weight and are spherical blocks, the displacement balls a13 roll in the cavity a12, the rhombic structures of the cavities a12 enable the impact effect of the side ends to be better, and the displacement movement of the solid plate a11 is assisted.

The hemispherical block a2 is provided with a heated block a21, a resisting rod a22, a magnetic block a23 and a spring a24, the resisting rod a22 is movably connected to the inner side of the heated block a21, the magnetic block a23 is connected to the tail end of the resisting rod a22 and movably matched with the tail end of the resisting rod a22, the spring a24 is connected between the resisting rods a22, the magnetic block a23 is in clearance fit with the inner side end of the heated block a21, the resisting rod a22 is telescopic and performs hinged swinging movement, the magnetic block a23 is magnetic and generates a magnetic attraction magnetic field, the heated block a21 can perform arc expansion when being heated, the heated block a21 is deformed when being heated, so that the inner side movement space is increased, the resisting rod a22 is favorable for driving the magnetic block a23 to move, and the magnetic block a23 is matched with the heated block a21 under the assistance of magnetic force and the elasticity of the spring a24, so as to assist in the generation of circular displacement in deformation.

The specific use mode and function of the embodiment are as follows: a person places a culture medium vessel filled with microorganisms in the clamping groove 122, the vessel is clamped and caught by the change of the inner diameter width of the clamping groove 122 to adapt to vessels with various diameters and avoid falling off, the top cover 3 is covered to ensure that the inner container 11 is a closed space, the control panel 2 is adjusted to ensure that the pressure frame 13 and the steam nozzle 14 are cooperated to perform pressurized steam sterilization on the vessel on the bearing device 12, the steam is favorable to flow up and down through the circulation cavity 124 by the port structure of the carrier plate 121 and better acts on the periphery of the vessel, when steam circulates, the pressure frame is contacted with the hemispherical block a2 to facilitate the thermal expansion of the vessel, the displacement plate a1 generates driving force to drive the jacking device a3 to lean against the vessel, the thermal block a21 gradually arches laterally due to the thermal expansion, the space of the inner side end of the thermal block a is enlarged, the abutting rod a22 is favorable for driving the magnetic block a23 to swing and fold under the elastic supporting and expanding of the spring a24, the magnetic block a23 is abutted against the inner side wall of the heated block a21 to enable the auxiliary heated block a21 to deform, the attractive magnetic force of the magnetic block a23 and the elastic force of the spring a24 form a reaction force, so that the auxiliary heated block a21 can be circularly expanded and closed to change the attractive magnetic field generated by the inner side of the heated block a21, the auxiliary solid plate a11 is reset to displace, the displacement ball a13 rolls along with the movement of the solid plate a11, and moves in the rhombic inner groove of the cavity a12, so that impact force can be generated in the lateral direction better, the solid plate a11 is favorably subjected to larger displacement driving force, and the displacement ball a13 can continuously displace to drive the jacking device a3 to impact a vessel in a reciprocating manner, so that substances in the vessel are activated, and the sterilization operation is more thorough.

Example 2:

as shown in fig. 7 to 9:

the jacking device a3 is provided with a rod frame a31 and a jacking block a32, the jacking block a32 is connected to one side end of the rod frame a31 and is movably matched with the rod frame a31, the rod frame a31 has elasticity, the jacking block a32 is in a hemispherical state, and the jacking block a32 is matched with the rod frame a31 to carry out lateral jacking movement, so that the jacking movement is facilitated to act on a vessel to generate power.

The ejecting block a32 is provided with contact blocks s1, a folding block s2 and a knocking ball s3, the folding block s2 is connected between the contact blocks s1, the knocking ball s3 moves at the inner side end of the contact block s1, the folding block s2 has good dragging elasticity, the contact block s1 is petal-shaped, the folding block s2 is of a vertically symmetrical structure, the knocking ball s3 can be circularly and elastically knocked, the contact block s1 can turn and change at a certain angle under the elastic cooperation of the folding block s2, and knocking force generated by the knocking ball 3 further assists the contact block s1 to vibrate.

The contact block s1 is provided with a solid block s11, a groove cavity s12 and a rolling ball s13, the groove cavity s12 and the solid block s11 are of an integrated structure and are located in the groove cavity s12, the rolling ball s13 moves in the groove cavity s12, the groove cavity s12 is in a hollow groove state, the rolling ball s13 has weight, the rolling ball s13 moves along with the vibration of the solid block s11, continuously rolls and impacts in the groove cavity s12, reacts on the solid block s11, and is beneficial to generating shock and acting on foreign objects.

The specific use mode and function of the embodiment are as follows: through the telescopic property of the rod frame a31, the rod frame a31 can be moved to stretch and retract to some extent in the displacement process along with the displacement of the displacement plate a1, the ejection block a32 is further assisted to act on the peripheral end of the vessel, the hemispherical structure of the ejection block a32 can generate rebound buffering in the lateral ejection, the contact block s1 can swing and fold under the elastic assistance of the folding block s2 to drive the hitting ball s3 to generate reaction force, the contact block s1 is beaten, the rolling ball s13 is driven to roll back and forth in the groove cavity s12, the solid block s11 continuously generates vibration under power to bring micro-amplitude shock to the vessel, the materials in the vessel can be further activated under quick vibration, active reaction of bacteria is facilitated, and the sterilization efficiency is good.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.