CN210394314U - Laboratory biological cultivation cabinet - Google Patents

Abstract

A laboratory biological culture cabinet comprises a cabinet and a culture barrel; one side of the cabinet is provided with an opening and comprises a top plate, a bottom plate, two side plates and a rear plate; the cultivation barrel comprises a barrel body, a barrel cover covering an opening in the upper portion of the barrel body and a sliding seat at the bottom of the barrel body, a connecting rod is arranged on the sliding seat, a locking mechanism is arranged on the barrel cover and the connecting rod and can connect and lock the connecting rod and the barrel cover on one side, a holding rod is arranged on one side opposite to the connecting rod, a locking mechanism capable of being connected and locked mutually is arranged between the upper portion of the holding rod and the barrel cover, a lower locking mechanism capable of being connected and locked mutually is arranged between the lower portion of the holding rod and the sliding seat and between the lower portion of the holding rod and a bottom plate, and the holding rod. The utility model discloses can be in the same place bung and staving, slide and cultivation bucket and cabinet connection lock, made things convenient for the installation of cultivation bucket on the cabinet, dismantled and move into and shift out, overall structure is simple, make convenient to use and make and use cost reduce, have popularization and application and worth.

Description

Laboratory biological cultivation cabinet

Technical Field

The utility model relates to a biological cultivation cabinet, especially a laboratory biological cultivation cabinet belongs to biological laboratory and equips and make technical field.

Background

Biological cultivation, such as algae cultivation, is usually performed in a biological cultivation cabinet.

The biological cultivation cabinet mainly comprises a cabinet and a cultivation barrel. The cabinet can generally control the temperature and the timing, when algae cultivation is carried out, the cultivation barrel needs to be made of light-transmitting materials, and corresponding supporting facilities required by algae growth such as a light source are further arranged in the cabinet.

When the biological cultivation cabinet is used for biological cultivation, firstly, a prepared cultivation mother solution and biological species samples needing to be bred need to be added into a cultivation barrel, then the cultivation barrel filled with the cultivation mother solution and the biological species samples is conveyed into a cabinet, and then corresponding environmental conditions such as illumination, temperature, time control and the like are set in the cabinet according to the requirement of growth and breeding of the biological species samples, so that the biological species samples can stably grow and breed in the cultivation mother solution.

And when the species to be grown in the culture mother solution reaches the specified requirements, closing corresponding supporting facilities on the cabinet for illumination, temperature, time control and the like, taking the culture barrel out of the cabinet, taking out the cultured biological product and the culture mother solution thereof, and cleaning and disinfecting the culture barrel for biological culture in the next stage.

As can be seen from the above biological cultivation process, when biological cultivation is performed by using the biological cultivation cabinet, the cultivation barrel needs to be moved out of and into the cabinet frequently, and is correspondingly installed, connected and detached from the cabinet.

Because the culture mother liquor and the cultured organisms are filled in the culture barrel, the weight is larger, the existing culture barrel is not provided with a handle to utilize the force, the space between the culture barrel and the cabinet is usually very small, and the culture barrel is not easy to carry by hands, so that the culture barrel is very difficult and inconvenient to carry.

In addition, in order to ensure the internal environment of the tank during biological culture and prevent the culture mother liquor and organisms from overflowing during transportation, a cover needs to be added on the culture tank and the tank cover and the culture tank are locked, but in the prior art, locking devices of the tank cover and the culture tank are complex and are not easy to open and close.

SUMMERY OF THE UTILITY MODEL

For overcoming the deficiencies of the prior art, the utility model provides a laboratory biological cultivation cabinet to reach and enable cultivation bucket erection joint and dismantlement on the cabinet and shift out and move into convenient and fast, safety, and cultivate the purpose that cabinet overall structure simplifies, makes and use cost reduces.

In order to achieve the purpose, the utility model adopts the following technical proposal:

a laboratory biological culture cabinet comprises a cabinet with an opening at one side and a culture barrel; the cabinet comprises a top plate, a bottom plate, two side plates and a rear plate, wherein the two side plates support the top plate and the bottom plate, and light sources are arranged on the side plates and the rear plate; cultivate the bucket during operation follow the cabinet opening part is put into in the cabinet, including staving, cover staving upper portion open-ended bung with the slide of staving bottom, its characterized in that:

the sliding seat is provided with a connecting rod, the barrel cover and the connecting rod are provided with a locking mechanism, and the connecting rod and the barrel cover can be connected and locked at one side through the locking mechanism; a holding rod is arranged on one side opposite to the connecting rod, a locking mechanism capable of being mutually connected and locked is arranged between the upper part of the holding rod and the barrel cover, and a lower locking mechanism capable of being mutually connected and locked is arranged between the lower part of the holding rod and the sliding seat as well as between the lower part of the holding rod and the bottom plate; the lower locking mechanism can be unlocked while the upper locking mechanism is locked or the lower locking mechanism can be locked while the upper locking mechanism is unlocked by rotating the holding rod.

The locking mechanism is a locking groove arranged on the barrel cover and a steel wire lock catch arranged on the connecting rod.

The locking mechanism comprises a circular lock hole arranged on the barrel cover, clamping grooves with notches at two sides in the lock hole and a circular end head with two symmetrical flanges at the upper part of the holding rod, and the end head can enter the clamping grooves through the notches and can be buckled with or unbuckled from the clamping grooves by rotating the holding rod, so that the locking mechanism is locked or unlocked.

The lower locking mechanism comprises a through hole arranged on the sliding seat, a crescent groove arranged on the bottom plate and a circular truncated cone connected with the holding rod after penetrating through the through hole; the circular truncated cone is abutted against the bottom plate, the diameter of the circular truncated cone is larger than that of the through hole, the circular truncated cone is abutted against two sides of one end of the bottom plate, a crescent part is respectively cut off, the circular truncated cone cut-off crescent part can be screwed into or separated from the groove by rotating the holding rod, and the circular truncated cone and the bottom plate are locked or unlocked, so that the lower locking mechanism is locked or unlocked.

As a preferred technical scheme, the holding rod is also provided with an opening and closing handle capable of rotating the holding rod.

As a preferred technical scheme, the two pairs of holding rods are respectively arranged on two sides of the barrel body on the opposite side of the connecting rod.

Furthermore, the bottom plate is also provided with a ball.

Furthermore, the bottom plate edge is equipped with limit guide, the bottom of slide is equipped with the guide slot, through the guide slot with limit guide's cooperation enables the slide is accurate leading-in inside the cabinet.

Furthermore, the groove and the limiting guide rail are connected into a whole.

Compared with the prior art, the utility model discloses beneficial effect and showing the progress and lie in:

1) the utility model provides a laboratory biological culture cabinet, through setting up connecting rod and holding rod, and locking mechanism, lower locking mechanism, can connect bung and staving, slide, culture bucket and cabinet to lock together, have already facilitated the installation and dismantlement of the culture bucket on the cabinet, have facilitated the culture bucket to move into and move out on the cabinet;

2) the utility model provides a pair of laboratory biological cultivation cabinet, overall structure is simple, use and make conveniently to make and greatly reduce with use cost, consequently, have popularization and application and worth.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of a laboratory biological incubator according to the present invention;

FIG. 2 is a schematic view of a cabinet side cut structure of a laboratory biological incubator provided by the present invention;

FIG. 3 is a schematic view of a three-dimensional structure of a laboratory biological incubator cabinet according to the present invention;

FIG. 4 is a schematic view of a three-dimensional structure of a cultivation barrel of the laboratory biological cultivation cabinet provided by the present invention;

FIG. 5 is a schematic cross-sectional view taken along line A-A of the laboratory biological incubator, showing the cross-section of the incubator barrel and the cabinet after the incubator barrel is locked;

FIG. 6 is a schematic diagram showing the states of the upper locking mechanism and the lower locking mechanism after the cultivation barrel and the cabinet of the laboratory biological cultivation cabinet are locked together, and a schematic diagram showing a B-B section and a partial enlarged C-C section;

FIG. 7 is a schematic sectional view of the laboratory biological incubator showing the section A-A after the incubation barrel and the chamber body are unlocked;

fig. 8 is a schematic diagram of the state of the upper locking mechanism and the lower locking mechanism after the laboratory biological cultivation cabinet unlocks the cultivation barrel and the cabinet, and a schematic diagram of the B '-B' section and the C '-C' section which are partially enlarged.

In the figure:

1-cabinet;

11-top plate, 12-bottom plate, 121-groove, 122-ball, 123-limit guide rail, 13-side plate, 14-back plate and 15-light source;

2-a culture bucket;

21-barrel body, 22-barrel cover, 221-lock groove, 222-lock hole, 223-lock groove, 23-slide seat, 231-through hole, 232-guide groove, 24-connecting rod, 25-locking mechanism, 26-holding rod, 261-end, 262-round table and 27-opening and closing handle.

Detailed Description

The technical solution provided by the present invention will be further described in detail with reference to the accompanying drawings and the accompanying description and embodiments.

Examples

As shown in fig. 1, the utility model provides a three-dimensional structure schematic diagram of a laboratory biological cultivation cabinet:

a laboratory biological culture cabinet comprises a cabinet 1 and a culture barrel 2.

As figure 2 the utility model provides a pair of its cabinet side of laboratory biological cultivation cabinet dissects structure schematic diagram, figure 3 the utility model provides a pair of its cabinet spatial structure schematic diagram of laboratory biological cultivation cabinet is shown:

the cabinet 1 is provided with an opening at one side and comprises a top plate 11, a bottom plate 12, two side plates 13 for supporting the top plate 11 and the bottom plate 12 and a back plate 14, wherein the side plates 13 and the back plate 14 are provided with light sources 15.

As figure 2 the utility model provides a pair of its cabinet side of laboratory biological cultivation cabinet dissects structure schematic diagram, figure 4 the utility model provides a pair of it cultivates bucket spatial structure schematic diagram of laboratory biological cultivation cabinet is shown:

the cultivating barrel 2 is placed into the cabinet 1 from the opening when working, and comprises a barrel body 21, a barrel cover 22 covering the opening at the upper part of the barrel body 21 and a sliding seat 23 at the bottom of the barrel body 21.

As can be seen from fig. 2 and 4:

the sliding base 23 is provided with a connecting rod 24, the barrel cover 22 and the connecting rod 24 are provided with a locking mechanism 25, and the connecting rod 24 and the barrel cover 22 can be connected and locked at one side through the locking mechanism 25.

From fig. 2, fig. 4 and fig. 5 the utility model provides a pair of its cultivation bucket of laboratory biological cultivation cabinet behind with cabinet closure A-A section schematic diagram, fig. 6 the utility model provides a pair of its cultivation bucket of laboratory biological cultivation cabinet behind with cabinet closure locking mechanism and lower locking mechanism state schematic diagram and B-B section and C-C section local enlarged schematic diagram, fig. 7 the utility model provides a pair of its cultivation bucket of laboratory biological cultivation cabinet behind with cabinet unblock A-A section schematic diagram, fig. 8 the utility model provides an among its cultivation bucket of laboratory biological cultivation cabinet and the cabinet unlocking locking mechanism and lower locking mechanism state schematic diagram and B '-B' section and C '-C' section local enlarged schematic diagram can see:

a holding rod 26 is arranged on the opposite side of the connecting rod 24, a locking mechanism capable of being mutually connected and locked is arranged between the upper part of the holding rod 26 and the barrel cover 22, a locking mechanism capable of being mutually connected and locked is arranged between the lower part of the holding rod 26, the sliding seat 23 and the bottom plate 12, and the locking mechanism can be opened or closed at the same time when the holding rod 26 is rotated.

It can also be seen from fig. 4:

the locking mechanism 25 is a locking groove 221 provided on the tub cover 22 and a wire lock installed on the link 24.

As shown in fig. 1, 4, 5, 6, 7, and 8:

the locking mechanism comprises a circular lock hole 222 arranged on the barrel cover 22, a clamping groove 223 with notches at two sides in the lock hole 222 and a circular end 261 with two symmetrical flanges at the upper part of the holding rod, wherein the end 261 can enter the clamping groove 223 through the notches and can be buckled with or unbuckled from the clamping groove 223 by rotating the holding rod 26, so that the locking mechanism is locked or unlocked;

the lower locking mechanism comprises a through hole 231 on the sliding seat 23, a crescent groove 121 arranged on the bottom plate 12 and a circular truncated cone 262 connected with the holding rod 26 after passing through the through hole 231; the circular truncated cone 262 abuts against the bottom plate 12, the diameter of the circular truncated cone 262 is larger than that of the through hole 231, and a crescent-shaped part is cut off from each of two sides of one end of the bottom plate 12, and the circular truncated cone 262 can be screwed into or separated from the groove 121 by rotating the holding rod 26, so that the circular truncated cone 262 is locked with or unlocked from the bottom plate 12, and the lower locking mechanism is locked with or unlocked;

the grip 26 also has an opening and closing handle 27 for rotating the grip 26.

As a preferred technical solution, it can be seen from fig. 1 and 4 that: the holding rod 26 has two pairs, which are respectively arranged at two sides of the barrel 21 at the opposite side of the connecting rod 24.

Further, as can be seen from fig. 2 and 3: the base plate 12 is also provided with balls 122.

Further, as can be seen from fig. 3, 4, 5, and 7: the edge of the bottom plate 12 is provided with a limiting guide rail 123, the bottom of the sliding seat 23 is provided with a guide groove 232, and the sliding seat 23 can be accurately guided into the cabinet 1 through the matching of the guide groove 232 and the limiting guide rail 123;

further, the groove 121 is integrated with the position-limiting guide rail 123.

The utility model provides a pair of its cultivation bucket of laboratory biological cultivation cabinet realizes that bung and staving, slide and cultivation bucket are connected installation and closure through following mode and cabinet and disassemble to conveniently carry in and shift out of cultivation bucket on the cabinet:

firstly, as shown in fig. 4 and 6, firstly, placing the barrel body 21 after cleaning and disinfection on the sliding base 23 with the holding rod 26 at the front and the connecting rod 24 at the back, placing prepared culture mother solution and biological species to be bred in the barrel body 21, covering the barrel cover 22, inserting the round end 261 of the holding rod 26 into the round locking hole 222 on the barrel cover 22, enabling the end 261 to enter the clamping groove 223 through the gap on the clamping groove 223, then rotating the holding rod 26 to lock the locking mechanism, then connecting and locking the connecting rod 24 and the barrel cover 22 through the locking mechanism 25, enabling the barrel cover 22 to be connected with the sliding base 23 through the holding rod 26, and simultaneously fixing the barrel body 21 between the barrel cover 22 and the sliding base 23;

the holding rod 26 is used as a handle to send the culture barrel 2 into the cabinet 1;

then, the holding rod 26 is rotated directly or by the opening and closing handle 27 to change the locking mechanism from the locked state shown in the enlarged partial schematic view of section B '-B' of FIG. 8 to the unlocked state shown in the enlarged partial schematic view of section B-B of FIG. 6 and the locking mechanism from the unlocked state shown in the enlarged partial schematic view of section C '-C' of FIG. 8 to the locked state shown in the enlarged partial schematic view of section C-C of FIG. 6, thereby completing the connection and locking of the cultivation barrel 2 and the cabinet 1;

then, according to the requirements of the growth and breeding of the culture species, setting corresponding environmental conditions such as illumination, temperature, time control and the like on the cabinet 1 to ensure that the culture species stably grow in the culture mother liquor;

after the cultured species grow and breed in the culture mother solution to meet the specified requirements, corresponding supporting facilities for illumination, temperature, time control and the like on the cabinet 1 are closed, the holding rod 26 is rotated directly or through the opening and closing handle 27, so that the locking mechanism is changed from the unlocking state shown in the section B-B partial enlarged schematic drawing in the figure 6 into the buckling state shown in the section B '-B' partial enlarged schematic drawing in the figure 8, and the lower locking mechanism is changed from the locking state shown in the section C-C partial enlarged schematic drawing in the figure 6 into the unlocking state shown in the section C '-C' partial enlarged schematic drawing in the figure 8, and the unlocking separation of the culture barrel 2 and the cabinet 1 is completed;

then, taking out the cultivation barrel 2 from the cabinet 1 by taking the holding rod 26 as a handle, and carrying out subsequent operation to finish the cultivation and breeding work of a living being.

If the preferred technical scheme is further used, an operator can hold the two pairs of holding rods 26 with two hands, so that the operation of putting the culture barrels 2 into the cabinet 1 or taking the culture barrels out of the cabinet 1 can be completed more conveniently and laborsavingly; after the balls 122 are arranged on the bottom plate 12, the original sliding movement of the culture barrel 2 in and out of the cabinet 1 can be changed into rolling movement, so that the operation is easier and faster; obviously, the guide groove 232 is matched with the limit guide rail 123, so that the culture barrel 2 can be guided into the cabinet 1 more accurately.

In summary, the following steps:

the utility model provides a laboratory biological culture cabinet, through setting up connecting rod and holding rod, and locking mechanism, lower locking mechanism, can be with staving and bung, slide, and culture bucket and cabinet connection lock together, have already facilitated the installation and dismantlement of the culture bucket on the cabinet, have facilitated the culture bucket to move into and move out on the cabinet;

the utility model provides a pair of laboratory biological cultivation cabinet, overall structure is simple, use and make conveniently to make manufacturing cost and use cost very reduce, consequently, have popularization and application and worth.

Finally, it is necessary to state that:

the above-mentioned contents are only used to help illustrate and understand the technical solution of the present invention, and should not be interpreted as a limitation thereto; insubstantial modifications and adaptations of the invention, as well as other modifications and alterations apparent to those skilled in the art in light of the present disclosure, are intended to be included within the scope of the invention as claimed.

Claims (10)

1. A laboratory biological culture cabinet comprises a cabinet with an opening at one side and a culture barrel; the cabinet comprises a top plate, a bottom plate, two side plates and a rear plate, wherein the two side plates support the top plate and the bottom plate, and light sources are arranged on the side plates and the rear plate; cultivate the bucket during operation follow the cabinet opening part is put into in the cabinet, including staving, cover staving upper portion open-ended bung with the slide of staving bottom, its characterized in that:

the sliding seat is provided with a connecting rod, the barrel cover and the connecting rod are provided with a locking mechanism, and the connecting rod and the barrel cover can be connected and locked at one side through the locking mechanism; a holding rod is arranged on one side opposite to the connecting rod, a locking mechanism capable of being mutually connected and locked is arranged between the upper part of the holding rod and the barrel cover, and a lower locking mechanism capable of being mutually connected and locked is arranged between the lower part of the holding rod and the sliding seat as well as between the lower part of the holding rod and the bottom plate; the lower locking mechanism can be unlocked while the upper locking mechanism is locked or the lower locking mechanism can be locked while the upper locking mechanism is unlocked by rotating the holding rod.

2. A laboratory biological growth cabinet according to claim 1, wherein: the locking mechanism is a locking groove arranged on the barrel cover and a steel wire lock catch arranged on the connecting rod.

3. A laboratory biological growth cabinet according to claim 1, wherein: the locking mechanism comprises a circular lock hole arranged on the barrel cover, clamping grooves with notches at two sides in the lock hole and a circular end head with two symmetrical flanges at the upper part of the holding rod, and the end head can enter the clamping grooves through the notches and can be buckled with or unbuckled from the clamping grooves by rotating the holding rod, so that the locking mechanism is locked or unlocked.

4. A laboratory biological growth cabinet according to claim 1, wherein: the lower locking mechanism comprises a through hole arranged on the sliding seat, a crescent groove arranged on the bottom plate and a circular truncated cone connected with the holding rod after penetrating through the through hole; the circular truncated cone is abutted against the bottom plate, the diameter of the circular truncated cone is larger than that of the through hole, the circular truncated cone is abutted against two sides of one end of the bottom plate, a crescent part is respectively cut off, the circular truncated cone cut-off crescent part can be screwed into or separated from the groove by rotating the holding rod, and the circular truncated cone and the bottom plate are locked or unlocked, so that the lower locking mechanism is locked or unlocked.

5. A laboratory biological growth cabinet according to claim 1, wherein: the holding rod is also provided with an opening and closing handle which can rotate the holding rod.

6. A laboratory biological growth cabinet according to claim 1, wherein: the holding rod is provided with two pairs which are respectively arranged on two sides of the barrel body on one side opposite to the connecting rod.

7. A laboratory biological growth cabinet according to claim 1, wherein: the bottom plate is also provided with a ball.

8. A laboratory biological growth cabinet according to claim 1, wherein: the edge of the bottom plate is provided with a limiting guide rail, the bottom of the sliding seat is provided with a guide groove, and the sliding seat can be accurately guided into the interior of the cabinet through the matching of the guide groove and the limiting guide rail.

9. A laboratory biological growth cabinet according to claim 1, wherein: the lower locking mechanism comprises a through hole arranged on the sliding seat, a crescent groove arranged on the bottom plate and a circular truncated cone connected with the holding rod after penetrating through the through hole; the circular truncated cone abuts against the bottom plate, the diameter of the circular truncated cone is larger than that of the through hole, a crescent part is cut off from each of two sides of one end of the bottom plate, and the circular truncated cone cut-off crescent part can be screwed into or separated from the groove to be locked or unlocked with the bottom plate by rotating the holding rod; the edge of the bottom plate is further provided with a limiting guide rail, the bottom of the sliding seat is further provided with a guide groove, and the sliding seat can be accurately guided into the interior of the cabinet through the matching of the guide groove and the limiting guide rail.

10. A laboratory biological growth cabinet according to claim 9, wherein: the groove and the limiting guide rail are connected into a whole.

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