CN214881420U - Heat preservation cabinet for sample culture - Google Patents

Abstract

The utility model discloses a thermal cabinet for sample culture, including the thermal cabinet main part, fixed stabilizer blade is all installed to four sides in thermal cabinet main part bottom, and the inside heat preservation room of having seted up in thermal cabinet main part top, the thermal cabinet door is installed to thermal cabinet front side outside, and the equal high symmetric distribution such as heat preservation indoor wall both sides is equipped with spacing sand grip, the inside storage groove of having seted up of thermal cabinet main part of thermal preservation room rear side, and accomodate recess depths and install fixed backplate, sample attachment strap rear end is installed and is adsorbed the backplate, and adsorbs the backplate and be the magnet material, the width of flexible plaiting equals the width of thermal cabinet, and flexible plaiting bottom surface height is not less than spacing sand grip top surface height to the quantity of flexible plaiting equals with the quantity of sample attachment strap. This heat preservation cabinet for sample culture can effectively reduce the circulation of air scope of producing in the heat preservation cabinet when getting the individual layer sample, improves the non-heat preservation effect of taking the target sample, improves sample culture F effect.

Description

Heat preservation cabinet for sample culture

Technical Field

The utility model relates to a heat preservation cabinet technical field specifically is a heat preservation cabinet is used in sample culture.

Background

The culture heat preservation cabinet is widely used in scientific research, teaching and production in the fields of microbiology, biomedicine, biological products and the like. The culture requirements of the microorganisms are strict, the microorganisms must grow normally at a proper temperature, and a clean and independent environment must be ensured in the process of separating and purifying the microorganisms. In the experiment processes of biochemical, pharmaceutical and medicine preparation and the like, a heat preservation cabinet is often needed to culture microorganism samples such as bacterial colonies and the like at constant temperature.

The existing sample heat preservation cabinet can generally divide multiple layers to place samples, when a user needs to observe a sample with a certain height, the whole cabinet door needs to be opened, air between each layer of butt strap circulates, when the target butt strap is moved out, the air flowing range in the heat preservation cabinet is wider, air circulation around the sample except the target butt strap is caused, the temperature around the non-target sample is caused to change, and the sample culture effect is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a heat-preserving cabinet for sample culture to the sample heat-preserving cabinet that provides in solving above-mentioned background art causes sample on the veneer on every side when the sample fast air all around to flow easily, influences the problem of heat preservation effect.

In order to achieve the above object, the utility model provides a following technical scheme: a heat preservation cabinet for sample culture comprises a heat preservation cabinet main body, wherein four sides of the bottom end of the heat preservation cabinet main body are respectively provided with a fixed supporting leg, a heat preservation chamber is arranged inside the upper part of the heat preservation cabinet main body, the outside of the front side of the heat preservation chamber is provided with a heat preservation cabinet door, two sides of the inner wall of the heat preservation chamber are symmetrically distributed with limit convex strips at equal heights, a sample attachment strap is connected onto the limit convex strips in an embedded mode, the top part of the outer side of the sample attachment strap is provided with a separation vertical plate, the top surface of the separation vertical plate is flush with the bottom surface of the limit convex strips, the inside of the heat preservation cabinet main body at the rear side of the heat preservation chamber is provided with a storage groove, a fixed back plate is arranged in the deep part of the storage groove, the outer side of the fixed back plate is provided with a telescopic folding cloth, the outer side of the telescopic folding cloth is connected with a fixed clamping plate, the fixed clamping plate is of a metal structure, the rear end of the sample attachment back plate is made of a magnet material, and the length and width of the attachment back plate are equal to the length and width of the fixed clamping plate, the positions of the fixed clamping plate and the adsorption back plate correspond to each other, the width of the telescopic plaiting is equal to the width of the heat preservation chamber, the height of the bottom surface of the telescopic plaiting is not lower than the height of the top surface of the limiting convex strip, and the number of the telescopic plaiting is equal to the number of the sample lapping plates.

Preferably, one side of the inner wall of the accommodating groove is of a stepped structure, and the length and width of the fixing clamping plate are equal to the maximum length and width of the inner wall of the accommodating groove.

Preferably, the sample access plate is of a net structure, and the sample access plate and the adsorption back plate are perpendicular to each other.

Preferably, the taking and placing groove is formed in the outer side of the partition vertical plate, and the taking and placing groove is of an L-shaped structure.

Preferably, the separating vertical plate is made of transparent material, and the width of the separating vertical plate is equal to the width of the sample access plate.

Compared with the prior art, the beneficial effects of the utility model are that: this heat preservation cabinet for sample culture can effectively reduce the circulation of air scope of producing in the heat preservation cabinet when getting the individual layer sample, improves the non-heat preservation effect of taking the target sample, improves the sample culture effect. When this sample cultivates with the sample access board of heat preservation indoor portion of cubical switchboard is taken out, flexible plaiting also can be taken out in step, and flexible plaiting shelters from the space of the sample access board below of taking out with the cooperation of the partition riser of below to reduce the upwards loss of hot-air of sample access board below, keep temperature stable, thereby improve the sample cultivation effect of cubical switchboard.

Drawings

FIG. 1 is a schematic side view of the heat-insulating cabinet for sample culture according to the present invention;

FIG. 2 is an enlarged schematic structural view of the heat-insulating cabinet for sample culture of the present invention at A in FIG. 1;

FIG. 3 is an enlarged schematic structural view of the heat-insulating cabinet for sample culture of the present invention at B in FIG. 1;

FIG. 4 is a schematic diagram of a main body of a thermal insulation cabinet for sample culture according to the present invention;

FIG. 5 is a schematic view of the structure of the sample attachment strap of the heat-preservation cabinet for sample cultivation according to the present invention.

In the figure: 1. accomodate the recess, 2, fixed stabilizer blade, 3, erection opening, 4, the heat preservation cabinet main part, 5, heat preservation room, 6, separate the riser, 7, spacing sand grip, 8, the heat preservation cabinet door, 9, adsorb the backplate, 10, fixed cardboard, 11, flexible plaiting, 12, fixed backplate, 13, get and put the recess.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a heat preservation cabinet for sample culture comprises a heat preservation cabinet main body 4, four sides of the bottom end of the heat preservation cabinet main body 4 are respectively provided with a fixed support leg 2, a heat preservation chamber 5 is arranged inside the upper part of the heat preservation cabinet main body 4, the outside of the front side of the heat preservation chamber 5 is provided with a heat preservation cabinet door 8, two sides of the inner wall of the heat preservation chamber 5 are symmetrically distributed with a limit convex strip 7 in equal height, a sample attachment plate 3 is embedded and connected on the limit convex strip 7, a separation vertical plate 6 is arranged at the top of the outer side of the sample attachment plate 3, the top surface of the separation vertical plate 6 is flush with the bottom surface of the limit convex strip 7, the sample attachment plate 3 is of a net structure, the sample attachment plate 3 is vertical to an adsorption back plate 9, when the sample attachment plate 3 is inserted into the heat preservation chamber 5, the circulation of hot air in the heat preservation chamber 5 is not influenced, the obvious temperature difference does not occur at the upper and lower ends inside the heat preservation chamber 5, a taking and placing groove 13 is arranged inside the outer side of the separation vertical plate 6, the taking and placing groove 13 is of an L-shaped structure, when a user pulls the partition vertical plate 6, fingers can be inserted into the taking and placing groove 13 to apply force conveniently, the partition vertical plate 6 is made of transparent material, the width of the partition vertical plate 6 is equal to that of the sample attachment strap 3, the structure ensures that the transparent partition vertical plate 6 does not influence the observation of the user on the sample cultivation condition on the sample attachment strap 3, the two sides of the partition vertical plate 6 are flush with the two side surfaces of the sample attachment strap 3, the shielding is convenient, the escape of hot air is prevented, the storage groove 1 is arranged in the heat preservation cabinet main body 4 at the rear side of the heat preservation chamber 5, the fixed back plate 12 is arranged at the deep position of the storage groove 1, the single side of the inner wall of the storage groove 1 is of a stepped structure, the length and the width of the fixed clamping plate 10 is equal to the maximum length and width of the inner wall of the storage groove 1, and the structure ensures that the fixed clamping plate 10 can be clamped on the stepped inner wall of the storage groove 1, the situation that the fixed clamping board 10 can move back and forth in the containing groove 1 can be avoided, the stability of the fixed clamping board 10 is kept, the telescopic folding cloth 11 is installed on the outer side of the fixed back plate 12, the fixed clamping board 10 is connected to the outer side of the telescopic folding cloth 11, the fixed clamping board 10 is of a metal structure, the adsorption back plate 9 is installed at the rear end of the sample attachment plate 3, the adsorption back plate 9 is made of a magnet material, the length and the width of the adsorption back plate 9 are equal to those of the fixed clamping board 10, the positions of the fixed clamping board 10 and the adsorption back plate 9 correspond to each other, the adsorption back plate 9 and the fixed clamping board 10 can be adsorbed and fixed by the structure, a user can split the adsorption back plate according to the use requirement, the width of the telescopic folding cloth 11 is equal to the width of the heat preservation chamber 5, the height of the bottom surface of the telescopic folding cloth 11 is not lower than the height of the top surface of the limiting convex strips 7, and the number of the telescopic folding cloth 11 is equal to that of the sample attachment plates 3, when this structure makes 5 inside sample attachment straps 3 of heat preservation room taken out, flexible plaiting 11 also can be taken out in step, and the space of 3 below of sample attachment strap taken out is sheltered from in the cooperation of flexible plaiting 11 and the partition riser 6 of below to the upwards loss of hot-air that reduces 3 below of sample attachment strap keeps temperature stable, thereby improves the sample culture effect of heat-preserving cabinet.

The working principle is as follows: when the heat preservation cabinet for sample culture is used, firstly, a user can place the heat preservation cabinet main body 4 at a proper position through the fixed support legs 2, the user places a sample on the sample attachment strap 3 and needs to insert into the heat preservation chamber 5 on the limit raised strips 7 until the adsorption back plate 9 and the fixed clamp plate 10 are adsorbed and fixed together, then the end surface between the sample attachment straps 3 which are placed up and down at the moment can be shielded in a large range through the separation vertical plate 6, then the user can close the heat preservation cabinet door 8 to keep the temperature in the heat preservation chamber 5, because the sample attachment strap 3 is of a net structure, the sample attachment strap 3 can not influence the internal air circulation under the airtight condition of the heat preservation chamber 5, the upper and lower temperature difference can not be too large, when the user needs to take the sample on a certain sample attachment strap 3, the heat preservation cabinet door 8 can be opened firstly, then fingers stretch into the taking and placing grooves 13 in the corresponding separation vertical plate 6 to draw the taking and placing grooves 13 outwards, the flexible plaiting 11 can be followed sample attachment strap 3's removal and is stretched this moment to shelter from the spacing sand grip 7 top in target sample attachment strap 3 below with the cooperation of the partition riser 6 of target sample attachment strap 3 below in order to prevent that steam from upwards overflowing, keep the hot-air in the heat preservation room 5 can not flow on a large scale, thereby accomplish a series of works.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (5)

1. The utility model provides a thermal cabinet for sample culture, includes thermal cabinet main part (4), its characterized in that: the heat preservation cabinet is characterized in that fixed support legs (2) are mounted on four sides of the bottom end of the heat preservation cabinet main body (4), a heat preservation chamber (5) is arranged inside the upper portion of the heat preservation cabinet main body (4), a heat preservation cabinet door (8) is mounted on the outer portion of the front side of the heat preservation chamber (5), limiting convex strips (7) are arranged on two sides of the inner wall of the heat preservation chamber (5) in an equal-height symmetrical distribution mode, a sample attachment strap (3) is connected onto the limiting convex strips (7) in an embedded mode, a separation vertical plate (6) is mounted on the top of the outer side of the sample attachment strap (3), the top surface of the separation vertical plate (6) is flush with the bottom surface of the limiting convex strips (7), a storage groove (1) is formed in the heat preservation cabinet main body (4) on the rear side of the heat preservation chamber (5), a fixed back plate (12) is mounted in the deep portion of the storage groove (1), a telescopic folding cloth (11) is mounted on the outer side of the fixed back plate (12), and a fixed clamping plate (10) is connected onto the outer side of the telescopic folding cloth (11), and fixed cardboard (10) are metallic structure, absorption backplate (9) are installed to sample attachment strap (3) rear end, and adsorb backplate (9) and be the magnet material, the length and width of adsorbing backplate (9) all equals the length and width of fixed cardboard (10), and the position of fixed cardboard (10) and absorption backplate (9) corresponds each other, the width of flexible plaiting (11) equals the width of heat preservation room (5), and flexible plaiting (11) bottom surface height is not less than spacing sand grip (7) top surface height to the quantity of flexible plaiting (11) equals with the quantity of sample attachment strap (3).

2. The thermal insulating cabinet for sample culture according to claim 1, characterized in that: one side of the inner wall of the accommodating groove (1) is of a stepped structure, and the length and width of the fixing clamping plate (10) are equal to the maximum length and width of the inner wall of the accommodating groove (1).

3. The thermal insulating cabinet for sample culture according to claim 1, characterized in that: the sample access board (3) is of a net structure, and the sample access board (3) is vertical to the adsorption back board (9).

4. The thermal insulating cabinet for sample culture according to claim 1, characterized in that: a taking and placing groove (13) is formed in the outer side of the partition vertical plate (6), and the taking and placing groove (13) is of an L-shaped structure.

5. The thermal insulating cabinet for sample culture according to claim 1, characterized in that: the separating vertical plate (6) is made of transparent materials, and the width of the separating vertical plate (6) is equal to that of the sample lapping plate (3).

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