CN215477086U - Anti-condensation heat preservation box for precision instrument - Google Patents

Abstract

The utility model discloses an anti-dewing insulation can for a precision instrument, which comprises a shell; a top cover is installed at the top of the shell, heating mechanisms are arranged on two sides of the interior of the top cover, a connecting mechanism is installed at the bottom of the shell, and a supporting mechanism is installed in the shell; the heating mechanism comprises a second heating wire, a protective net and a box door. According to the utility model, by arranging the heating mechanism, in the later use process, a worker can directly open the box door and control the second heating wire in the heating mechanism to work through the control knob, at the moment, the heat generated by the work of the second heating wire can be discharged outwards, and the worker above the transparent window is warmed, so that the degree of coldness near the heat insulation box can be reduced to a certain extent, the worker can more comfortably record instruments, the functional diversity of the device can be further increased to a certain extent, and the use experience of people is improved.

Description

Anti-condensation heat preservation box for precision instrument

Technical Field

The utility model relates to the technical field of insulation boxes, in particular to an anti-condensation insulation box for a precision instrument.

Background

The heat preservation box is mainly used in the environment with the environment temperature possibly lower than the applicable temperature of the instrument, the external environment of the instrument can be heated through the heat preservation box, and then the instrument can work in the adaptive range.

The existing incubator for the precision instrument has the defects that:

1. the existing insulation can for the precision instrument generally only has an internal heating function, and because the ambient temperature of the place where the insulation can is used is relatively low, a worker needs to work in a relatively cold environment, but the existing insulation can does not have the function of warming the worker, and the worker can only carry a warming device with him for reducing the cold environment, so that the use experience of the whole device is reduced to a certain extent.

2. Current insulation can for precision instruments is generally at the in-process of transporting the insulation can, all directly piles together multiunit insulation can to fix it through the rope, because the insulation can of piling together handling does not have the relation of connection each other, consequently in the transportation, the insulation can appears collapsing very easily when appearing rocking, and then causes the phenomenon of insulation can damage.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a dew condensation prevention heat preservation box for a precision instrument, which solves the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: an anti-dewing insulation can for a precision instrument comprises a shell; a top cover is installed at the top of the shell, heating mechanisms are arranged on two sides of the interior of the top cover, a connecting mechanism is installed at the bottom of the shell, and a supporting mechanism is installed in the shell;

the heating mechanism comprises a second heating wire, a protective net and a box door, the second heating wire is arranged on two sides inside the top cover, the protective net is arranged above the second heating wire, and the box door is arranged outside the top cover and in a position corresponding to the protective net;

the connecting mechanism comprises a connecting frame, second magnetic blocks and a handle, the second magnetic blocks are mounted on two sides of the outer portion of the connecting frame, and the handle is mounted on the front face of the connecting frame.

Preferably, the supporting mechanism comprises a supporting frame, a telescopic rod, a spring and a clamping plate, the supporting frame is installed in the shell, the telescopic rod is installed on the opposite surface inside the supporting frame, the clamping plate is installed at the other end of the telescopic rod, the spring is installed between the clamping plate and the supporting frame, and the spring is surrounded on the outer portion of the telescopic rod.

Preferably, the internally mounted of shell has the insulating layer, and the internally mounted of insulating layer has first heater strip, and the supporting legs is all installed in the four corners of shell bottom, and the externally mounted of support frame has the bulge loop.

Preferably, the central authorities at top cap top are equipped with the transparent window, and one side at top cap top is equipped with control knob, and the four corners at top cap top all is equipped with the draw-in groove, control knob respectively with first heater strip and second heater strip electric connection, and the inside of draw-in groove is equipped with the recess.

Preferably, the bottom of the shell is provided with a sliding chute, one side inside the sliding chute is provided with a first magnetic block, and the magnetism of the first magnetic block is opposite to that of the second magnetic block.

Preferably, the outer diameter of the supporting leg is the same as the inner diameter of the clamping groove, and the handle extends to the outer portion of the shell through the sliding groove.

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

1. according to the utility model, by arranging the heating mechanism, in the later use process, a worker can directly open the box door and control the second heating wire in the heating mechanism to work through the control knob, at the moment, the heat generated by the work of the second heating wire can be discharged outwards, and the worker above the transparent window is warmed, so that the degree of coldness near the heat insulation box can be reduced to a certain extent, the worker can more comfortably record instruments, the functional diversity of the device can be further increased to a certain extent, and the use experience of people is improved.

2. According to the utility model, by arranging the connecting mechanism, when a plurality of groups of insulation boxes are transported, the connecting frame can directly slide out of the shell through the sliding chute by the handle, and at the moment, the connecting frame sliding out can slide into the other insulation box until the second magnetic block outside the connecting frame is adsorbed with the first magnetic block of the other insulation box, so that the connection between the two adjacent insulation boxes is tighter, the phenomenon of collapse of the insulation boxes in the later transportation process can be reduced, and the damage probability of the insulation boxes in the transportation process can be further reduced.

Drawings

FIG. 1 is a schematic structural view of a front cross section of a housing according to the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a front view of the present invention;

FIG. 4 is a schematic top view of the present invention;

FIG. 5 is a schematic top sectional view of the coupling mechanism of the present invention;

fig. 6 is a front view of the supporting mechanism of the present invention.

In the figure: 1. a housing; 101. a top cover; 102. a control knob; 103. a transparent window; 2. a thermal insulation layer; 201. a first heater wire; 3. a support mechanism; 301. a support frame; 302. a telescopic rod; 303. a spring; 304. a splint; 4. supporting legs; 401. a convex ring; 402. a card slot; 403. a groove; 5. a heating mechanism; 501. a second heating wire; 502. a protective net; 503. a box door; 6. a chute; 601. a first magnetic block; 7. a connecting mechanism; 701. a connecting frame; 702. a second magnetic block; 703. a handle.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-6, an embodiment of the present invention is shown: an anti-dewing insulation can for a precision instrument comprises a shell 1; a top cover 101 is installed at the top of the shell 1, heating mechanisms 5 are arranged on two sides inside the top cover 101, a connecting mechanism 7 is installed at the bottom of the shell 1, and a supporting mechanism 3 is installed inside the shell 1;

the heating mechanism 5 comprises a second heating wire 501, a protective net 502 and a door 503, the second heating wire 501 is installed at two sides inside the top cover 101, the protective net 502 is installed above the second heating wire 501, and the door 503 is arranged at a position outside the top cover 101 corresponding to the protective net 502;

the connecting mechanism 7 comprises a connecting frame 701, a second magnetic block 702 and a handle 703, the second magnetic block 702 is mounted on two sides of the outside of the connecting frame 701, and the handle 703 is mounted on the front surface of the connecting frame 701.

Specifically, as shown in fig. 1, 3 and 4, firstly, a worker can control the first heating wire 201 to work through the control knob 102, and can preserve heat of the instrument through the temperature generated when the first heating wire 201 works, so as to prevent the instrument from frosting inside when working in a cold environment, and the worker can observe the working condition of the instrument inside the housing 1 through the transparent window 103, and at the same time, the worker can directly open the door 503 of the housing, and control the second heating wire 501 in the heating mechanism 5 to work through the control knob 102, and at this time, the heat generated by the second heating wire 501 can be discharged outwards to warm the worker above the transparent window 103, so that the degree of coldness near the transparent window can be reduced to a certain extent, and the worker can more comfortably record the instrument, and at the same time, the protective net 502, can prevent that people from touching second heater strip 501, the phenomenon of scald appears, and then can increase the variety of the function of this device to a certain extent, and improve people's use and experience, and when transporting the multiunit insulation can, the staff can directly pass through handle 703 with link 701 through the outside roll-off of spout 6 to shell 1, can slide the inside of another insulation can with the link 701 of roll-off outside this moment, until link 701 outside second magnetic path 702 adsorbs mutually with the first magnetic path 601 of another insulation can, can make the connection between two adjacent insulation can inseparabler this moment, the phenomenon that collapses appears in the in-process that consequently reducible insulation can transport afterwards, and then reduce the probability that the insulation can damaged in the transfer process.

Further, the supporting mechanism 3 includes a supporting frame 301, an expansion link 302, a spring 303 and a clamping plate 304, the supporting frame 301 is installed in the casing 1, the expansion link 302 is installed on the opposite surface of the inside of the supporting frame 301, the clamping plate 304 is installed on the other end of the expansion link 302, the spring 303 is installed between the clamping plate 304 and the supporting frame 301, and the spring 303 surrounds the outside of the expansion link 302.

Specifically, as shown in fig. 2 and fig. 6, when using the device, the staff can directly place the instrument with required heat preservation in the splint 304 inside the housing 1, at this moment, the spring 303 in the supporting mechanism 3 can drive the splint 304 to clamp the instrument through the elastic acting force of the spring 303, so that the instrument can be stably placed inside the housing 1, and because the spring 303 surrounds the outside of the telescopic rod 302, the telescopic rod 302 reduces the phenomenon that the spring 303 is bent and deformed in the later use process, and the splint 304 in the center of the supporting frame 301, the spring 303 and the telescopic rod 302 can be taken down through the bolt, the distance between the splints 304 is changed, and the device can stably clamp instruments with different sizes.

Further, the internally mounted of shell 1 has insulating layer 2, and the internally mounted of insulating layer 2 has first heater strip 201, and supporting legs 4 are all installed to the four corners of shell 1 bottom, and the externally mounted of support frame 301 has bulge loop 401.

Specifically, as shown in fig. 2 and 3, when the heating wire works, the heat insulation layer 2 can reduce the phenomenon that heat generated by the heating wire during working is transmitted to the outside through the shell 1 to cause scalding of people, and can also increase the heat insulation effect of the shell 1.

Further, a transparent window 103 is arranged in the center of the top cover 101, a control knob 102 is arranged on one side of the top cover 101, clamping grooves 402 are formed in four corners of the top cover 101, the control knob 102 is electrically connected with the first heating wire 201 and the second heating wire 501 respectively, and a groove 403 is formed in the clamping groove 402.

Specifically, as shown in fig. 1 and 4, when transferring a plurality of sets of insulation boxes, after connecting the insulation boxes through the connection mechanism 7, another set of insulation boxes can be clamped into the inside of the clamping groove 402 through the supporting legs 4, in the clamping process, the convex ring 401 on the surface of the supporting legs 4 is squeezed to be in a shape, when the supporting legs 4 are completely clamped into the inside of the clamping groove 402, the convex ring 401 moves to a position corresponding to the groove 403 along the supporting legs 4, at this time, the squeezing force of the inside of the clamping groove 402 on the convex ring 401 disappears, the convex ring 401 expands again, and the convex ring 401 can be in complete contact with the inside of the groove 403 through the expansion of the convex ring 401, and due to the contact between the convex ring 401 and the groove, the connection between the supporting legs 4 and the clamping groove 402 can be tighter, so that the connection between the supporting legs 4 and the first magnetic block 601 and the second magnetic block 702 in the connection mechanism 7 can be tighter the connection between the horizontal and vertical directions of the transferred insulation boxes, when the insulation can is transported, the stability of connection between each other is greatly improved.

Further, the bottom of the housing 1 is provided with a sliding groove 6, a first magnetic block 601 is mounted on one side inside the sliding groove 6, and the magnetism of the first magnetic block 601 is opposite to that of the second magnetic block 702.

Specifically, as shown in fig. 5, because the first magnetic block 601 and the second magnetic block 702 have opposite magnetism, the first magnetic block 601 and the second magnetic block 702 stably attract the connecting frame 701, so as to prevent the connecting frame 701 from sliding freely inside the sliding slot 6.

Further, the outer diameter of the supporting leg 4 is the same as the inner diameter of the locking groove 402, and the handle 703 extends to the outside of the housing 1 through the sliding groove 6.

Specifically, as shown in fig. 1 and 3, since the outer diameter of the supporting leg 4 is the same as the inner diameter of the clamping groove 402, the supporting leg 4 and the clamping groove 402 are attached more tightly, and the protruding handle 703 facilitates the movement of the connecting frame 701 controlled by the worker.

The working principle is as follows: when the device is used, a worker can directly place an instrument needing heat preservation in the shell 1, at the moment, the spring 303 ring in the shell 1 can drive the telescopic rod 302 and the clamping plate 304 to clamp the instrument, so that the instrument can be stably positioned in the shell 1, at the moment, the worker can control the first heating wire 201 to work through the control knob 102, the instrument can be preserved heat through the temperature generated when the first heating wire 201 works, at the moment, the worker can observe the inside of the shell 1 through the transparent window 103 and the working condition of the instrument, at the same time, the worker can directly open the box door 503 and control the second heating wire 501 in the heating mechanism 5 to work through the control knob 102, at the moment, the heat generated when the second heating wire 501 works can be discharged outwards to warm the worker above the transparent window 103, and when a plurality of groups are transported, the staff can directly pass through the handle 703 with link 701 through the outside roll-off of spout 6 to shell 1, can slide the link 701 that rolls off outside into the inside of another insulation can this moment, until the outside second magnetic path 702 of link 701 adsorbs mutually with the first magnetic path 601 of another insulation can, can make the connection between two adjacent insulation can inseparabler this moment, accomplish the use of this device so far.

The utility model is not described in detail, but is well known to those skilled in the art.

Finally, it is to be noted that: although the present invention has been described in detail with reference to examples, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims (6)

1. An anti-dewing insulation can for a precision instrument comprises a shell (1); the method is characterized in that: a top cover (101) is installed at the top of the shell (1), heating mechanisms (5) are arranged on two sides of the interior of the top cover (101), a connecting mechanism (7) is installed at the bottom of the shell (1), and a supporting mechanism (3) is installed in the shell (1);

the heating mechanism (5) comprises a second heating wire (501), a protective net (502) and a box door (503), the second heating wire (501) is installed on two sides inside the top cover (101), the protective net (502) is installed above the second heating wire (501), and the box door (503) is arranged on the position, corresponding to the protective net (502), outside the top cover (101);

the connecting mechanism (7) comprises a connecting frame (701), second magnetic blocks (702) and a handle (703), the second magnetic blocks (702) are mounted on two sides of the outside of the connecting frame (701), and the handle (703) is mounted on the front face of the connecting frame (701).

2. The anti-dewing incubator according to claim 1, wherein: supporting mechanism (3) include support frame (301), telescopic link (302), spring (303) and splint (304), and the inside at shell (1) is installed in support frame (301), and telescopic link (302) are all installed to the inside opposite face of support frame (301), and splint (304) are installed to the other end of telescopic link (302), installs spring (303) between splint (304) and support frame (301), and spring (303) encircle the outside at telescopic link (302).

3. The anti-dewing incubator according to claim 1, wherein: the solar water heater is characterized in that a heat insulation layer (2) is arranged inside the shell (1), a first heating wire (201) is arranged inside the heat insulation layer (2), supporting legs (4) are arranged at four corners of the bottom of the shell (1), and a convex ring (401) is arranged outside the supporting frame (301).

4. The anti-dewing incubator according to claim 1, wherein: the central authorities at top cap (101) top are equipped with transparent window (103), and one side at top cap (101) top is equipped with control knob (102), and the four corners at top cap (101) top all is equipped with draw-in groove (402), and control knob (102) respectively with first heater strip (201) and second heater strip (501) electric connection, and the inside of draw-in groove (402) is equipped with recess (403).

5. The anti-dewing incubator according to claim 1, wherein: the bottom of the shell (1) is provided with a sliding groove (6), a first magnetic block (601) is installed on one side inside the sliding groove (6), and the magnetism of the first magnetic block (601) is opposite to that of the second magnetic block (702).

6. The anti-dewing incubator according to claim 3, wherein: the outer diameter of the supporting leg (4) is the same as the inner diameter of the clamping groove (402), and the handle (703) extends to the outside of the shell (1) through the sliding groove (6).

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