CN218674815U - Temperature experimental device of high temperature resistant printing and dyeing defoaming agent - Google Patents

Abstract

The application discloses high temperature resistant printing and dyeing defoaming agent's temperature experimental apparatus, including casing and heating device, heating device sets up in the casing, heating device includes heating element, first radiating piece and driving piece, first radiating piece sets up in heating element's below, heating element is connected to the one end of first radiating piece, the driving piece is connected to the other end of first radiating piece, heating element includes heating mantle and a plurality of heating member, a plurality of heating member interval ground are installed in the heating mantle, be equipped with the heating chamber in the heating mantle, the heating chamber is suitable for placing the device of treating the heating, through setting up heating mantle and a plurality of heating member in this application, and a plurality of heating member interval ground divide locate on the heating mantle, the heating member can heat the device of treating the heating in the heating mantle effectively, and improve rate of heating, and heating mantle self also can store the heat and avoid the heat to scatter and disappear, thereby can improve its rate of heating, guarantee its heating effect.

Description

Temperature experimental device of high temperature resistant printing and dyeing defoaming agent

Technical Field

The application relates to an experimental device, especially relates to a temperature experimental apparatus of high temperature resistant printing and dyeing defoaming agent.

Background

An antifoaming agent is a substance that reduces the surface tension of water, solutions, suspensions, etc., prevents the formation of foam, or reduces or eliminates the original foam. The method has wide application in the fields of coating, textile, medicine, fermentation, papermaking, water treatment, petrochemical industry and the like. The defoaming agent generally need be tested its defoaming effect through temperature experimental apparatus in process of production, but its rate of heating of the temperature experimental apparatus among the prior art is slow and heating effect is poor, easily leads to the deviation to appear in the experimentation, and the experiment is accomplished its inside temperature and can't carry out quick cooling, leads to whole experimentation consuming time longer, wastes time and energy.

SUMMERY OF THE UTILITY MODEL

In order to overcome prior art's not enough, an aim at of this application provides a temperature experimental apparatus of high temperature resistant printing and dyeing defoaming agent, and its rate of heating is fast, and heating effect is good, and also can cool off fast after the experiment.

In order to achieve the above purposes, the technical scheme adopted by the application is as follows: the utility model provides a temperature experimental apparatus of high temperature resistant printing and dyeing defoaming agent, includes casing and heating device, heating device set up in the casing, heating device includes heating element, first radiating piece and driving piece, first radiating piece set up in heating element's below, the one end of first radiating piece is connected heating element, the other end of first radiating piece is connected the driving piece, heating element includes heating mantle and a plurality of heating pieces, and is a plurality of heating piece interval install in the heating mantle, be equipped with the heating chamber in the heating mantle, the heating chamber is suitable for placing the device of treating the heating.

Preferably, a placing table is arranged on the shell, fixing blocks are arranged at two ends of the placing table and are suitable for fixing the placing table on the shell, a limiting groove is formed in the heating cover, the fixing blocks are clamped in the limiting groove, and the driving piece is suitable for driving the heating device to move up and down along the placing table through the limiting groove.

As another preferred mode, be equipped with mounting groove, second radiating piece and deep bead on the casing, the mounting groove is aimed at the spacing groove, second radiating piece install in the mounting groove, the deep bead slidable mounting in on the casing, the deep bead set up in the spacing groove with between the second radiating piece, the deep bead is suitable for right the mounting groove is opened or is closed.

Further preferably, the shell is provided with a sliding groove, the sliding groove is communicated with the mounting groove, and the sliding groove is suitable for mounting the wind shield.

Furthermore, the upper end of the shell is provided with a limiting hole, the limiting hole is communicated with the sliding groove, the wind shield is provided with a sliding block, and the sliding block is slidably installed in the limiting hole.

Furthermore, a through hole is formed in the heating cover, the through hole penetrates through the heating cover from top to bottom, and the through hole is aligned to the first heat dissipation piece.

Further, the upper side and the lower side of the heating cover are respectively provided with an installation block and a limiting block, the installation blocks integrally extend from the periphery to the middle of the heating cover to form, the limiting blocks are arranged on the outer side of the installation blocks, and the aperture of the limiting blocks is smaller than that of the installation blocks.

Furthermore, the installation block is provided with a plurality of groups of jacks, the jacks are arranged on the installation block at intervals, plugs are arranged at two ends of the heating element, and the plugs are suitable for being inserted into the jacks.

Further, the first heat dissipation member and the second heat dissipation member are fans.

Further, still be equipped with the apron on the casing, apron detachably covers fits the upper end of casing.

Compared with the prior art, the beneficial effect of this application lies in:

(1) It is equipped with heating mantle and a plurality of heating member, and the heating mantle can be stored the heat of heating member and avoid the heat to scatter and disappear, and a plurality of heating member interval ground set up, can improve rate of heating effectively, ensures its heating effect.

(2) The first heat dissipation part is arranged, so that heat in the heating cover can be effectively dissipated after the experiment is finished, the cooling speed is increased, and preparation is made for the next experiment.

Drawings

Fig. 1 is a perspective view of a temperature experiment apparatus in the present application.

Fig. 2 is a front view of the temperature experiment apparatus of the present application.

FIG. 3 is a top view of the temperature experimental apparatus of the present application.

Fig. 4 isbase:Sub>A cross-sectional view taken along linebase:Sub>A-base:Sub>A of fig. 3 of the present application.

Fig. 5 is a cross-sectional view taken along line B-B of fig. 3 of the present application (without the heating element installed).

Fig. 6 is a schematic view of the heating apparatus of the present application moving downward.

Fig. 7 is a perspective view of a heating device according to the present application.

Fig. 8 is a top view of a heating device of the present application.

FIG. 9 is a cross-sectional view taken along line C-C of FIG. 8 of the present application.

Fig. 10 is a schematic view of the heating apparatus of the present application without a heating element.

In the figure: 1. a temperature experimental device; 10. a housing; 11. a placing table; 111. a fixed block; 12. mounting grooves; 13. a second heat sink; 14. a wind deflector; 141. a slider; 15. a sliding groove; 16. a limiting hole; 20. a heating device; 21. a heating assembly; 22. a first heat sink; 23. a drive member; 24. a heating mantle; 241. a heating cavity; 242. a limiting groove; 243. a through hole; 244. mounting blocks; 245. a limiting block; 246. a jack; 25. a heating member; 251. and (4) a plug.

Detailed Description

The present application is further described below with reference to specific embodiments, and it should be noted that, without conflict, any combination between the embodiments or technical features described below may form a new embodiment.

In the description of the present application, it should be noted that, for the terms of orientation, such as "central", "lateral", "longitudinal", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., it indicates that the orientation and positional relationship shown in the drawings are based on the orientation or positional relationship shown in the drawings, and is only for the convenience of describing the present application and simplifying the description, but does not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be construed as limiting the specific scope of protection of the present application.

It is noted that the terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order.

The terms "comprises," "comprising," and "having," and any variations thereof, in the description and claims of this application, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The temperature experiment device 1 for the high-temperature-resistant printing and dyeing defoamer as shown in fig. 1 to 10 comprises a housing 10 and a heating device 20, wherein the heating device 20 is arranged in the housing 10, the heating device 20 comprises a heating component 21, a first heat dissipation member 22 and a driving member 23, the first heat dissipation member 22 is arranged below the heating component 21, one end of the first heat dissipation member 22 is connected with the heating component 21, the other end of the first heat dissipation member 22 is connected with the driving member 23, the heating component 21 comprises a heating cover 24 and a plurality of heating members 25, the plurality of heating members 25 are arranged in the heating cover 24 at intervals, a heating cavity 241 is arranged in the heating cover 24, the heating cavity 241 is suitable for placing a device to be heated, a temperature sensor is arranged in the heating cover 24, a temperature display is arranged outside the housing 10, the temperature sensor is connected with the temperature display, the temperature sensor is suitable for measuring the temperature in the heating cover 24 and transmitting the temperature to the temperature display, and the temperature display is suitable for displaying the temperature in the heating cover 24. When the temperature experiment needs to be carried out on the produced defoaming agent, the device with the defoaming agent can be placed in the heating cover 24 firstly, the heating element 25 is started, the heating element 25 can heat the whole heating cover 24, the temperature sensor in the heating cover 24 can sense the real-time temperature in the heating cover 24, and meanwhile the numerical value of the temperature sensor is transmitted to the temperature display, the heating element 25 can be continuously heated or closed by observing the temperature displayed by the temperature display during the temperature experiment, the heating cover 24 and the plurality of heating elements 25 are arranged in the application, the plurality of heating elements 25 are arranged on the heating cover 24 at intervals, the heating element 25 can effectively heat the device to be heated in the heating cover 24, the heating speed is increased, the heating cover 24 can store the heat to avoid heat loss, the heating speed is increased, and the heating effect is guaranteed.

As shown in fig. 3 to 7, a placing table 11 is disposed on the housing 10, the placing table 11 is adapted to support a device to be heated, fixing blocks 111 are disposed at two ends of the placing table 11, the fixing blocks 111 are adapted to fix the placing table 11 on the housing 10, a limiting groove 242 is disposed on the heating cover 24, the fixing blocks 111 are clamped in the limiting groove 242, and the driving member 23 is adapted to drive the heating device 20 to move up and down along the placing table 11 through the limiting groove 242. When the temperature experiment device 1 is not performing experiment operation, the heating device 20 moves downwards under the action of the driving member 23 until the stop block 245 at the upper end of the heating cover 24 abuts against the placing table 11, and the stop block 245 at the upper end of the heating cover 24 can limit the movement of the heating cover, and meanwhile, the mounting block 244 is flush with the placing table 11. When the temperature experiment operation needs to be carried out, the device to be heated can be placed on the placing table 11, the driving piece 23 is started again, the driving piece 23 can promote the upward movement of the heating device 20, the upper end face of the limiting block 245 of the lower end of the heating cover 24 abuts against the lower end face of the placing table 11, the outer side of the device to be heated can be sleeved with the whole heating cover 24 at the moment, the fixing block 111 and the limiting groove 242 are arranged in the application, the stability of the heating assembly 21 in the up-and-down moving process can be guaranteed, and meanwhile, the heating assembly 21 can be guaranteed not to be influenced by the placing table 11 itself in the up-and-down moving process.

As shown in fig. 1, a mounting groove 12, a second heat dissipating member 13 and a wind deflector 14 are provided on the housing 10, the mounting groove 12 is aligned with the limiting groove 242, the second heat dissipating member 13 is mounted in the mounting groove 12, the wind deflector 14 is slidably mounted on the housing 10, the wind deflector 14 is disposed between the limiting groove 242 and the second heat dissipating member 13, and the wind deflector 14 is adapted to open or close the mounting groove 12. When temperature experiment device 1 heats the experiment operation, the deep bead 14 slides this moment for the deep bead 14 can be closed mounting groove 12, closes the apron lid of casing 10 upper end simultaneously, and casing 10 inside forms a inclosed space this moment, is convenient for store the heat that heating member 25 produced, improves its heating efficiency. After the heating is completed, the cover plate is opened and the wind shield 14 is slid, so that the wind shield 14 does not block the space between the second heat dissipation part 13 and the limiting groove 242, the second heat dissipation part 13 is restarted, the second heat dissipation part 13 can perform heat dissipation operation on the heated device on the placing table 11, meanwhile, the driving part 23 can drive the heating component 21 to move downwards, at the moment, the first heat dissipation part 22 can also perform heat dissipation operation in the heating cover 24 through the through hole 243, the heat dissipation efficiency of the whole device is greatly improved, so that the temperature can be reduced to the room temperature, and the preparation is made for the next experiment.

In some embodiments, as shown in fig. 4, the number of the mounting grooves 12, the second heat dissipation member 13 and the wind deflector 14 is preferably two, the two mounting grooves 12 are symmetrically arranged on the housing 10, and by arranging the two symmetrically arranged mounting grooves 12, when heat dissipation is performed, one of the heat dissipation members can blow air into the housing 10 for heat dissipation, and the other heat dissipation member can suck hot air in the housing 10 out of the outside, so that the heat dissipation speed in the whole housing 10 is greatly increased, and the heat dissipation efficiency is improved.

As shown in fig. 1, the casing 10 is provided with a sliding groove 15, the sliding groove 15 is communicated with the mounting groove 12, the sliding groove 15 is suitable for mounting the wind deflector 14, the sliding groove 15 is suitable for limiting the sliding of the wind deflector 14, and the stability of the wind deflector 14 in the sliding process is improved.

As shown in fig. 1 to 3, a limiting hole 16 is formed at the upper end of the housing 10, the limiting hole 16 communicates with the sliding groove 15, a slider 141 is disposed on the wind shield 14, and the slider 141 is slidably mounted in the limiting hole 16. The sliding of the wind shield 14 is facilitated by the arrangement of the sliding block 141, the limiting hole 16 is arranged, when the wind shield 14 slides to one end of the limiting hole 16, the wind shield 14 completely prevents the second heat dissipation part 13 and the limiting groove 242 at the moment, when the wind shield 14 slides to the other end of the limiting hole 16, the wind shield 14 completely separates the second heat dissipation part 13 and the limiting groove 242 at the moment, and therefore different operations can be achieved by sliding the sliding block 141 to two ends of the limiting hole 16.

As shown in fig. 5, a through hole 243 is formed in the heating cover 24, the through hole 243 penetrates through the heating cover 24 from top to bottom, the through hole 243 is aligned with the first heat sink 22, when the heating device 20 heats, the upper end surface of the limit block 245 on the heating cover 24 abuts against the lower end surface of the placing table 11, and the mounting block 244 is flush with the placing table 11, at this time, under the action of the placing table 11, the bottom of the through hole 243 on the heating cover 24 is blocked, so that the heating cover 24 and the placing table 11 form a cavity with an upward opening, and meanwhile, the cover of the cover plate is closed, so that the whole heating cover 24 forms a closed space, the heating element 25 is convenient to heat, and the heating speed and the heating efficiency can be effectively improved. When the heating device 20 does not need to perform the heating operation, the driving element 23 can drive the heating element 21 to move downward, the bottom of the heating cover 24 is far away from the placing table 11, the first heat dissipation element 22 is aligned to the through hole 243, the first heat dissipation element 22 is started, and the first heat dissipation element 22 can effectively perform the heat dissipation operation in the heating cavity 241, so that the heat dissipation speed is increased, and the cooling time is shortened.

As shown in fig. 6 to 10, the upper and lower sides of the heating cover 24 are provided with mounting blocks 244 and limiting blocks 245, the mounting blocks 244 integrally extend from the periphery to the middle of the heating cover 24, the limiting blocks 245 are arranged outside the mounting blocks 244, and the aperture of the limiting blocks 245 is smaller than that of the mounting blocks 244. The purpose of providing the stoppers 245 at the upper and lower ends of the heating mantle 24 in this application is to limit the up-and-down movement of the heating mantle 24, and at the same time, when the heating mantle 24 moves upward, the upper end surface of the stopper 245 abuts against the lower end surface of the placing table 11 and the mounting block 244 is flush with the placing table 11; the installation block 244 is arranged to facilitate installation and disassembly of the heating element 25, and the aperture of the limiting block 245 is smaller than that of the installation block 244, so that when the heating element 25 is installed on the installation block 244 and the heating cover 24 moves up and down, no interference exists between the placing table 11 and the heating element 25.

As shown in fig. 9-10, a plurality of sets of insertion holes 246 are formed in the mounting block 244, the plurality of sets of insertion holes 246 are alternately formed in the mounting block 244, and plugs 251 are formed at both ends of the heating element 25, and the plugs 251 are adapted to be inserted into the insertion holes 246. The heating element 25 is preferably an electric heating rod, a heating lamp, etc., and a power cord is provided in the socket 246 and connected to an external power source, and is adapted to heat the heating element 25 through the cooperation of the socket 246 and the plug 251. Can realize installing or changing heating member 25 fast through setting up jack 246 and plug 251 in this application, also can be according to the demand of different experiments to the temperature simultaneously, change the heating member 25 of looks adaptation in order to satisfy the experiment demand.

In some embodiments, the first heat dissipation element 22 and the second heat dissipation element 13 are fans, which can effectively dissipate heat and reduce the manufacturing cost of the entire temperature experiment device 1.

Wherein, still be equipped with the apron on the casing 10, the apron detachably covers the upper end of casing 10. The cover plate is not shown in the drawings of the present application, and the case 10 can be effectively sealed by the cover plate, thereby improving the heating efficiency thereof.

Wherein the driving member 23 is a cylinder.

The foregoing has described the general principles, essential features, and advantages of the application. It will be understood by those skilled in the art that the present application is not limited to the embodiments described above, which are merely illustrative of the principles of the application, but that various changes and modifications may be made without departing from the spirit and scope of the application, and these changes and modifications are intended to be within the scope of the application as claimed. The scope of protection claimed by this application is defined by the following claims and their equivalents.

Claims (9)

1. The utility model provides a temperature experimental apparatus of high temperature resistant printing and dyeing defoaming agent which characterized in that: including casing and heating device, heating device set up in the casing, heating device includes heating element, first heat-dissipating piece and driving piece, first heat-dissipating piece set up in heating element's below, the one end of first heat-dissipating piece is connected heating element, the other end of first heat-dissipating piece is connected the driving piece, heating element includes heating mantle and a plurality of heating member, and is a plurality of heating member install with interval in the heating mantle, be equipped with the heating chamber in the heating mantle, the heating chamber is suitable for placing the device of treating the heating.

2. The temperature test apparatus for a high temperature resistant printing defoaming agent according to claim 1, wherein: the heating device is characterized in that a placing table is arranged on the shell, fixed blocks are arranged at two ends of the placing table, the fixed blocks are suitable for fixing the placing table on the shell, a limiting groove is formed in the heating cover, the fixed blocks are clamped in the limiting groove, and the driving piece is suitable for driving the heating device to move up and down along the placing table through the limiting groove.

3. The temperature test apparatus for a high temperature resistant printing and dyeing defoamer as set forth in claim 2, wherein: be equipped with mounting groove, second radiating piece and deep bead on the casing, the mounting groove is aimed at the spacing groove, the second radiating piece install in the mounting groove, deep bead slidable mounting in on the casing, the deep bead set up in the spacing groove with between the second radiating piece, the deep bead is suitable for right the mounting groove is opened or is closed.

4. A temperature test apparatus for a high temperature resistant printing defoaming agent according to claim 3, wherein: the casing is provided with a sliding groove, the sliding groove is communicated with the mounting groove, and the sliding groove is suitable for mounting the wind shield.

5. The temperature test apparatus for a high temperature resistant printing and dyeing defoamer as set forth in claim 4, wherein: the upper end of casing is equipped with spacing hole, spacing hole intercommunication the sliding tray, be equipped with the slider on the deep bead, slider slidable mounting in spacing hole.

6. A temperature test apparatus for a high temperature resistant printing defoaming agent according to any one of claims 1 to 5, wherein: the heating cover is provided with a through hole, the through hole penetrates through the heating cover from top to bottom, and the through hole is aligned to the first heat dissipation piece.

7. The temperature test apparatus for a high temperature resistant printing and dyeing defoamer as set forth in claim 6, wherein: the upper and lower both sides of heating mantle all are equipped with installation piece and stopper, the installation piece is followed integratively the heating mantle extends to the centre all around and forms, the stopper set up in the outside of installation piece, the aperture of stopper is less than the aperture of installation piece.

8. The temperature test apparatus for a high temperature resistant printing defoaming agent according to claim 7, wherein: the installation piece is provided with a plurality of groups of jacks, the jacks are arranged on the installation piece at intervals, plugs are arranged at two ends of the heating piece, and the plugs are suitable for being inserted into the jacks.

9. The temperature test apparatus for a high temperature resistant printing and dyeing defoamer as set forth in claim 3, wherein: the first heat dissipation member and the second heat dissipation member are fans.

Images