CN217088177U - Nanometer infrared heating ring with temperature control function - Google Patents

Abstract

The utility model discloses a nanometer infrared heating ring with temperature control function, which comprises a heat insulation shell, an infrared heating pipe, a convenient opening and closing component, a junction box and a ventilation and cooling component, wherein one end of the outer surface of the heat insulation shell is provided with a hinged support, the inner surface of the heat insulation shell is provided with the infrared heating pipe, one side of the outer surface of the heat insulation shell is provided with the convenient opening and closing component, the outer surface of the heat insulation shell is fixedly connected with the junction box, the ventilation and cooling component is arranged on the outer surface of the heat insulation shell along the upper part of the junction box, a taper gear and a bidirectional screw rod are driven to rotate by screwing and screwing, then the bidirectional screw rod pushes a nut and a clamping hook to displace, and the clamping cavity is opened, so that a shell can be conveniently separated from a shell with a shell II, thereby facilitating the opening of a person, when the device needs to be closed, the two sides are directly pushed together, and the clamping hook automatically displaces and is clamped into the clamping cavity under the pushing of a torsion bar spring, the quick and stable connection is completed, and the use by personnel is convenient.

Description

Nanometer infrared heating ring with temperature control function

Technical Field

The utility model relates to a heater technical field specifically is a nanometer infrared heating circle with control by temperature change function.

Background

The nano infrared electric heating ring converts radiation heat energy into far infrared heat energy through electric heating paint, so that the nano infrared electric heating ring is changed into a far infrared radiation heat source, the temperature of a heated object is improved, the temperature of moisture loss is reduced, the heat energy absorption speed of the heated object is increased, the temperature gradient is increased due to the increase of the surface temperature of the nano infrared electric heating ring, the heat energy conduction strength of the heated object is enhanced, the heat absorption capacity is greatly improved, the heat energy absorption speed of the heated object is enhanced, the heat energy loss is reduced, and the purpose of saving energy is achieved.

But present infrared heating circle still has some weak points, and it is inconvenient that it opens and shuts at first most infrared heating circle, can not be fast convenient open and close for personnel use comparatively inconvenient and loaded down with trivial details, and secondly infrared heating circle lacks appropriate cooling structure, makes after the high temperature uses, and the cooling time overlength is used to some inconvenience, for this reason we provide a nanometer infrared heating circle with temperature control function.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a nanometer infrared heating circle with temperature control function to solve the problem of proposing among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a nanometer infrared heating circle with temperature control function, includes thermal-insulated shell, infrared heating pipe, convenient subassembly, terminal box and the aeration cooling subassembly that opens and shuts, thermal-insulated shell surface one end is equipped with the free bearing, thermal-insulated shell internal surface is equipped with infrared heating pipe, thermal-insulated shell surface one side is installed convenient subassembly that opens and shuts, thermal-insulated shell surface fixed connection has the terminal box, the aeration cooling subassembly is installed along the terminal box top to thermal-insulated shell surface.

Preferably, convenient subassembly that opens and shuts still including a casing, revolve wrong, taper gear, two-way screw rod, nut, pothook, card chamber, No. two casings, No. one casing surface below is equipped with revolves to revolve wrong, revolve wrong one end fixedly connected with taper gear, taper gear surface rotates and is connected with two-way screw rod, two-way screw rod surface threaded connection has the nut, nut below fixedly connected with pothook, pothook surface sliding connection has the card chamber, No. two casing internal surfaces are located in the card chamber.

Preferably, aeration cooling subassembly is still including housing, fan, pipeline, draught tube, flexible piece, spring, shower nozzle, housing internal surface mounting has the fan, housing right side top fixedly connected with pipeline, pipeline one end fixedly connected with draught tube, draught tube internal surface sliding connection has flexible piece, flexible piece one end fixedly connected with spring, the shower nozzle is installed to the flexible piece other end.

Preferably, both ends of the bidirectional screw rod are provided with reinforcing rings, and the outer surfaces of the reinforcing rings are fixedly connected with the inner surface of the first shell.

Preferably, the middle part of the bidirectional screw is fixedly connected with a torsion bar spring, and one end of the torsion bar spring is fixedly connected with the inner surface of the first shell

Preferably, the left side of the fan is provided with a filter screen which is detachably connected with the housing.

Preferably, the middle part of one end of the draft tube is provided with a telescopic tube, and the right side of the telescopic tube is provided with a hinged support.

Preferably, the two sides of the outer surface of the telescopic block are fixedly connected with limiting blocks, and the outer surfaces of the limiting blocks are slidably connected with limiting grooves.

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

1. the utility model discloses a convenient subassembly that opens and shuts drives taper gear, two-way screw rod and rotates through revolving soon, then two-way screw rod promotes nut, pothook displacement, lets out card chamber position for a casing can be convenient with No. two casing separation, thereby the personnel of being convenient for open device, and when needing to close, directly put together both sides the propelling movement, under torsion bar spring's promotion, make pothook automatic displacement card go into in the card chamber, accomplish fast and stable's connection, the personnel of being convenient for use.

2. The utility model discloses a aeration cooling subassembly blows in air admission pipeline, the draught tube through the fan for inside atmospheric pressure increases, promotes flexible piece and stretches out, makes the cooling air flow down along the shower nozzle, makes the device can cool down for the device after the high temperature work, strengthens the circulation of air effect, and when out of work simultaneously, automatic shrink avoids causing the influence.

3. The utility model discloses a flexible piece surface both sides fixedly connected with stopper, stopper surface sliding connection have the spacing groove, restrict its flexible piece displacement distance, and stable cooling working effect prevents the unexpected condition of breaking away from.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the convenient opening and closing assembly of the present invention;

fig. 3 is a schematic structural view of the aeration-cooling assembly of the present invention.

In the figure: the device comprises a heat insulation shell 1, a hinged support 2, an infrared heating pipe 3, a convenient opening and closing component 4, a first shell 41, a screwing screw 42, a taper gear 43, a two-way screw 44, a screw cap 45, a clamping hook 46, a clamping cavity 47, a second shell 48, a junction box 5, an aeration and cooling component 6, a cover 61, a fan 62, a pipeline 63, a draft tube 64, a telescopic block 65, a spring 66, a spray head 67, a reinforcing ring 401, a torsion bar spring 402, a filter screen 601, a telescopic tube 602, a limiting block 603 and a limiting groove 604.

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 technical scheme in the utility model, all other embodiments that ordinary skilled person in the art obtained under the prerequisite of not making the creative work all belong to the scope of the utility model protection.

Referring to fig. 1 to 3, the present invention provides a technical solution: the utility model provides a nanometer infrared heating circle with temperature control function, includes thermal-insulated shell 1, infrared heating pipe 3, convenient subassembly 4, terminal box 5 and the aeration cooling subassembly 6 that opens and shuts, 1 surface one end of thermal-insulated shell is equipped with free bearing 2, 1 internal surface of thermal-insulated shell is equipped with infrared heating pipe 3, 1 surface one side of thermal-insulated shell is installed convenient subassembly 4 that opens and shuts, 1 outer fixed surface of thermal-insulated shell is connected with terminal box 5, aeration cooling subassembly 6 is installed along 5 tops on the terminal box to 1 surface of thermal-insulated shell.

Furthermore, the convenient opening and closing component 4 further comprises a first shell 41, a screwing 42, a taper gear 43, a bidirectional screw 44, a nut 45, a hook 46, a clamping cavity 47 and a second shell 48, wherein the screwing 42 is arranged below the outer surface of the first shell 41, one end of the screwing 42 is fixedly connected with the taper gear 43, the outer surface of the taper gear 43 is rotatably connected with the bidirectional screw 44, the outer surface of the bidirectional screw 44 is in threaded connection with the nut 45, the hook 46 is fixedly connected below the nut 45, the outer surface of the hook 46 is in sliding connection with the clamping cavity 47, the clamping cavity 47 is arranged on the inner surface of the second shell 48, the taper gear and the bidirectional screw are driven to rotate through screwing and screwing, then the nut and the hook are pushed by the bidirectional screw to displace to leave the clamping cavity, so that the first shell can be conveniently separated from the second shell, thereby facilitating the opening of the device by personnel, and when the first shell needs to be closed, the two sides are directly pushed together, under the push of the torsion bar spring, the clamping hook automatically displaces and is clamped into the clamping cavity, so that the quick and stable connection is completed, and the use by personnel is facilitated.

Further, aeration cooling subassembly 6 is still including housing 61, fan 62, pipeline 63, draught tube 64, flexible piece 65, spring 66, shower nozzle 67, housing 61 internal surface mounting has fan 62, housing 61 right side top fixedly connected with pipeline 63, pipeline 63 one end fixedly connected with draught tube 64, draught tube 64 internal surface sliding connection has flexible piece 65, flexible piece 65 one end fixedly connected with spring 66, shower nozzle 67 is installed to the flexible piece 65 other end, blow the air admission pipeline through the fan, in the draught tube, make inside atmospheric pressure strengthen, promote flexible piece and stretch out, make cooling gas flow down along the shower nozzle, make the device can cool down for the device after the high temperature work, strengthen the circulation of air effect, during the while is out of work, automatic shrink, avoid causing the influence.

Furthermore, reinforcing rings 401 are arranged at two ends of the bidirectional screw 44, and the outer surfaces of the reinforcing rings 401 are fixedly connected with the inner surface of the first shell 41.

Further, a torsion bar spring 402 is fixedly connected to the middle portion of the bidirectional screw 44, and one end of the torsion bar spring 402 is fixedly connected to the inner surface of the first housing 41

Further, a filter screen 601 is arranged on the left side of the fan 62, and the filter screen 601 is detachably connected with the housing 61.

Furthermore, a telescopic pipe 602 is arranged in the middle of one end of the draft tube 64, and a hinged support 2 is arranged on the right side of the telescopic pipe 602.

Furthermore, both sides of the outer surface of the telescopic block 65 are fixedly connected with a limiting block 603, and the outer surface of the limiting block 603 is slidably connected with a limiting groove 604.

The working principle is as follows: during the use, by convenient subassembly 4 work that opens and shuts, twist soon 42 through twisting, drive taper gear 43, two-way screw 44 and rotate, then two-way screw 44 promotes nut 45, pothook 46 displacement, lets out card chamber 47 position, makes casing 41 can be convenient with No. two casing 48 separation, thereby the personnel of being convenient for open the device, and when needing to close, directly push together both sides, under the promotion of torsion bar spring 402, make pothook 46 automatic displacement block in the card chamber 47, accomplish quick stable connection, the personnel of being convenient for use.

Secondly, by aeration cooling subassembly 6 work, blow in air admission pipeline 63, the draft tube 64 through fan 62 for inside atmospheric pressure increases, promotes flexible piece 65 and stretches out, makes cooling air flow down along shower nozzle 67, makes the device can cool down for the device after the high temperature work, strengthens the circulation of air effect, and when out of work simultaneously, automatic shrink avoids causing the influence.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a nanometer infrared heating circle with temperature control function, includes thermal-insulated shell (1), infrared heating pipe (3), convenient subassembly (4), terminal box (5) and aeration cooling subassembly (6), its characterized in that: thermal-insulated shell (1) surface one end is equipped with free bearing (2), thermal-insulated shell (1) internal surface is equipped with infrared heating pipe (3), thermal-insulated shell (1) surface one side is installed convenient subassembly (4) that opens and shuts, thermal-insulated shell (1) surface fixed connection has terminal box (5), ventilation cooling subassembly (6) are installed along terminal box (5) top to thermal-insulated shell (1) surface.

2. The nano infrared heating ring with the temperature control function as claimed in claim 1, wherein: convenient subassembly (4) that opens and shuts still including a casing (41), revolve wrong (42), tapering gear (43), two-way screw rod (44), nut (45), pothook (46), card chamber (47), No. two casing (48), casing (41) surface below is equipped with revolves wrong (42), revolve wrong (42) one end fixedly connected with tapering gear (43), tapering gear (43) surface rotates and is connected with two-way screw rod (44), two-way screw rod (44) surface threaded connection has nut (45), nut (45) below fixedly connected with pothook (46), pothook (46) surface sliding connection has card chamber (47), No. two casing (48) internal surfaces are located in card chamber (47).

3. The nano infrared heating ring with the temperature control function as claimed in claim 1, wherein: aeration cooling subassembly (6) are still including housing (61), fan (62), pipeline (63), draught tube (64), flexible piece (65), spring (66), shower nozzle (67), housing (61) internal surface mounting has fan (62), housing (61) right side top fixedly connected with pipeline (63), pipeline (63) one end fixedly connected with draught tube (64), draught tube (64) internal surface sliding connection has flexible piece (65), flexible piece (65) one end fixedly connected with spring (66), shower nozzle (67) is installed to flexible piece (65) other end.

4. The nano infrared heating ring with the temperature control function as claimed in claim 2, wherein: two ends of the bidirectional screw (44) are provided with reinforcing rings (401), and the outer surfaces of the reinforcing rings (401) are fixedly connected with the inner surface of the first shell (41).

5. The nano infrared heating ring with the temperature control function as claimed in claim 2, wherein: the middle part of the bidirectional screw (44) is fixedly connected with a torsion bar spring (402), and one end of the torsion bar spring (402) is fixedly connected with the inner surface of the first shell (41).

6. The nano infrared heating ring with the temperature control function as claimed in claim 3, wherein: fan (62) left side is equipped with filter screen (601), filter screen (601) can be dismantled with housing (61) and be connected.

7. The nano infrared heating ring with the temperature control function as claimed in claim 3, wherein: an extension tube (602) is arranged in the middle of one end of the draft tube (64), and a hinged support (2) is arranged on the right side of the extension tube (602).

8. The nano infrared heating ring with the temperature control function as claimed in claim 3, wherein: the telescopic block (65) is characterized in that limiting blocks (603) are fixedly connected to two sides of the outer surface of the telescopic block, and limiting grooves (604) are connected to the outer surface of the limiting blocks (603) in a sliding mode.

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