CN205372652U - Radiator unit for camp stove - Google Patents

Abstract

The utility model provides a radiator unit for camp stove belongs to the open air tourism device fabrication technical field that camps, including urceolus, a thermal -insulated section of thick bamboo and fan, a thermal -insulated section of thick bamboo lies in the urceolus, and a thermal -insulated section of thick bamboo can be dismantled and connect in the urceolus, forms toroidal cavity between the lateral wall of a thermal -insulated section of thick bamboo and the inside wall of urceolus, and the fan lies in a thermal -insulated section of thick bamboo, and the fan is installed in the bottom of a thermal -insulated section of thick bamboo, the top of the thermal -insulated section of thick bamboo of air outlet orientation of fan, and the top of fan is provided with the guide plate, and the guide plate is installed in a thermal -insulated section of thick bamboo, has the passageway of confession circulation of air between the lateral wall of guide plate and the thermal -insulated inside wall. This radiator unit can separate the heat that produces effectively in the camp stove use for the difficult rising of temperature of urceolus, safe and reliable is more used to the difficult condition that the scald appears when touching the urceolus.

Description

Camp stove radiating subassembly

Technical field

This utility model relates to outdoor camping tourism equipment production technical field, in particular to a kind of camp stove radiating subassembly.

Background technology

Along with gradually stepping up of people's living standard, outdoor camping tourism has become as the selection of increasing people, when the long-time activity out of doors of people, it is no matter for picnicing or in order to maintain basic living necessities, all inevitably need food is carried out processed processing, address that need, occurred in that the camp stove of field processed processed food on the market.

Existing camp stove is generally made up of duration and degree of heating cover, urceolus and combustion barrel.Duration and degree of heating cover covers on the top of urceolus, for supporting heated container, combustion barrel is positioned at outer barrel, air blanketing is formed between combustion barrel and urceolus, combustion barrel is the place of fuel combustion, extraneous air is passed in air blanketing naturally by the fresh air inlet on urceolus, finally enters in combustion barrel, for fuel oxygen supply.

Inventor finds under study for action, and camp stove of the prior art in use at least has a disadvantage in that

One, prior art camp stove in order to easy to process, generally urceolus and combustion barrel are designed to the cylindrical structure of arranged concentric, cause that urceolus temperature is higher, it is easy to scald one's hand, not easily take, during operation, safety is low；

Two, the temperature in combustion barrel is too high, it is easy to affects the service life of blower fan, and then adds use cost.

Utility model content

The purpose of this utility model is in that to provide a kind of camp stove radiating subassembly, the too high problem causing the situation of scald easily occur of temperature to improve the camp stove in use urceolus of prior art.

This utility model is achieved in that

Based on above-mentioned purpose, this utility model provides a kind of camp stove radiating subassembly, including urceolus, heat insulation cylinder and blower fan, wherein:

Described heat insulation cylinder is positioned at described urceolus, described heat insulation cylinder is removably connected to described urceolus, toroidal cavity is formed between lateral wall and the medial wall of described urceolus of described heat insulation cylinder, described blower fan is positioned at described heat insulation cylinder, described assembling is in the bottom of described heat insulation cylinder, the air outlet of described blower fan is towards the top of described heat insulation cylinder, described blower fan be provided above deflector, described deflector is installed in described heat insulation cylinder, has the passage for air circulation between sidewall and the medial wall of described heat insulation cylinder of described deflector.

Preferably, the outline in the cross section of the axis being parallel to described urceolus of described deflector is triangle, and the summit of described deflector is towards the air outlet of described blower fan, and the end away from this summit of described deflector is connected with described heat insulation cylinder.

Preferably, one end away from described summit of described deflector has multiple connecting portion, and the plurality of connecting portion, along the circumference uniformly arrangement of described deflector, forms described passage between two adjacent described connecting portions.

Preferably, described connecting portion is L-shaped, described connecting portion includes first straight plate part the second straight plate part and connects described first straight plate part and the kink of described second straight plate part, described first straight plate part is perpendicular with described second straight plate part, described first straight plate part is along the lateral wall of the outwardly described deflector of radial direction of described heat insulation cylinder, and described deflector is connected by described second straight plate part with described heat insulation cylinder.

Preferably, described first straight plate part is perpendicular to described second straight plate part.

Preferably, described camp stove radiating subassembly also includes installing plate, and described installing plate is positioned at the top of described deflector, and described installing plate is connected with described deflector.

Preferably, the plate face of described installing plate being provided with locating dowel, described locating dowel edge is perpendicular to the plate face described installing plate of upwardly directed protrusion of described installing plate.

Preferably, described locating dowel is provided with multiple, and multiple described locating dowels are evenly distributed on described installing plate.

Preferably, described camp stove radiating subassembly also includes support, and described support is installed on the bottom of described heat insulation cylinder, and described assembling is in described support.

Preferably, described urceolus being provided with multiple first passage, the plurality of first passage is positioned at the top of described urceolus, and each described first passage is along the sidewall radially outward running through described urceolus of described urceolus；Being provided with multiple second passage on described heat insulation cylinder, the plurality of second passage is positioned at the top of described heat insulation cylinder, and each described second passage is along the sidewall radially outward running through described heat insulation cylinder of described heat insulation cylinder.

The beneficial effects of the utility model are:

In sum, this utility model provides a kind of camp stove radiating subassembly, this heat radiation assembly structure advantages of simple, convenient processing and manufacture, low cost of manufacture, simultaneously, the heat produced in camp stove use procedure can be separated by this radiating subassembly effectively, the temperature making urceolus not easily raises, and situation about scalding not easily occurs, use more safe and reliable when touching urceolus.Specific as follows:

The camp stove radiating subassembly that this embodiment provides, including urceolus, heat insulation cylinder and blower fan, heat insulation cylinder is arranged in urceolus, between lateral wall and the medial wall of urceolus of heat insulation cylinder, there is space, namely toroidal cavity is defined between heat insulation cylinder and urceolus, during actual installation, combustion barrel is arranged in heat insulation cylinder, heat insulation cylinder is transferred heat to during combustion barrel burning, after heat insulation cylinder absorbs heat, heat continues transmission, due to, there is between heat insulation cylinder and urceolus toroidal cavity, the transmission efficiency of heat is low, heat is not easily delivered to urceolus from heat insulation cylinder, and then the temperature of urceolus not easily raises, in use, situation about scalding not easily occurs；Meanwhile, when the carrying or position that carry out camp stove are moved, it is simple to directly contact urceolus is operated.The bottom of heat insulation cylinder is provided with blower fan, and blower fan is for blowing to air in combustion barrel, and then the combustion rate of the fuel in raising combustion barrel, produces more heat, it is simple to the heating of food.Meanwhile, at the deflector that is arranged above of blower fan, during blower fan work, air blows to deflector, and air flows up along the edge of deflector, and air is more prone to enter from the sidewall of combustion barrel, improve the combustion rate of fuel, it is thus achieved that more heat, it is simple to the heating of food；During fuel combustion in combustion barrel, the heat diversed plate of major part of generation absorbs so that blower fan is not easily susceptible to substantial amounts of heat radiation, the long service life of blower fan.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme of this utility model embodiment, the accompanying drawing used required in embodiment will be briefly described below, it is to be understood that, the following drawings illustrate only some embodiment of the present utility model, therefore the restriction to scope it is not construed as, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other relevant accompanying drawings according to these accompanying drawings.

The structure chart of the camp stove radiating subassembly that Fig. 1 provides for this utility model；

The heat insulation cylinder of the camp stove radiating subassembly that Fig. 2 provides for this utility model and the top view of deflector；

The axonometric drawing of the deflector of the camp stove radiating subassembly that Fig. 3 provides for this utility model；

The malformation figure of the heat insulation cylinder of the camp stove radiating subassembly that Fig. 4 provides for this utility model.

Accompanying drawing labelling collects:

Urceolus 100, heat insulation cylinder 200, blower fan 300, deflector 400, installing plate 500, support 600,

Passage 101, connecting portion 102, locating dowel 103, the first passage 104, the second passage 105, mounting groove 106, limiting section 107,

First straight plate part 301, the second straight plate part 302.

Detailed description of the invention

Existing camp stove is generally made up of duration and degree of heating cover, urceolus and combustion barrel.Duration and degree of heating cover covers on the top of urceolus, for supporting heated container, combustion barrel is positioned at outer barrel, air blanketing is formed between combustion barrel and urceolus, combustion barrel is the place of fuel combustion, extraneous air is passed in air blanketing naturally by the fresh air inlet on urceolus, finally enters in combustion barrel, for fuel oxygen supply.When existing camp stove uses, the temperature ramp-up rate of urceolus is fast, and temperature is high, situation about scalding easily occurs, is not easy to the movement of camp stove and the adjustment of position.

Given this, designer of the present utility model devises a kind of camp stove radiating subassembly, this heat radiation assembly structure advantages of simple, convenient processing and manufacture, during use, the temperature produced in combustion barrel is not easily delivered to urceolus in heat insulation cylinder, and then ensure that the temperature of urceolus will not be too high, in use procedure, it is possible to directly operation urceolus carries out the movement of camp stove, easy to operate；Meanwhile, blower fan is not easily susceptible to substantial amounts of heat radiation, long service life.

For making the purpose of this utility model embodiment, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in this utility model embodiment, technical scheme in this utility model embodiment is clearly and completely described, obviously, described embodiment is a part of embodiment of this utility model, rather than whole embodiments.Generally can with various different configurations arrange and design with the assembly of this utility model embodiment that illustrate described in accompanying drawing herein.Therefore, below the detailed description of the embodiment of the present utility model provided in the accompanying drawings is not intended to limit claimed scope of the present utility model, but is merely representative of selected embodiment of the present utility model.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of this utility model protection.

It should also be noted that similar label and letter below figure represent similar terms, therefore, once a certain Xiang Yi accompanying drawing is defined, then it need not be carried out definition further and explain in accompanying drawing subsequently.

Additionally, term " first ", " second " are only for descriptive purposes, and it is not intended that indicate or imply relative importance or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or implicitly include one or more these features.In description of the present utility model, " multiple " are meant that two or more, unless otherwise expressly limited specifically.

In this utility model, unless otherwise clearly defined and limited, the term such as term " installation ", " being connected ", " connection ", " fixing " should be interpreted broadly, for instance, it is possible to it is fixing connection, it is also possible to be removably connect, or integral；Can be mechanically connected, it is also possible to be electrical connection；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, it is possible to be connection or the interaction relationship of two elements of two element internals.For the ordinary skill in the art, it is possible to understand above-mentioned term concrete meaning in this utility model as the case may be.

Refer to Fig. 1-4, present embodiments provide a kind of camp stove radiating subassembly, including urceolus 100, heat insulation cylinder 200 and blower fan 300, in camp stove use procedure, produce substantial amounts of heat, in order to ensure the safety of equipment, urceolus 100, heat insulation cylinder 200 all adopt heat resisting material to make, and urceolus 100 preferably employs panel beating and makes, the good mechanical property of panel beating, its structural strength is high, light weight, low cost of manufacture.For the ease of processing, urceolus 100, heat insulation cylinder 200 are both designed as the cylinder of hollow, and the bottom of urceolus 100 is provided with end cap, and end cap and urceolus 100 removably connect, and heat insulation cylinder 200 is by end cap and the detachable downlink connection of urceolus 100.

Actual add man-hour, described heat insulation cylinder 200 is positioned at described urceolus 100, described heat insulation cylinder 200 is removably connected to described urceolus 100, toroidal cavity is formed between lateral wall and the medial wall of described urceolus 100 of described heat insulation cylinder 200, between medial wall and the lateral wall of heat insulation cylinder 200 of urceolus 100, there is space, the transmission of heat is obstructed, and the temperature of urceolus 100 not easily raises, and not easily occurs situation about scalding during operation；Described blower fan 300 is positioned at described heat insulation cylinder 200, described blower fan 300 is installed on the bottom of described heat insulation cylinder 200, the air outlet of described blower fan 300 is towards the top of described heat insulation cylinder 200, described blower fan 300 be provided above deflector 400, described deflector 400 is installed in described heat insulation cylinder 200, has the passage 101 for air circulation between sidewall and the medial wall of described heat insulation cylinder 200 of described deflector 400.

Present embodiments provide a kind of camp stove radiating subassembly, this heat radiation assembly structure advantages of simple, convenient processing and manufacture, low cost of manufacture, meanwhile, the heat produced in camp stove use procedure can be separated by this radiating subassembly effectively so that the temperature of urceolus 100 not easily raises, situation about scalding not easily occurs when touching urceolus 100, uses more safe and reliable.Specific as follows:

The camp stove radiating subassembly that this embodiment provides, including urceolus 100, heat insulation cylinder 200 and blower fan 300, heat insulation cylinder 200 is arranged in urceolus 100, between lateral wall and the medial wall of urceolus 100 of heat insulation cylinder 200, there is space, namely define toroidal cavity between heat insulation cylinder 200 and urceolus 100, when heat insulation cylinder 200 and urceolus 100 are installed, heat insulation cylinder 200 is connected with the bottom of urceolus 100, can adopting the mode of welding, attachment structure is solid and reliable, is hardly damaged；During actual installation, combustion barrel is arranged in heat insulation cylinder 200, transferring heat to heat insulation cylinder 200 during combustion barrel burning, after heat insulation cylinder 200 absorbs heat, heat continues transmission, owing to there is toroidal cavity between heat insulation cylinder 200 and urceolus 100, the transmission efficiency of heat is low, and heat is not easily delivered to urceolus 100 from heat insulation cylinder 200, and then the temperature of urceolus 100 not easily raises, in use, situation about scalding not easily occurs；Meanwhile, when the carrying or position that carry out camp stove are moved, it is simple to directly contact urceolus 100 is operated.

Be provided with blower fan 300 in the bottom of heat insulation cylinder 200, blower fan 300 is for blowing to air in combustion barrel, and then the combustion rate of the fuel in raising combustion barrel, produces more heat, it is simple to the heating of food.Simultaneously, it is arranged above deflector 400 at blower fan 300, when blower fan 300 works, air is blowed to deflector 400, air flows up along the edge of deflector 400, and air is more prone to enter from the sidewall of combustion barrel, improves the combustion rate of fuel, obtain more heat, it is simple to the heating of food；During fuel combustion in combustion barrel, the heat diversed plate 400 of major part of generation absorbs so that blower fan 300 is not easily susceptible to substantial amounts of heat radiation, the long service life of blower fan 300.

Refer to Fig. 1, in the preferred version of this embodiment, the outline in the cross section of the axis being parallel to described urceolus 100 of described deflector 400 is triangle, the summit of described deflector 400 is towards the air outlet of described blower fan 300, the end away from this summit of described deflector 400 is connected with described heat insulation cylinder 200, namely described deflector 400 is the housing of taper, deflector 400 has a summit, the one end at the top towards heat insulation cylinder 200 of deflector 400 is uncovered shape, deflector 400 is that one end of uncovered shape matches with the inwall of heat insulation cylinder 200, it is easy to be arranged on by deflector 400 sidewall of heat insulation cylinder 200 by this end.Blower fan 300 by wind to deflector 400 time, owing to deflector 400 is tapered, the plate mask towards blower fan 300 of deflector 400 has guide effect, the flowing velocity of air can be increased, air through accelerating guides the uncovered one end to deflector 400 by the sidewall of deflector 400, owing to having passage 101 between deflector 400 and described heat insulation cylinder 200, air flows along deflector 400, and continue up, by this passage 101, the top flowing to heat insulation cylinder 200, the air accelerated facilitates access in combustion barrel, add the air capacity in combustion barrel, it is easy to the burning of fuel, the heat produced is more, it is easy to heating.

Refer to Fig. 3, in the preferred version of this embodiment, one end away from described summit of described deflector 400 has multiple connecting portion 102, the plurality of connecting portion 102 is uniformly arranged along the circumference of described deflector 400, described passage 101 is formed between two adjacent described connecting portions 102, the simple in construction of connecting portion 102, by arranging connecting portion 102, it is easy to be arranged in heat insulation cylinder 200 by deflector 400, simultaneously, the passage 101 for air circulation is defined between connecting portion 102, during air flowing, inwall along heat insulation cylinder 200 flows, the resistance being subject to is little, the air capacity at the top flowing to heat insulation cylinder 200 is big, it is easy to provide oxygen to fuel.

nullIn the preferred version of this embodiment，Described connecting portion 102 is L-shaped，Described connecting portion 102 includes the first straight plate part 301 second straight plate part 302 and connects described first straight plate part 301 and the kink of described second straight plate part 302，Described first straight plate part 301 is perpendicular with described second straight plate part 302，Described first straight plate part 301 is along the lateral wall of the outwardly described deflector 400 of radial direction of described heat insulation cylinder 200，Described deflector 400 is connected by described second straight plate part 302 with described heat insulation cylinder 200，The simple in construction of connecting plate，During installation，It is connected with heat insulation cylinder 200 by the second straight plate part 302，Second straight plate part 302 is big with the contact area of heat insulation cylinder 200，During connection tightr，Deflector 400 not easily comes off from heat insulation cylinder 200.Further, in order to improve the attachment structure intensity of deflector 400 and heat insulation cylinder 200, described connecting portion 102 is provided with four, deflector 400 is many with the link position of heat insulation cylinder 200, adds the intensity of entirety, actual adds man-hour, can adopt the connected mode of welding, easy to process reliably.Being preferably arranged to, described first straight plate part 301 is perpendicular to described second straight plate part 302, and the plate face of the second straight plate part 302 can be fitted on the medial wall of heat insulation cylinder 200, it is simple to install.

Refer to Fig. 4, in the preferred version of above-mentioned embodiment, the sidewall of heat insulation cylinder 200 is provided with multiple mounting groove 106, the groove depth direction of each described mounting groove 106 is along described heat insulation cylinder 200 radially-inwardly, the length direction of described mounting groove 106 is parallel to the direction of axis line of described heat insulation cylinder 200, the position one_to_one corresponding of multiple mounting grooves 106 and connecting portion 102, connecting portion 102 is positioned at mounting groove 106.Further, the bottom land of described mounting groove 106 is provided with multiple limiting section 107, limiting section 107 is along the bottom land of the inwardly projecting described mounting groove 106 of radial direction of heat insulation cylinder 200, limiting section 107 is for limiting the deflector 400 basal sliding towards heat insulation cylinder 200, ensure that deflector 400 is not easily shifted after installing, meanwhile, the height of on-demand adjustment deflector 400, amount of flow and the flowing velocity of air can be controlled, use convenient.

In the preferred version of this embodiment, described urceolus 100 is provided with multiple first passage 104, the plurality of first passage 104 is positioned at the top of described urceolus 100, and each described first passage 104 is along the sidewall radially outward running through described urceolus 100 of described urceolus 100；Being provided with multiple second passage 105 on described heat insulation cylinder 200, the plurality of second passage 105 is positioned at the top of described heat insulation cylinder 200, and each described second passage 105 is along the sidewall radially outward running through described heat insulation cylinder 200 of described heat insulation cylinder 200.Gas can enter in combustion barrel from the first passage 104 and the second passage 105, provides oxygen to the burning of fuel, and meanwhile, urceolus 100 and heat insulation cylinder 200 form double-decker, and the flame produced during fuel combustion is concentrated more, it is simple to heating.

In the preferred version of this embodiment, described camp stove radiating subassembly also includes installing plate 500, and described installing plate 500 is positioned at the top of described deflector 400, and described installing plate 500 is connected with described deflector 400, it is simple to be arranged on by combustion barrel on installing plate 500.

In the preferred version of this embodiment, the plate face of described installing plate 500 is provided with locating dowel 103, described locating dowel 103 is along the described installing plate 500 of the upwardly directed protrusion in plate face being perpendicular to described installing plate 500, after combustion barrel is installed on installing plate 500, combustion barrel matches with locating dowel 103, limiting the movement of the horizontal direction of combustion barrel, combustion barrel not easily collides with heat insulation cylinder 200, uses safety.

In the preferred version of this embodiment, described locating dowel 103 is provided with multiple, and multiple described locating dowels 103 are evenly distributed on described installing plate 500, and the locating effect of combustion barrel is better, and combustion barrel is more solid and reliable with the attachment structure of heat insulation cylinder 200.

In the preferred version of this embodiment, described camp stove radiating subassembly also includes support 600, described support 600 is installed on the bottom of described heat insulation cylinder 200, described blower fan 300 is installed on described support 600, it is easy to the installation of blower fan 300, after blower fan 300 is installed on support 600, again support 600 is installed in heat insulation cylinder 200, simultaneously, also allow for the maintenance of blower fan 300, whole support 600 is taken out in heat insulation cylinder 200, and then blower fan 300 is together taken out, carry out after being dismantled from support 600 by blower fan 300 keeping in repair or maintaining, convenient to operation.

The foregoing is only preferred embodiment of the present utility model, be not limited to this utility model, for a person skilled in the art, this utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment of making, equivalent replacement, improvement etc., should be included within protection domain of the present utility model.

Claims (10)

1. a camp stove radiating subassembly, it is characterised in that include urceolus, heat insulation cylinder and blower fan, wherein:

Described heat insulation cylinder is positioned at described urceolus, described heat insulation cylinder is removably connected to described urceolus, toroidal cavity is formed between lateral wall and the medial wall of described urceolus of described heat insulation cylinder, described blower fan is positioned at described heat insulation cylinder, described assembling is in the bottom of described heat insulation cylinder, the air outlet of described blower fan is towards the top of described heat insulation cylinder, described blower fan be provided above deflector, described deflector is installed in described heat insulation cylinder, has the passage for air circulation between sidewall and the medial wall of described heat insulation cylinder of described deflector.

2. camp stove radiating subassembly according to claim 1, it is characterized in that, the outline in the cross section of the axis being parallel to described urceolus of described deflector is triangle, the summit of described deflector is towards the air outlet of described blower fan, and the end away from this summit of described deflector is connected with described heat insulation cylinder.

3. camp stove radiating subassembly according to claim 2, it is characterized in that, one end away from described summit of described deflector has multiple connecting portion, and the plurality of connecting portion, along the circumference uniformly arrangement of described deflector, forms described passage between two adjacent described connecting portions.

4. camp stove radiating subassembly according to claim 3, it is characterized in that, described connecting portion is L-shaped, described connecting portion includes first straight plate part the second straight plate part and connects described first straight plate part and the kink of described second straight plate part, described first straight plate part is perpendicular with described second straight plate part, described first straight plate part is along the lateral wall of the outwardly described deflector of radial direction of described heat insulation cylinder, and described deflector is connected by described second straight plate part with described heat insulation cylinder.

5. camp stove radiating subassembly according to claim 4, it is characterised in that described first straight plate part is perpendicular to described second straight plate part.

6. the camp stove radiating subassembly according to any one of claim 1-5, it is characterised in that described camp stove radiating subassembly also includes installing plate, described installing plate is positioned at the top of described deflector, and described installing plate is connected with described deflector.

7. camp stove radiating subassembly according to claim 6, it is characterised in that be provided with locating dowel on the plate face of described installing plate, described locating dowel edge is perpendicular to the plate face described installing plate of upwardly directed protrusion of described installing plate.

8. camp stove radiating subassembly according to claim 7, it is characterised in that described locating dowel is provided with multiple, multiple described locating dowels are evenly distributed on described installing plate.

9. camp stove radiating subassembly according to claim 6, it is characterised in that described camp stove radiating subassembly also includes support, described support is installed on the bottom of described heat insulation cylinder, and described assembling is in described support.

10. camp stove radiating subassembly according to claim 1, it is characterized in that, being provided with multiple first passage on described urceolus, the plurality of first passage is positioned at the top of described urceolus, and each described first passage is along the sidewall radially outward running through described urceolus of described urceolus；Being provided with multiple second passage on described heat insulation cylinder, the plurality of second passage is positioned at the top of described heat insulation cylinder, and each described second passage is along the sidewall radially outward running through described heat insulation cylinder of described heat insulation cylinder.