CN111055740B - Handrail structure integrating cup stand and handrail heating and refrigerating - Google Patents

Abstract

The invention discloses an integrated cup stand and armrest heating and refrigerating armrest structure, which relates to the technical field of automobiles and comprises: the handrail is foamed, and a first containing groove and a second containing groove are arranged in the handrail. The air guide layer is arranged in the first accommodating groove. The cup stand base is arranged in the second accommodating groove and comprises a heat dissipation layer cup stand layer, at least one cup stand is accommodated in the cup stand layer, a heat dissipation grid is arranged in the heat dissipation layer, and a semiconductor chip is arranged between the cup stand and the heat dissipation grid. A first flow guide channel is arranged in the heat dissipation layer, and the cup support layer is communicated with the air guide layer to form a second flow guide channel. The cup holder cover rail comprises a main body part provided with a third accommodating groove and a sliding rail, and a cup holder cover is arranged on the sliding rail in a sliding mode. The first fan is arranged in the cup stand base. The second fan is arranged in the cup stand cover track. And the control module is fixed in the third containing groove and used for controlling the temperature of the semiconductor chip and controlling the opening and closing of the first fan and the second fan. The handrail structure of the cup holder disclosed by the invention integrates the functions of heating and refrigerating the cup holder and the handrail.

Description

Handrail structure integrating cup stand and handrail heating and refrigerating

Technical Field

The invention relates to the technical field of automobiles, in particular to an armrest structure integrating cup holders and armrest heating and refrigerating.

Background

With the development of the automobile industry, the automobile popularity is higher and higher, the convenience of the automobile is concerned by the market, and various new function configurations are generated at the same time.

When passengers take the vehicle, the weather is hot, and the passengers want to drink cold water; in cold weather, it is desirable to drink hot water. The cup stand capable of meeting the requirement of heating and refrigerating the water cup of the passenger is gradually applied to the vehicle type as a new configuration adapting to the market requirement.

In the prior art, a semiconductor chip is usually arranged at the bottom end of a cup holder of an armrest box, and the semiconductor chip can realize rapid heating or refrigeration after being electrified so as to rapidly heat or cool a cup or beverage in the cup holder.

However, the armrest, which is the area of direct contact with the skin of the occupant, requires more heating and cooling than other areas of the vehicle seat. The conventional handrail mainly heats the cup, cannot heat the handrail, has a single function and cannot meet the requirement.

In addition, because the heating and refrigerating modules need air circulation to realize functions, the requirement on arrangement space is high, the size of the handrail is limited, a plurality of sets of heating and refrigerating modules are difficult to arrange, and the arrangement cost of the plurality of sets of heating and refrigerating modules is high.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the handrail structure integrating the cup stand and the handrail for heating and refrigerating, which can heat the cup stand and the handrail.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

an integrated cup holder and armrest heating and cooling armrest structure, comprising:

the handrail foaming, there are first accepting grooves and second accepting grooves stepped in it;

the air guide layer is provided with a through hole and is arranged in the first accommodating groove;

the cup stand base is arranged in the second accommodating groove and comprises a temperature dissipation layer and a cup stand layer formed on the temperature dissipation layer, at least one cup stand is accommodated in the cup stand layer, a temperature dissipation grid is arranged in the temperature dissipation layer, and a semiconductor chip is arranged between the cup stand and the temperature dissipation grid; a first flow guide channel is arranged in the heat dissipation layer, and the cup support layer is communicated with the air guide layer to form a second flow guide channel;

the cup stand cover rail comprises a main body part clamped on the cup stand base, a third accommodating groove is formed in the main body part, a sliding rail is further arranged on the main body part, and a cup stand cover is arranged on the sliding rail in a sliding mode;

the first fan is arranged in the cup stand base and close to the first flow guide channel;

a second fan disposed within the cup holder cover track and proximate the second flow guide channel;

and the control module is fixed in the third containing groove and used for controlling the temperature of the semiconductor chip and receiving the states of the cup holder and the cup holder cover so as to control the opening and closing of the first fan and the second fan.

On the basis of the technical scheme, a sensor is further arranged in the cup stand cover track and used for detecting whether the cup stand is used or not and whether the cup stand cover is opened or not, and a detection signal is sent to the control module.

On the basis of the technical proposal, the device comprises a shell,

the control module is configured to: the control module can simultaneously turn on the first fan and the second fan only when the sensor detects that at least one cup stand is not used and the cup stand cover corresponding to the cup stand is closed.

On the basis of the technical scheme, one side of the heat dissipation layer is provided with a first air inlet and a first air outlet, and an area enclosed by the heat dissipation grating and the heat dissipation layer, the first air inlet and the first air outlet form the first flow guide channel.

On the basis of the technical scheme, a second air outlet is formed in the cup support layer and communicated with the air guide layer through an air guide pipe to form a second flow guide channel.

On the basis of the technical scheme, an air outlet cover plate is further arranged between the second air outlet and the air guide pipe.

On the basis of the technical scheme, the handrail structure further comprises a handrail shell, the handrail shell comprises a side plate and a cover plate which are connected with each other and clamped on the cup stand cover rail, a grid aligned with the first fan, the second fan and the first air outlet is arranged on the side plate, an opening aligned with the control module and a guide groove aligned with the cup stand are arranged on the cover plate.

On the basis of the technical scheme, the handrail structure still includes handrail skeleton, handrail skeleton includes pivot and support body, the pivot is worn to establish on the handrail foaming, just the both ends of pivot are all stretched out the handrail foaming, the support body is fixed in the pivot is gone up and is inlayed and establish in the handrail foaming, just the one end of support body still blocks and establishes between guide way and the saucer layer.

On the basis of the technical scheme, the handrail structure further comprises a surface sleeve sleeved on the handrail foaming.

On the basis of the technical scheme, two cup holders are accommodated in the cup holder layer, a semiconductor chip is arranged between each cup holder and the heat dissipation grid, the cup holder cover track comprises two slide rails corresponding to the cup holders, and each slide rail is provided with a cup holder cover in a sliding manner.

Compared with the prior art, the invention has the advantages that:

the invention relates to an armrest structure integrating cup stand and armrest heating and cooling, which comprises a control module, a first fan and a second fan, wherein a first flow guide channel and a second flow guide channel are arranged, and cold and hot air generated by cup stand cooling or heating flows in the first flow guide channel and the second flow guide channel to realize heat dissipation and armrest heating or cooling during cup stand heating.

Drawings

FIG. 1 is a schematic structural view of an armrest structure according to an embodiment of the present invention;

FIG. 2 is an exploded view of a handrail construction in accordance with an embodiment of the present invention;

FIG. 3 is a front view of an armrest construction in accordance with an embodiment of the present invention;

FIG. 4 is a top view of an armrest structure in accordance with an embodiment of the present invention;

FIG. 5 is a right side view of an armrest construction in accordance with an embodiment of the present invention;

FIG. 6 is a cross-sectional view A-A of FIG. 3;

FIG. 7 is a cross-sectional view B-B of FIG. 4;

fig. 8 is a cross-sectional view C-C of fig. 4.

In the figure: 1-a handrail foaming, 11-a first accommodating groove, 12-a second accommodating groove, 2-an air guide layer, 3-a cup holder base, 31-a temperature dissipation layer, 32-a cup holder layer, 33-a temperature dissipation grid, 34-a semiconductor chip, 35-a first air inlet, 36-a first air outlet, 37-an air guide pipe, 38-an air inlet cover plate, 4-a cup holder, 41-a cup holder cover, 5-a cup holder cover rail, 51-a main body part, 52-a third accommodating groove, 53-a slide rail, 54-a sensor, 6-a first fan, 7-a second fan, 8-a control module, 9-a handrail shell, 91-a side plate, 92-a cover plate, 93-a grid, 94-an opening, 95-a guide groove and 100-a handrail framework, 101-rotating shaft, 102-frame body and 200-surface sleeve.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Example one

Referring to fig. 1 to 5, an embodiment of the present invention provides an armrest structure integrating a cup holder and an armrest for heating and cooling, which includes an armrest foam 1, a wind guide layer 2, a cup holder base 3, a cup holder 4, a cup holder cover rail 5, a first fan 6, a second fan 7, and a control module 8.

The handrail foam 1 is provided with a first receiving groove 11 and a second receiving groove 12 which are stepped.

And an air guide layer 2 provided with a through hole and arranged in the first accommodating groove 11.

The cup stand base 3 is arranged in the second accommodating groove 12, the cup stand base 3 comprises a heat dissipation layer 31 and a cup stand layer 32 formed on the heat dissipation layer 31, at least one cup stand 4 is accommodated in the cup stand layer 32, a heat dissipation grid 33 is arranged in the heat dissipation layer 31, and a semiconductor chip 34 is arranged between the cup stand 4 and the heat dissipation grid 33; the heat dissipation layer 31 is provided with a first flow guide channel, and the cup holder layer 32 is communicated with the air guide layer 2 to form a second flow guide channel.

The cup holder cover rail 5 comprises a main body part 51 clamped on the cup holder base 3, a third accommodating groove 52 is arranged on the main body part, a sliding rail 53 is further arranged on the main body part 51, and a cup holder cover 41 is arranged on the sliding rail 53 in a sliding mode.

And the first fan 6 is arranged in the cup stand base 3 and close to the first flow guide channel.

A second fan 7 disposed in the cup holder cover rail 5 and adjacent to the second guide passage;

and a control module 8 fixed in the third receiving cavity 52, wherein the control module 8 is used for controlling the temperature of the semiconductor chip 34 and controlling the opening and closing of the first fan 6 and the second fan 7 by receiving the state of the cup holder 4 and the cup holder cover 41.

When the integrated cup holder and handrail heating and refrigerating handrail structure is used and the cup holder 4 needs to be used for heating, the cup holder cover 41 arranged on the sliding rail 53 in a sliding mode is opened, a water cup is placed in the cup holder 4, the control module 8 controls the semiconductor chip 34 to heat the cup holder 4, due to the fact that one side of the semiconductor chip 34 based on the Peltier principle generates heat, the temperature of the other side of the semiconductor chip is reduced, the temperature of air near the heat dissipation grid 33 in the heat dissipation layer 31 is reduced, see a flow guide arrow in fig. 7, and the first fan 6 is opened to blow cold air in the heat dissipation layer 31 into the handrail through the first flow guide channel. Referring to the flow guiding arrows in fig. 6, air is blown to the heat dissipation grid 33 through the channel in the cup holder base 3, and low-temperature air generated by the heat dissipation grid 33 is taken away; the low temperature air continues to travel through the channel in the cup holder base 3 until it returns to the front end of the armrest.

When the cup stand 4 needs to be used for refrigeration, the cup stand cover 41 arranged on the sliding rail 53 in a sliding mode is opened, a water cup is placed in the cup stand 4, the control module 8 controls the semiconductor chip 34 to refrigerate the cup stand 4, the temperature of one side of the semiconductor chip 34 is increased due to the Peltier principle, the temperature of the other side of the semiconductor chip 34 is increased, the temperature of air near the heat dissipation grid 33 in the heat dissipation layer 31 is increased, and the first fan 6 is driven to open the first flow guide channel to blow hot air in the heat dissipation layer 31 out of the armrest structure. Referring to the flow guiding arrows in fig. 6, air is blown to the heat dissipation grid 33 through the channel in the cup holder base 3, and takes away hot and warm air generated by the heat dissipation grid 33; the low temperature air continues to travel through the channel in the cup holder base 3 until it returns to the front end of the armrest.

When the handrail is required to be used for heating, the side, in contact with the cup stand 4, of the semiconductor chip 34 starts to heat, the temperature of the cup stand 4 rises, and the air temperature of the cup stand 4 accessory rises; due to the peltier principle, the temperature of the other side of the semiconductor chip 34 decreases, and the temperature of the heat dissipation grid 33 in contact with this side decreases, further causing the temperature of the air near the heat dissipation grid 33 to decrease; at the same time the first fan 6 starts to rotate, blowing air outside the handrail construction into the handrail construction. The air is blown to the heat dissipation grating 33 through the first flow guide channel to take away the low-temperature air in the heat dissipation grating 33; the low temperature air continues to travel through the channel in the cup holder base 3 until it returns to the front of the armrest structure and is exhausted through the cup holder base 3. Referring to the flow guiding arrows in fig. 8, at the same time, the second fan 7 starts to rotate, air outside the handrail is blown into the handrail through the second flow guiding channel, the air flows through the cup holder 4, takes hot air near the cup holder 4 away, flows into the air guiding layer 2, and finally is guided out of the handrail mechanism, and the temperature of the handrail is raised.

When the handrail is needed to be used for cooling, the heating principle is the same as the heating principle.

In this embodiment, the refrigerated handrail structure of integrated saucer and handrail heating is with saucer heating and refrigeration and handrail heating and refrigeration function integration, need not arrange many sets of heating refrigeration modules, through adjusting inner structure and runner, can share one set of heating refrigeration module, and its simple structure, the size is less, can be applicable to the seat of most motorcycle types, and does not influence other functions.

Preferably, a sensor 54 is further disposed in the cup holder cover rail 5, and the sensor 54 is used for detecting whether the cup holder 4 is used and whether the cup holder cover 41 is opened, and sending a detection signal to the control module 8. In the present embodiment, the sensor 54 detects whether the cup holder 4 is used and whether the cup holder cover 41 is opened, and sends a determination signal to the control module 8. The control module 8 displays that the heating and refrigerating functions are available, and the temperature is adjusted through the touch screen on the control module 8 at the moment, so that the heating and refrigerating functions are realized.

Example two

On the basis of implementing one, the control module 8 is preferably configured to: the control module 8 may turn on the first fan 6 and the second fan 7 simultaneously only when the sensor 54 detects that at least one of the cup holders 4 is not in use and the corresponding cup holder cover 41 of that cup holder 4 is closed.

In the present embodiment, two cup holders 4 are provided, and when it is necessary to use the armrest for heating or cooling, at least one of the two cup holders 4 needs to be in a non-use state, and the cup holder cover 41 needs to be in a closed state. When 2 saucer all are in service behavior, saucer lid open and close detection sensor 54 gives control module 8 with information transmission, and control module indicates on the touch screen that the saucer is all in service behavior, can't use the handrail heating refrigeration. When the starting condition of the heating and cooling functions of the handrails is met, the passengers can select heating or cooling of the handrails through the touch screen.

EXAMPLE III

Referring to fig. 2, on the basis of the first embodiment, preferably, a first air inlet 35 and a first air outlet 36 are arranged on one side of the heat dissipation layer 31, and a first flow guide channel is formed by an area enclosed by the heat dissipation grid 33 and the heat dissipation layer 31, the first air inlet 35 and the first air outlet 36. In this embodiment, the area enclosed by the heat dissipation grid 33 and the heat dissipation layer 31, the first air inlet 35 and the first air outlet 36 form a first flow guiding channel, and the first fan 6 can be matched to blow hot air or cold air in the heat dissipation layer 31 out of the armrest structure, so as to accelerate heating and cooling of the cup holder 4.

Preferably, a second air outlet is arranged on the cup holder layer 32, and the second air outlet is communicated with the air guide layer 2 through an air guide pipe 37 to form a second flow guide channel. In an embodiment, the air guide pipe 37 is communicated with the air guide layer 2 to form a second air guide channel, and can be matched with the second fan 7 to blow hot air outside the cup holder 4 into the air guide layer 2, and finally lead out the handrail mechanism, so that refrigeration of the cup holder 4 can be accelerated, and the temperature of the water cup can be reduced.

Example four

Preferably, as shown in fig. 2, an air outlet cover 38 is further disposed between the second air outlet and the air guiding duct 37. In this embodiment, the air outlet cover plate 38 connects the second air outlet with the air guide pipe 37, so as to better realize the flow guide of the second flow guide channel, blow the hot air outside the cup holder 4 into the air guide layer 2, and finally guide out the handrail mechanism, so as to speed up the cooling of the cup in the cup holder 4.

Preferably, the armrest structure further includes an armrest housing 9, the armrest housing 9 includes a side plate 91 and a cover plate 92 connected to each other and fastened to the cup holder cover rail 5, the side plate 91 is provided with a grille 93 aligned with the first fan 6, the second fan 7 and the first air outlet 36, the cover plate 92 is provided with an opening 94 aligned with the control module 8, and a guiding slot 95 aligned with the cup holder 4. In this embodiment, the armrest housing 9 is clamped on the cup holder cover rail 5, and a grille 93 corresponding to the first fan 6, the second fan 7 and the first air outlet 36 is provided, so that the internal structure of the entire armrest structure, especially the first fan 6 and the second fan 7, can be protected, and the grille 93 is provided so as not to affect the convection of the first fan 6, the second fan 7 and the first air outlet 36 with the outside of the armrest structure.

EXAMPLE five

Preferably, referring to fig. 2, the handrail structure further includes a handrail framework 100, the handrail framework 100 includes a rotating shaft 101 and a frame body 102, the rotating shaft 101 is disposed on the handrail foam 1 in a penetrating manner, two ends of the rotating shaft 101 both extend out of the handrail foam 1, the frame body 102 is fixed on the rotating shaft 101 and embedded in the handrail foam 1, and one end of the frame body 102 is further clamped between the guiding groove 95 and the cup holder layer 32.

In this embodiment, the rotating shaft 101 is inserted into the handrail foam 1, the frame body 102 is fixed to the rotating shaft 101 and embedded into the handrail foam 1, one end of the frame body 102 is further clamped between the guiding groove 95 and the cup holder layer 32, so that the whole handrail structure can be folded and accommodated into the rear seat, and the frame body 102 is arranged in the handrail foam 1 to reinforce the handrail foam 1, so that the structure is stronger.

Preferably, the handrail structure further comprises a surface cover 200 sleeved on the handrail foam 1. In this embodiment, the surface sleeve 200 is sleeved on the handrail foaming 1 to reinforce the handrail foaming 1, and the surface sleeve 200 is provided with the vent holes corresponding to the through holes of the air guide layer 2, so that the hot air guided to the air guide layer 2 through the second guide channel can be conveniently discharged out of the handrail structure.

Preferably, two cup holders 4 are accommodated in the cup holder layer 32, a semiconductor chip 34 is disposed between each cup holder 4 and the heat dissipation grid 33, the cup holder cover rail 5 includes two slide rails 53 corresponding to the cup holders 4, and a cup holder cover 41 is slidably disposed on each slide rail 53. In this embodiment, the cup placed in the cup holders 4 can be cooled by arranging the two cup holders 4. The cup holder cover 41 can isolate the space in the cup holder 4 from the outside, and can better cool and heat.

The present invention is not limited to the above-described embodiments, and it will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the principle of the present invention, and such modifications and improvements are also considered to be within the scope of the present invention. Those not described in detail in this specification are within the skill of the art.

Claims (8)

1. The utility model provides an integrated saucer and cryogenic handrail structure of handrail heating which characterized in that includes:

the handrail foaming machine comprises a handrail foaming body (1), wherein a first containing groove (11) and a second containing groove (12) which are step-shaped are arranged in the handrail foaming body;

the air guide layer (2) is provided with a through hole and is arranged in the first accommodating groove (11);

the cup stand base (3) is arranged in the second accommodating groove (12), the cup stand base (3) comprises a heat dissipation layer (31) and a cup stand layer (32) formed on the heat dissipation layer (31), at least one cup stand (4) is accommodated in the cup stand layer (32), a heat dissipation grid (33) is arranged in the heat dissipation layer (31), and a semiconductor chip (34) is arranged between the cup stand (4) and the heat dissipation grid (33); a first flow guide channel is arranged in the heat dissipation layer (31), and the cup support layer (32) is communicated with the air guide layer (2) to form a second flow guide channel;

the cup stand cover rail (5) comprises a main body part (51) clamped on the cup stand base (3), a third accommodating groove (52) is formed in the main body part, a sliding rail (53) is further arranged on the main body part (51), and a cup stand cover (41) is arranged on the sliding rail (53) in a sliding mode;

a first fan (6) disposed within the cup holder base (3) and proximate to the first flow guide channel;

a second fan (7) disposed within the cup holder lid track (5) and proximate to the second flow guide channel;

a control module (8) fixed in the third containing groove (52), wherein the control module (8) is used for controlling the temperature of the semiconductor chip (34) and receiving the states of the cup holder (4) and the cup holder cover (41) so as to control the opening and closing of the first fan (6) and the second fan (7);

a sensor (54) is further arranged in the cup holder cover rail (5), and the sensor (54) is used for detecting whether the cup holder (4) is used and whether the cup holder cover (41) is opened and sending a detection signal to the control module (8);

the control module (8) is configured to: the control module (8) can simultaneously turn on the first fan (6) and the second fan (7) only when the sensor (54) detects that at least one cup holder (4) is not used and the corresponding cup holder cover (41) of the cup holder (4) is closed.

2. The handrail structure of claim 1, wherein the heating and cooling of the cup holder and the handrail are integrated, and the structure comprises: one side of the heat dissipation layer (31) is provided with a first air inlet (35) and a first air outlet (36), and an area enclosed by the heat dissipation grid (33) and the heat dissipation layer (31) forms a first flow guide channel with the first air inlet (35) and the first air outlet (36).

3. The handrail structure of claim 1, wherein the heating and cooling of the cup holder and the handrail are integrated, and the structure comprises: and a second air outlet is arranged on the cup support layer (32), and the second air outlet is communicated with the air guide layer (2) through an air guide pipe (37) to form a second flow guide channel.

4. The handrail structure of claim 3, wherein the heating and cooling of the cup holder and the handrail are integrated, and the structure comprises: an air outlet cover plate (38) is further arranged between the second air outlet and the air guide pipe (37).

5. The handrail structure of claim 2, wherein the heating and cooling of the cup holder and the handrail are integrated, and the structure comprises: the armrest structure still includes handrail casing (9), handrail casing (9) are including interconnect and joint curb plate (91) and apron (92) on saucer lid track (5), be equipped with on curb plate (91) with first fan (6), second fan (7) and first air outlet (36) align grid (93) that set up, be equipped with on apron (92) with control module (8) align opening (94) that set up, and with guide slot (95) that set up are aligned to saucer (4).

6. The handrail structure of claim 5, wherein the heating and cooling of the cup holder and the handrail are integrated, and the structure comprises: the handrail structure still includes handrail skeleton (100), handrail skeleton (100) are including pivot (101) and support body (102), pivot (101) are worn to establish on handrail foaming (1), just the both ends of pivot (101) are all stretched out handrail foaming (1), support body (102) are fixed pivot (101) are gone up and are inlayed and establish in handrail foaming (1), just the one end of support body (102) still the card is established between guide way (95) and the cup layer (32).

7. The handrail structure of claim 1, wherein the heating and cooling of the cup holder and the handrail are integrated, and the structure comprises: the handrail structure further comprises a surface sleeve (200) sleeved on the handrail foam (1).

8. The handrail structure of claim 1, wherein the heating and cooling of the cup holder and the handrail are integrated, and the structure comprises: two cup holders (4) are accommodated in the cup holder layer (32), a semiconductor chip (34) is arranged between each cup holder (4) and the heat dissipation grating (33), the cup holder cover rail (5) comprises two sliding rails (53) corresponding to the cup holders (4), and each sliding rail (53) is provided with a cup holder cover (41) in a sliding manner.

Images