CN210002496U - water tank with negative ion and warm air - Google Patents

Abstract

The utility model provides an basin that has anion, warm braw, include the cell body that has the washing plane, along the recessed at least washtubs of formation of washing plane's thickness direction, wherein, seted up the ventilation hole on the cell wall of washtub, and with ventilation hole matched with electric fan heater, and this electric fan heater is installed on the washing plane, control panel installs on the washing plane, wherein, the electric fan heater has control panel to be located the upper and lower both sides on washing plane, the utility model provides a basin that has anion, warm braw installs electric fan heater on the basin, blows in the washtub through the ventilation hole with the hot-blast that the electric fan heater produced to realize that the tableware directly carries out drying process in the washtub after wasing, and then shortened the drippage time of tableware, avoided breeding of bacterium on the tableware.

Description

water tank with negative ion and warm air

Technical Field

The utility model belongs to the technical field of kitchen guarding's machinery, a kinds of basins are related to, especially kinds of basins that have anion, warm braw.

Background

common water tanks on the market are only used for common cleaning, particularly when cleaning in winter, although water can be heated by heating equipment such as a water heater, after cleaning, tableware needs to be drained, common tableware is drained in two modes, is natural air drying, and is dried by a dryer, if is adopted, the air drying time is long, bacteria are easy to breed, and if the second mode is adopted, the cost is high.

In summary, it is necessary to design kinds of water tanks capable of quickly drying washed dishes and drying the washed dishes at a low cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problems in the prior art, providing dishware which can be quickly dried and cleaned and a water tank with the drying cost.

The utility model aims at achieving the purpose through the following technical scheme that water tanks with negative ions and warm air comprise a tank body with a washing plane, at least washing tanks are formed by sinking along the thickness direction of the washing plane, wherein, the tank wall of each washing tank is provided with a vent hole and a warm air blower matched with the vent hole, the warm air blower is arranged on the washing plane, and a control panel is arranged on the washing plane, wherein, the warm air blower is provided with the control panel which is positioned at the upper side and the lower side of the washing plane.

In the water tanks with negative ions and warm air, overflow structures are connected outside the washing tank, and the overflow structures and the internal space of the washing tank form an overflow channel, wherein the overflow channel is integrated with a hot air channel on the wall of the washing tank, and the end of the overflow structure is connected with a sewer pipe.

In the kinds of basins that have anion, warm braw, can dismantle at ventilation hole department and be connected with casings, and the lateral wall forms closed column structure setting with the diapire all around of casing, and the open end and the ventilation hole of casing are linked together, and wherein, wherein side inside wall of casing is upwards uplifted and is formed the boss, offers along the thickness direction of boss and has put a plurality of slots, as the hot-blast air outlet of electric fan heater.

In the sinks with negative ions and warm air, overflow holes are formed in the inner side wall of the shell body arranged on the same side as the boss, overflow connectors connected with the overflow pipes are connected outside the overflow holes, and the plane of the hot air outlet is higher than the plane of the overflow holes.

In the water tanks with negative ions and warm air, the side wall of the shell arranged at the same side as the boss extends downwards to form a second boss, concave cavities are arranged along the thickness direction of the second boss, and the concave cavities are communicated with the slotted holes to serve as the installation space of the warm air blower.

In the kinds of sinks with negative ions and warm air, the inner side wall of the housing on the side where the boss, the overflow hole and the second boss are located is inclined, wherein the plane of the end surface of the inner side wall close to the end of the vent is lower than the plane of the end surface of the inner side wall far away from the end of the vent .

In the kinds of basins with negative ions and warm air, the warm air blower includes a housing, which is divided into a th space and a second space, and the th space is communicated with the second space, wherein a plurality of groups of heating plates are installed in the th space, a fan is installed in the second space, and the heating plates and the fan are respectively electrically connected with the control panel.

In the water tanks with negative ions and warm air, a plurality of strip-shaped grooves are formed in the bottom of the second space along the axial direction of the fan, wherein each strip-shaped grooves are located between two adjacent groups of heating sheets and serve as communication channels between the th space and the second space.

And the installed fan heater is arranged in the water tanks with negative ions and warm air, wherein the space where the heating sheet is located is positioned at the upper part of the fan heater, and the second space where the fan is located is positioned at the lower part of the fan heater.

In the water tanks with negative ions and warm air, the water tank further comprises negative ion generators which are arranged on the shell of the warm air blower, wherein the end of the negative ion generator is electrically connected with the control panel, and the other end of the negative ion generator extends into the shell.

In the water tanks with negative ions and warm air, the negative ion circulation channel generated by the negative ion generator, the hot air circulation channel generated by the warm air blower and the overflow circulation channel are all integrated in the shell.

In the water tanks with negative ions and warm air, the inner side wall of the shell on the same side as the boss is bulged upwards to form a third boss, and a plurality of annular grooves are formed in the axial direction of the third boss to serve as negative ion outlets.

In the above-mentioned sinks with negative ions and warm air, the plane of the negative ion outlet is higher than the plane of the overflow hole, and the plane of the negative ion outlet is flush with the plane of the hot air outlet.

In the water tanks with negative ions and warm air, baffles are arranged at the vent holes, wherein a plurality of tank openings are arranged along the length direction of the baffles.

Compared with the prior art, the utility model provides an kinds of basins that have the anion, the warm braw, install electric fan heater on the basin, blow in the washtrough through the hot-blast blowing that the ventilation hole produced the electric fan heater, thereby realize that the tableware directly carries out drying process in the washtrough after wasing, and then shortened the drop dry time of tableware, avoid breeding of bacterium on the tableware.

Drawings

Fig. 1 is a schematic structural view of types of water tanks with negative ions and warm air.

Fig. 2 is a partially enlarged view of a portion a in fig. 1.

Fig. 3 is a schematic structural view of another views of water tanks with negative ions and warm air in accordance with the present invention.

Fig. 4 is a partial structural schematic view of types of water tanks with negative ions and warm air.

Fig. 5 is a schematic structural diagram of the housing according to the preferred embodiment of the present invention .

Fig. 6 is a schematic structural diagram of a fan heater according to a preferred embodiment of the present invention .

Fig. 7 is a schematic view of another perspective of the fan heater according to the preferred embodiment of the present invention .

In the figure, 100 parts of a groove body, 110 parts of a washing plane, 120 parts of a washing groove, 121 parts of a vent hole, 130 parts of a baffle, 131 parts of a notch, 200 parts of a warm air blower, 210 parts of a shell, 211 parts of th space, 212 parts of a second space, 213 parts of a strip-shaped groove, 220 parts of a heating sheet, 230 parts of a fan, 300 parts of a control panel, 400 parts of an overflow structure, 410 parts of an overflow pipe, 420 parts of an overflow interface, 500 parts of a shell, 510 parts of a boss, 511 parts of a slotted hole, 520 parts of an overflow hole, 530 parts of a second boss, 531 parts of a concave cavity, 540 parts of a third boss, 541 parts of an annular groove, 600 parts of a negative.

Detailed Description

The following is a description of the technical solution of the present invention in steps with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 7, the sink with negative ions and warm air provided by the present invention comprises a sink body 100 having a washing plane 110, at least washing sinks 120 formed by sinking along the thickness direction of the washing plane 110, wherein a vent 121 and a warm air blower 200 matched with the vent 121 are disposed on the wall of the washing sink 120, and the warm air blower 200 is mounted on the washing plane 110, and a control panel 300 is mounted on the washing plane 110, wherein the warm air blower 200 has control panels 300 disposed on the upper and lower sides of the washing plane 110.

The utility model provides an have the anion, the basin of warm braw, install electric fan heater 200 on the basin, blow in the washtrough 120 through the hot-blast blowning that ventilation hole 121 produced electric fan heater 200, thereby realize that the tableware directly carries out drying process in washtrough 120 after wasing, and then shortened the drop dry time of tableware, avoid breeding of bacterium on the tableware, in addition, be closed result because washtrough 120 is all around, make the hot-blast circulation all the time in washtrough 120 of week that electric fan heater 200 produced, thereby realize the drying process of washtrough 120 cell wall, avoid breeding of bacterium in the washtrough 120, and then improve the operational environment in kitchen, improve the health and the health that the user used the basin.

Preferably, as shown in fig. 1 to 7, overflow structures 400 are circumscribed to the washing tub 120, and the overflow structures 400 form an overflow passage with the inner space (the washing area of the dishes) of the washing tub 120, wherein the overflow passage is integrally formed with the hot air passage on the wall of the washing tub 120, and end of the overflow structure 400 is connected with the sewer pipe, in this embodiment, the vent holes 121, formed on the wall of the washing tub 120 serve as a circulation passage for hot air generated by the fan heater 200, and the vent holes serve as an overflow passage for water flow when overflow occurs, thereby achieving multiple purposes of the vent holes 121.

Preferably, as shown in fig. 1 to 7, housings 500 are detachably connected to the vent 121, and the peripheral side walls and the bottom wall of the housing 500 form a closed structure, and the open end of the housing 500 is communicated with the vent 121, wherein the inner side wall of the housing 500 on the side is raised upwards to form a boss 510, and a plurality of slots 511 are formed in the boss 510 in the thickness direction to serve as hot air outlets of the fan heater 200, step preferably, overflow holes 520 are formed in the inner side wall of the housing 500 on the same side as the boss 510, and the overflow holes 520 are externally connected with overflow connectors 420 connected with the overflow pipes 410, wherein the plane of the hot air outlets is higher than the plane of the overflow holes 520.

preferably, as shown in fig. 1 to 7, a second boss 530 is formed by extending downwards on the side wall of the housing 500 disposed on the same side as the boss 510, cavities 531 are disposed along the thickness direction of the second boss 530, and the cavities 531 are communicated with the slots 511 to serve as an installation space of the fan heater 200. the cavities 531 on the second boss 530 are used to realize the nested connection between the housing 500 and the fan heater 200, so that the hot air generated by the fan heater 200 can directly pass through the cavities 531, the slots 511 and the vents 121 and rapidly enter the washing tub 120 without overflowing, thereby improving the drying effect and drying rate of the dishes and the washing tub 120, and avoiding the waste of resources.

step preferably, as shown in fig. 1 to 7, the inner side wall of the housing 500 at side of the th projection 510, the overflow hole 520 and the second projection 530 is inclined, wherein the plane of the inner side wall end surface near the end of the vent hole 121 is lower than the plane of the inner side wall end surface far from the end of the vent hole 121 , such that is configured to delay the rising speed of the water flow entering the housing 500 when an overflow occurs, so that the water can rapidly enter the overflow pipe 410 through the overflow hole 520, and is configured to prevent the water accumulation in the housing 500, so as to ensure the health and hygiene of the inside of the housing 500, and in the third aspect, the hot wind generated by the fan heater 200 enters the housing 500 through the slot 511, because the density of the hot wind is lighter than that of the air, a floating phenomenon occurs, when the inside of the housing 500 is filled with hot wind, the hot wind close to the inner side wall (inclined) of the housing 500 can flow obliquely downward along the inner side wall, so that the hot wind entering the washing tub 120 can blow to the lower space of the washing tub 120 without floating all the upper space of the washing tub 120, thereby improving the.

Preferably, as shown in fig. 7 of fig. 1, the fan heater 200 includes a housing 210 divided into a th space 211 and a second space 212, and a th space 211 is communicated with the second space 212, wherein a plurality of sets of heat fins 220 are installed in the th space 211, a fan 230 is installed in the second space 212, and the heat fins 220 and the fan 230 are electrically connected to a control panel 300, respectively, the fan 230 is driven to rotate by the control panel 300, so that cool air is drawn into the second space 212, and then passes through a passage between the th space 211 and the second space 212, so that cool air enters the second space 212, and then the control panel 300 controls the heat fins 220 to generate heat, thereby converting the cool air into hot air (i.e., forming hot air), and finally the hot air is continuously discharged into the tub 120 through the vents 121, thereby performing drying process of the dishes and the tub 120. further , preferably, a plurality of grooves 213 are formed at the bottom of the second space 212 along the axial direction of the fan 230, wherein each of 2 bars 213 is located between the grooves 213, and the air passes through the adjacent air channels 220, and the adjacent air passes through the respective air channels 220, thus the heat fins 220, the air inlet 220 is positioned between the adjacent air outlet ends up, the air inlet 220, thus, the air outlet of the air inlet 220, the air outlet of the air inlet 220 is positioned as a heat sink 220, thus, the air outlet channel 220, thereby increasing the heat sink 220, thereby increasing the efficiency of the heat sink 220, when the heat sink 220, the heat sink 220 is increased when the heat sink 220, the heat sink 220 is increased when the heat sink 220, the heat sink 120, the heat sink space is increased when the heat.

Preferably, as shown in fig. 1 to 7, the sink further includes anion generators 600 mounted on the housing 210 of the fan heater 200, wherein the end of the anion generator 600 is electrically connected to the control panel 300, the end of the anion generator 600 extends into the housing 500, the anion generator 600 is driven by the control panel 300 to work to generate anions, and the anions are radiated outwards through the vent holes 121, thereby realizing the purification of the whole environment of the kitchen, improving the whole environment of the kitchen, and improving the health of users.

preferably, as shown in fig. 1 to 7, the anion circulation channel generated by the anion generator 600, the hot air circulation channel generated by the fan heater 200 and the overflow circulation channel are all integrated in the housing 500. therefore, the vent holes 121 formed on the wall of the washing tub 120 not only serve as the overflow circulation channel, but also serve as the hot air circulation channel and the anion circulation channel, so as to realize the function of "triple " and make the structure of the water tub more compact.

step, preferably, as shown in fig. 1 to 7, the inner side wall of the shell 500 at the same side of the convex plate 510 is bulged upward to form a third convex plate 540, and a plurality of annular grooves 541 are opened along the axial direction of the third convex plate 540 as negative ion outlets, and step is preferably, the plane of the negative ion outlet is higher than the plane of the overflow hole 520, and the plane of the negative ion outlet is flush with the plane of the hot air outlet.

Preferably, as shown in fig. 1 to 7, baffles 130 are installed at the vent holes 121, wherein a plurality of slots 131 are arranged along the length direction of the baffles 130, so as to divide the vent holes 121 into a plurality of equal-area areas, so that the airflow of the hot air mixed with the negative ions generated by the fan heater 200 is divided into a plurality of strands, thereby reducing the air output per unit area and improving the drying effect of the dishes and the washing tub 120.

Preferably, as shown in fig. 1 to 7, the number of the washtubs 120 is two and they are arranged side by side, and in order to improve convenience of use, the space of the washtub 120 is as large as as small, wherein the heater unit 200, the anion generator 600 and the overflow pipe 410 may be selectively installed on the two washtubs 120, or the two washtubs 120 are installed with the above-mentioned structure.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. sink with negative ions and warm air is characterized by comprising a sink body with a washing plane, at least washing sinks are formed by sinking along the thickness direction of the washing plane, wherein the walls of the washing sinks are provided with vent holes, and a warm air blower matched with the vent holes is arranged on the washing plane, and the warm air blower is arranged on the washing plane, and a control panel is arranged on the washing plane, wherein the warm air blower is provided with the control panel which is positioned on the upper side and the lower side of the washing plane.
2. 2. A sink with negative ions and warm air according to claim 1, wherein the sink is externally connected with overflow structures, and the overflow structures form an overflow channel with the internal space of the sink, wherein the overflow channel is integrated with the hot air channel on the sink wall, and the end of the overflow structure is connected with the sewer.
3. 3. The sink with negative ions and warm air as claimed in claim 1 or 2, wherein cases are detachably connected to the vent holes, the peripheral side walls and the bottom wall of the cases form a closed structure, the open ends of the cases are connected to the vent holes, wherein the side inner wall of the cases is raised upward to form a th boss, and a plurality of slots are opened along the th boss in the thickness direction to serve as the hot air outlet of the warm air blower.
4. 4. The sink with negative ions and warm air as claimed in claim 3, wherein holes are opened on the inner side wall of the case on the same side as the boss, overflow ports connected to the overflow pipes are connected to the overflow holes, and the hot air outlet is located on a plane higher than the overflow holes.
5. 5. The sink with negative ions and warm air as claimed in claim 4, wherein a second protrusion is formed by extending downward from the side wall of the housing on the same side as the protrusion, cavities are formed along the thickness direction of the second protrusion, and the cavities communicate with the slots to serve as the installation space of the warm air blower.
6. 6. The sink with negative ions and warm air as claimed in claim 5, wherein the side of the housing containing the th protrusion, the overflow hole and the second protrusion is inclined, and the end surface of the inner side wall close to the end of the vent is located at a lower level than the end surface of the inner side wall far from the end of the vent .
7. 7. The sink with negative ions and warm air as claimed in claim 4, wherein the sink further comprises anion generators mounted on the housing of the warm air blower, wherein of the anion generators are electrically connected to the control panel, and the other of the anion generators extend into the housing.
8. 8. The sink with negative ions and warm air as claimed in claim 7, wherein the negative ions flowing channel generated by the negative ion generator, the hot air flowing channel generated by the warm air blower and the overflow flowing channel are integrated in the housing.
9. 9. The water tank with negative ions and warm air as claimed in claim 7, wherein a third boss is formed by upward bulging of the inner side wall of the housing on the same side as the boss, and a plurality of annular grooves are formed along the axial direction of the third boss to serve as negative ion outlets.
10. 10. The sink with negative ions and warm air as claimed in claim 8, wherein the negative ion outlet is located on a plane higher than the overflow hole and the plane of the negative ion outlet is flush with the hot air outlet.

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