KR101593881B1 - Cooling pump container with peltier effect device - Google Patents

Abstract

The present invention is characterized in that a contents quantitative discharge pump is installed in a container 10 and when the pump cap 70 is opened, the chin portion 74 formed on the inner wall of the pump cap is released and power is supplied to the thermoelectric element 50, A switch 56 provided at a corresponding position and interlocked with a jaw portion of the pump cap;
A pump base (20) coupled to seal the inlet of the vessel (10) and having a suction hole (22) of the contents, a pump (30) and a pump guide (24) for holding the pump (30) in a fixed state; A pump housing 40 having a piston receiving hole 42 for receiving the pump 30 and a jaw portion 44 for compressing the piston body 34 of the pump 30; A pump housing 40 for indirectly absorbing the heat of the contact tube 60 attached to the outlet side of the discharge pipe 36 provided in the piston body 34 of the pump 30 and discharging heat to the upper surface thereof through the heat sink 52 A thermoelectric element (50) provided on the substrate (50); A heat absorption plate (58) provided between the contact tube (60) and the thermoelectric element (50) for absorbing thermal energy of the contact tube (60) and transferring the heat to the thermoelectric element (50); And a pump cap 40 having an inclined tube receiving groove 72 which covers the pump housing 40 and whose bottom edge is in contact with the pump base 20 and guides the outlet of the contact tube 60 to be fixed downward without being exposed to the outer surface. (70); When the pump housing 42 is slid along the surface of the pump base 20 to make the pump act as a piston to discharge the contents of the container and the pump cap is put on the used container again, It is a cooling pump vessel using element.

Description

TECHNICAL FIELD [0001] The present invention relates to a cooling pump container using a thermoelectric element,

The present invention relates to a cooling pump container using a thermoelectric element.

Generally, a thermoelectric element is a device that simultaneously performs endothermic and exothermic heat. It is installed in a small housing requiring refrigeration or warming, and is used in industries where the refrigerator or warming room can be used as needed for variable use. Techniques applied to cold storage containers are known as domestic patents 10-0501947, 10-0957346, and 20-0390049.

In addition, domestic patent registration 20-0471788 is known as a pump container related technology, and 20-0472396 is registered as a domestic utility model registration as a side button pump container.

In addition, a massager using a thermoelectric device is known as a domestic patent 10-1439248, a vibration massage machine 10-1429448, and a vibration puff 10-1307889.

In addition, the spray container with PTC is known as a domestic patent registration No. 10-1383105.

However, this structure corresponds to a classical technique in which a single function is performed by vertically standing up and performing a unique function or an additional function.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems by providing a pump cap and a container, a pump base fixed to a container inlet, a pump fixed to a pump base, And a heat dissipating plate for cooling the discharged liquid of the discharge pipe and a heat dissipating plate are installed in the pump housing so that a pump installed in the pump housing at the same time as the pump cap is operated is operated to drive the thermoelectric device, The present invention is to provide a cooling pump vessel using a thermoelectric element which is easy to use by cooling the tube and moving the pump housing to a sliding state so that the pump can be easily operated and the cooled solution in the tube tube can be discharged in a zigzag tube .

It is a further object of the present invention to provide a pump cap which, when the pump cap is opened and the switch located on the outer wall side of the pump housing located at the inner wall of the cap is turned on to operate the thermoelectric element and again close the pump cap, And turning off the power of the thermoelectric element to automatically shut off the power of the thermoelectric element.

Another object of the present invention is to provide a pump housing which is equipped with a tube tube which is a zigzag tube connected to a discharge pipe of a pump and moves to the sliding state of the pump housing to move the container contents to the outside of the upper part of the container, The present invention is to provide a cooling pump container using a thermoelectric device that improves the appearance and hygienic properties because the tube tube does not naturally enter into the tube when it is discharged due to the spring restoring force of the pump.

To this end, in the present invention, in a pump container provided with a contents quantitative discharge pump in a container,

A switch which is provided at a position corresponding to the pump housing so that the pushing of the jaw portion formed on the inner wall of the pump cap is released when power is supplied to the thermoelectric element when the pump cap is opened,

A pump base coupled to the container inlet so as to close and having a suction pipe for the contents, a pump, and a pump guide for holding the pump in a fixed state;

A pump housing having a piston receiving hole for accommodating the pump and a jaw portion for compressing the piston body of the pump;

A thermoelectric element provided in the pump housing for indirectly absorbing heat of the contact tube added to the outlet side of the discharge pipe installed in the piston body of the pump and releasing heat to the upper surface of the heat pipe;

A heat absorbing plate disposed between the contact tube and the thermoelectric element to absorb thermal energy of the contact tube and transmit the heat to the thermoelectric element; And

And a pump cap having an inclined tube receiving groove which covers the pump housing and which has a bottom edge contacting the pump base and guiding the outlet of the contact tube to be fixed downward without being exposed to the outer surface;

When the pump housing is slid along the surface of the pump base to make the pump act as a piston, the contents of the container are discharged. When the pump cap is put on the used container again, the switch is turned off by the jaw portion of the pump cap, And to provide a cooling pump container using a thermoelectric element.

A pump base fixed to the inlet of the vessel, a pump fixed to the pump base, a pump base having a discharge pipe for discharging the contents of the vessel through the pump while pushing the pump so that the pump can act, And a thermoelectric element for cooling the discharged liquid of the discharge tube and a heat dissipating plate. The pump cap and the switch installed in the pump housing are actuated to drive the thermoelectric element to cool the tube tube, which is a zigzag tube, Is moved to the sliding state so that the pump can be operated easily, and the zigzag tube can be used easily by discharging the cooled solution from inside the tube tube.

When the pump cap is opened and the chin located on the inner wall of the cap turns on the switch located on the outer wall side of the pump housing to turn on the thermoelectric device and the pump cap is closed again, the cap turns off the switch OFF state, so that the thermoelectric device is automatically turned off, so that it is conveniently used as a power saving state.

In the present invention, a tube tube, which is a zigzag tube, is connected to a discharge port of a pump, and when the pump housing is moved to a sliding state to discharge the contents of the container, the contents are discharged while being partially exposed. Due to the spring resilience of the pump, the tube tube can not be seen naturally when it comes back in place, thus improving the appearance and improving the hygiene.

1 is an exploded perspective view of the present invention,
Fig. 2 is an explanatory view of the operating principle of the present invention,
3 is a perspective view showing a coupled state in which the pump cap of the present invention is omitted,
4 is a perspective view in which the pump housing and the pump cap are omitted,
5 is a sectional view taken along the line AA in Fig. 2,
Fig. 6 is a sectional view taken along line BB of Fig. 2,
7 is an enlarged cross-sectional view of the main portion showing the cooling and content discharge of the contact-
8 is a control block diagram of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

In the present invention, in a pump container provided with a contents quantitative discharge pump in a container (10)

When the pump cap 70 is opened, a switch 56 is provided at a position corresponding to the pump housing so that the chuck 74 formed on the inner wall of the pump cap is released and power is supplied to the thermoelectric element 50, ;

A pump base (20) coupled to seal the inlet of the vessel (10) and having a suction hole (22) of the contents, a pump (30) and a pump guide (24) for holding the pump (30) in a fixed state;

A pump housing 40 having a piston receiving hole 42 for receiving the pump 30 and a jaw portion 44 for compressing the piston body 34 of the pump 30;

A pump housing 40 for indirectly absorbing the heat of the contact tube 60 attached to the outlet side of the discharge pipe 36 provided in the piston body 34 of the pump 30 and discharging heat to the upper surface thereof through the heat sink 52 A thermoelectric element (50) provided on the substrate (50);

A heat absorption plate (58) provided between the contact tube (60) and the thermoelectric element (50) for absorbing thermal energy of the contact tube (60) and transferring the heat to the thermoelectric element (50); And

The lower end of the pump cap 20 covers the pump housing 40 and has an inclined tube receiving groove 72 which contacts the pump base 20 and guides the outlet of the contact tube 60 to be fixed downward without being exposed to the outer surface. 70);

When the pump housing 42 is slid along the surface of the pump base 20 to make the pump act as a piston, the contents of the container are discharged. When the pump cap is put on the used container again, the switch is turned off by the jaw of the pump cap, The power supply of the device is cut off.

The contact tube 60 includes a zigzag tube 62 for increasing the contact area with the thermoelectric element 50,

And an inclined pipe (64) inclined downward at the outlet side of the zigzag pipe (62)

The lower end of the inclined pipe (64) is configured to be spaced apart from the surface of the pump base (20).

A zigzag tube receiving groove 58a is formed in the heat absorbing plate 58 to absorb heat energy from the upper surface of the zigzag tube 62. The heat absorber 58 is preferably an aluminum plate.

The pump guide 24 includes a fixing jaw 25 for supporting the fixing pipe 31 of the pump 30 so as not to be pushed,

A protruding bar 26 protruding upward from the fixing jaw 25 at both sides of the diameter of the suction pipe 32 so as to keep the suction pipe 32 connected to the fixed pipe 31 in a translator shape,

And a through hole (27) for guiding the suction pipe (32) between the projecting bars (26).

The protruding bar 26 is configured to have a protruding height so as not to be in contact with the piston receiving hole 42 of the pump housing 40 so that the pump housing 40 can be slid.

The upper surface of the pump housing 40 and the upper surface of the pump base 20 are slidable,

The pump housing 40 and the pump base 20 are provided with guide means 80 for guiding the sliding along the surface of the pump base 20 by the rail 82 and the rail groove 84, .

The rail (82) is formed as a sunshine with a certain distance,

Each of the rails 82 may be configured to have a fitting state for slidingly moving along the corresponding rail groove 84. The meaning of sliding the pump housing 40 accommodating the pump 30 on the surface of the pump base 20 includes a horizontal movement and a movement of a ramp or a vertical movement for each application according to a design method and a product .

The present invention thus constructed opens the pump base 20 of the vessel 10 and fills the contents (liquid cosmetics, foam cosmetics) and blocks the inlet of the vessel 10 again with the pump base 20 And the fitting means can be configured in various ways.

The suction pipe 32 inserted into the suction hole 22 of the pump base 20 is connected to the lower end near the bottom of the container and the upper end of the suction pipe 32 is connected to the fixed pipe 31 of the pump 30 so as to form a tour operator. The bent horizontal portion of the suction pipe 32 is supported on the fixing jaw 25 and the suction pipe 32 is positioned on the upper side of the through hole 27 and the end of the fixing pipe 31 is supported on the projecting bar 26 So as not to be pushed out. The exit side discharge pipe 36 of the piston body 34 of the pump 30 is bent in a diagonal shape toward the suction pipe 25 side and the outlet of the discharge pipe 36 is bent, A zigzag tube 62 made of a tube tube is connected to the upper portion of the zigzag tube 62. A heat absorbing plate 58 having a good heat absorption rate and a thermoelectric element 50 functioning as a peltier effect for absorbing heat . And the pump cap 70 is used to cover the surface of the pump housing 40.

When the assembled product is used, when the pump cap 70 is opened, the jaw portion 74 is also opened together, so that the switch 56 installed in the pump housing 40 is turned on. This causes the thermoelectric element 50 The power of the battery 90 is applied and the heat is absorbed by the cooling action. In order to increase the cooling efficiency, a heat absorption plate 58 for absorbing thermal energy of the zigzag tube 62 and transmitting the heat energy to the thermoelectric element is added between the zigzag tube 62 and the thermoelectric element 50 to increase the heat absorption efficiency .

The heat energy absorption is performed in the order of the contact tube 60, the heat absorbing plate 58, the thermoelectric element 50, and the heat sink 52. The zigzag tube 62 constituting the contact tube 60 is inserted into the zigzag receiving groove 58a of the heat absorbing plate 58 to increase the contact area so that the heat energy of the zigzag tube 62 can be quickly absorbed by the heat absorbing plate 58 and the thermoelectric element 50 in that order, and functions to enable rapid cooling. The heat sink 52 dissipates heat to the outside.

At the end of the zigzag pipe 62, the downwardly bent inclined pipe 64 is supported by the inclined pipe receiving groove 72 of the pump cap 70 and bent downward, so that the bent state can be maintained, The lower end of the pump base 20 is not brought into contact with the upper end of the pump base 20 so as to eliminate the sliding obstruction of the pump housing 40. In the sliding state, It functions to receive and use the contents due to pumping.

The sliding function of the pump housing 40 with respect to the pump housing 70 in the state of fitting the rail 82 and the rail groove 84 as shown in FIG. 5, it is possible to slide without moving left and right (in the drawing, it is shown as moving horizontally, but it is possible to change the design within a range of performing a function of being inclined or vertically sliding) ).

In this case, the pump housing 40 and the pump cap 70 simultaneously move in the sliding direction in the direction of the rail 82 and the rail groove 84, and when the sliding movement is performed, the piston housing 40 and the pump housing 70 Since the end portion of the piston body 34 is received and supported by the jaw portion 44 so that the jaw portion 44 pushes the piston body 34 (pushing to the left in the case of FIG. 5) This compression force serves to suck the contents in the vessel 10 through the suction pipe 32 and discharge it to the discharge pipe 32 to cool the zigzag pipe 62 and discharge it to the slant pipe 64.

5, when the slide is slid to the left to discharge the contents and the pushing force is released, the state returns to the state of FIG. 5 by the spring restoring force of the coil-shaped resilient spring 38 integrally coupled to the pump 30, Repeat this process.

When the pump is operated in the sliding manner, the operation pushing means is not exposed to the outside, so that it is hygienic. When the pump is slid and pushed out, it is discharged from the bottom of the pump housing and discharged at the same time. And it is possible to use it as a small and portable cooling pump vessel which does not require charging through a hot air balloon or a separate electric approval because it uses a normal battery for cooling.

When the pump cap 70 is covered with the pump housing 70 and then closed, the jaw portion 74 is turned off by pressing the switch 56, so that it is economical to wait for the next use without consuming the battery power.

The pump 20 includes a pump base 22 and a suction port 24. The pump guide 25 includes a fixing jaw 26 and a protruding bar 27. The through hole 30 is connected to a pump 31. A fixed pipe 32 is connected to a suction pipe 34, A housing (42), a piston receiving hole (44), a step (50), a thermoelectric element (52), a heat radiating plate (56), a switch (58), a heat absorbing plate (58a), a zigzag tube receiving groove (60), a contact tube (62), a zigzag tube (64) A receiving groove 80, a guide means 82, a rail 84, a rail groove 90,

Claims (7)

In the pump vessel provided with the contents quantitative discharge pump in the vessel 10,
When the pump cap 70 is opened, a switch 56 is provided at a position corresponding to the pump housing so that the chuck 74 formed on the inner wall of the pump cap is released and power is supplied to the thermoelectric element 50, ;
A pump base (20) coupled to seal the inlet of the vessel (10) and having a suction hole (22) of the contents, a pump (30) and a pump guide (24) for holding the pump (30) in a fixed state;
A pump housing 40 having a piston receiving hole 42 for receiving the pump 30 and a jaw portion 44 for compressing the piston body 34 of the pump 30;
A pump housing 40 for indirectly absorbing the heat of the contact tube 60 attached to the outlet side of the discharge pipe 36 provided in the piston body 34 of the pump 30 and discharging heat to the upper surface thereof through the heat sink 52 A thermoelectric element (50) provided on the substrate (50);
A heat absorption plate (58) provided between the contact tube (60) and the thermoelectric element (50) for absorbing thermal energy of the contact tube (60) and transferring the heat to the thermoelectric element (50); And
The lower end of the pump cap 20 covers the pump housing 40 and has an inclined tube receiving groove 72 which contacts the pump base 20 and guides the outlet of the contact tube 60 to be fixed downward without being exposed to the outer surface. 70);
When the pump housing 42 is slid along the surface of the pump base 20 to make the pump act as a piston, the contents of the container are discharged. When the pump cap is put on the used container again, the switch is turned off by the jaw of the pump cap, And the power of the device is cut off.
The contact tube according to claim 1, wherein the contact tube (60) comprises a zigzag tube (62) for increasing the contact area with the thermoelectric element (50)
And an inclined pipe (64) inclined downward at the outlet side of the zigzag pipe (62)
And the lower end of the inclined pipe (64) is spaced apart from the surface of the pump base (20).
The cooling pump container according to claim 2, wherein a zigzag tube receiving groove (58a) is formed in the heat absorbing plate (58) to absorb heat energy from the upper surface of the zigzag tube (62).
The pump according to claim 1, wherein the pump guide (24) comprises a fixing jaw (25) for supporting the fixing pipe (31) of the pump (30)
Protruding bars 26 protruding upward from the fixing jaws 25 on both sides of the diameter of the suction pipe 32 to keep the suction pipe 32 connected to the fixed pipe 31 in a translator shape,
And a through hole (27) for guiding the suction pipe (32) between the protruding bars (26).
The cooling pump container according to claim 4, wherein the protruding bar (26) is formed to have a protruding height not contacting the piston receiving hole (42) of the pump housing (40).
The pump according to claim 1, wherein the pump housing (40) and the upper surface of the pump base (20) are slidable,
The pump housing 40 and the pump base 20 are provided with guide means 80 for guiding the sliding along the surface of the pump base 20 by the rail 82 and the rail groove 84, And a cooling pump for cooling the thermoelectric element.
7. The apparatus according to claim 6, wherein the rail (82)
Wherein each rail (82) is configured to be in a fit state for sliding movement along the corresponding rail groove (84).

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