CN108771482B - Water dispenser overheating protection device based on metal deformation and silent heat conduction - Google Patents

Abstract

The invention discloses a drinking machine overheating protection device based on metal deformation and silent heat conduction, which structurally comprises a water bucket, a drinking seat, a bearing seat, a stainless steel shell and a dustproof end cover, wherein the water bucket is in threaded connection above the drinking seat, the axis of the water bucket is collinear, the drinking seat is embedded in the center of the upper surface of the bearing seat, the bearing seat is electrically welded at the top of the stainless steel shell, the dustproof end cover is hinged on the surface of the stainless steel shell through a hinge, and a heat insulation shell is attached to the inside of the stainless steel shell. The heat dissipation efficiency is ensured, the whole heat dissipation process is in a silent state, the mechanical work applying effect is obvious, and the consumption of useless work is reduced.

Description

Water dispenser overheating protection device based on metal deformation and silent heat conduction

Technical Field

The invention relates to a water dispenser overheating protection device based on metal deformation and silent heat conduction, and belongs to the field of water dispensers and overheating protection.

Background

Most of water dispensers in the market have a heating function, but when people do not use the water dispensers for a long time, for example, at night, hot water can be always kept at a high temperature when the water dispensers are automatically heated, power waste can be caused under the high temperature for a long time, internal parts of the water dispensers can be always in a load state, and the service life of machine units of the water dispensers is influenced.

The devices commonly used in the prior art have the following drawbacks:

1. when the equipment is overheated, the hot water tank is always in a loaded state due to the fact that a simple alarm effect is achieved, and when the temperature of the equipment is high, no good heat dissipation measures are taken, and the service life of a hot water tank assembly is influenced.

2. Some devices have a heat dissipation function, but also dissipate heat through a fan, so that the heat dissipation sound is loud, and the heat dissipation fan is always in an open state, so that much useless work is done when the water tank is not hot, and energy is wasted.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a water dispenser overheating protection device based on metal deformation and silent heat conduction, so as to solve the problems that when equipment is overheated, the equipment only has a simple alarm effect, when the equipment temperature is higher, no good heat dissipation measure exists, the hot water tank is always in a loaded state, the service life of a hot water tank component is influenced, a small part of equipment has a heat dissipation function, but also radiates heat through a fan, the heat dissipation sound is larger, the heat dissipation fan is always in an open state, when the water tank is not hot, too much useless work is done, and energy is wasted.

In order to achieve the purpose, the invention is realized by the following technical scheme: a drinking machine overheating protection device based on metal deformation and silent heat conduction structurally comprises a water barrel, a drinking water seat, a bearing seat, a stainless steel shell and a dustproof end cover, wherein the water barrel is in threaded connection above the drinking water seat, the axis of the water barrel is collinear, the drinking water seat is embedded in the center of the upper surface of the bearing seat, the bearing seat is electrically welded at the top of the stainless steel shell, the dustproof end cover is hinged to the surface of the stainless steel shell through a hinge, a heat insulation shell is attached to the inside of the stainless steel shell, a water receiving barrel, a water injection seat, a first water guide pipe, a cold water switch seat, a water outlet tap, a vent, a second water guide pipe, a hot water tank, a fixing pile, a cleaning pipe and a heat conduction alarm mechanism are arranged inside the heat insulation shell, the water receiving barrel is buckled at the top inside the heat insulation shell through a buckle and communicated with the water barrel and the drinking water seat, the water injection seat, the top of the first water guide pipe is communicated with the left end of the bottom of the water receiving barrel, the cold water switch seat is fixed above the water outlet faucet through a spring and is mechanically connected, the top of the water outlet faucet is in threaded connection with the first water guide pipe, the vent is arranged on the lower surface of the water outlet faucet, more than two small holes are formed in the surface of the vent, the top of the second water guide pipe is in electric welding with the right end of the bottom of the water receiving barrel, the bottom of the second water guide pipe is in threaded connection with the left end of the hot water tank, the heat conduction alarm mechanism is attached to the upper right corner of the hot water tank, the cleaning pipe is arranged below the heat conduction alarm mechanism and is vertically welded to the right side of the hot water tank, two fixing piles are arranged and fixed below the hot water tank through rivets, the heat conduction alarm mechanism is located at the right end of the second water guide pipe, and the heat conduction alarm mechanism is composed of, The utility model discloses a hot water tank, including the hot water tank, slide trigger structure, electrolysis reaction mechanism, promotion engagement device, intermittent type nature heat abstractor constitute, bimetal heating mechanism hugs closely in the right side of hot water tank, slide trigger structure mechanical connection is on the right side that bimetal heating mechanism was heated, electrolysis reaction mechanism swing joint is in the top of slide trigger structure, promote engagement device and insert the top of inlaying at electrolysis reaction mechanism, intermittent type nature heat abstractor transmission is connected in the left side that promotes engagement device and with hot water tank swing joint.

In order to optimize the technical scheme, the method further comprises the following steps:

according to one implementation mode, the hot water tank is composed of two heat collecting heads, a folding handle, a heating box, an anti-misoperation column, a hot water outlet pipe and an air guide hole, the two heat collecting heads are connected to the top of the heating box in an adhesive mode, the air guide hole is fixed to the surface of the heating box through screws, the hot water outlet pipe is arranged on the upper surface of the air guide hole and is connected with the heating box in an adhesive mode, the folding handle is connected to the upper portion of the hot water outlet pipe in a mechanical mode, the anti-misoperation column is arranged inside the folding handle and is movably connected with the hot water outlet pipe, the heat collecting heads are movably connected with an intermittent heat dissipation device, and the heating box is located on the left side of the electrolytic reaction.

Preferably, need carry out folding action and just can open hydrothermal pipeline, simple wrench movement can't open, and water pipeline can be prevented mistake and touched the post by stopping up, and safety more prevents that children from touching by mistake.

According to an implementation mode, the bimetal heating mechanism comprises a first pressure lever, a first hinge, a first heated metal sheet, a second pressure lever and a second hinge, wherein the first heated metal sheet and the second heated metal sheet are both attached to the right end of the heating box, the second heated metal sheet is horizontally fixed below the first heated metal sheet, the first pressure lever is at the lower right corner of the first heated metal sheet in a forty-five degree movable connection mode, the first hinge is hinged to the bottom of the first pressure lever, the right ends of the first heated metal sheet and the second heated metal sheet are attached to the sliding trigger structure, and the second hinge is arranged at the lower left corner of the electrolytic reaction mechanism.

Preferably, the temperature change of the equipment is sensed in real time, corresponding actions are rapidly performed when the temperature change exceeds the bearing limit of metal, and the equipment is reset immediately after the temperature is reduced, so that the equipment is simple and convenient, sensitive in trigger mechanism and recyclable.

According to one kind can implement the mode, the slip trigger structure comprises push pedal, compression leg, indentation spring, laminating board, response ball, extension rod, trigger lever, the response ball laminating is on the first right side that is heated sheetmetal, second and is heated the sheetmetal, the compression leg welding is on the right side of response ball, the push pedal vertical fixation is on the right side of compression leg, indentation spring nail is connected on the right side of compression leg, laminating board is equipped with two and hugs closely at the upper and lower both ends of indentation spring, the vertical top of fixing in the push pedal of extension rod, the trigger lever welding is at the right-hand member at extension rod top and with electrolysis reaction mechanism's bottom mechanical connection.

Preferably, when the temperature is too high, the circuit is switched on, and when the temperature is low, the circuit is switched off, so that the maneuvering effect is obvious, the power is saved compared with the mode of continuously opening the equipment, and the error rate of alarm information is reduced.

According to one embodiment, the electrolytic reaction mechanism comprises a movable contact rod, a stationary contact rod, a water containing tank, a small burner, a gas collecting cavity and a jacking cavity, wherein the stationary contact rod is vertically welded at the left end below the water containing tank and is tightly attached to the middle section of the trigger rod, the movable contact rod is parallel to the right side of the stationary contact rod and is movably connected with the trigger rod, the gas collecting cavity is welded at the left side of the water containing tank and is communicated with the water containing tank, the small burner is in threaded connection with the left side of the gas collecting cavity, the jacking cavity is electrically welded above the water containing tank, the jacking cavity is movably connected with the bottom of the pushing engagement device, and the small burner is located at the lower right corner of the intermittent heat dissipation device.

Preferably, the effect of water electrolysis is adopted, oxygen is reduced, hydrogen floats upwards, the next device is started while alarming is carried out, the alarming effect is obvious, the influence of other substances is avoided, and the consumed energy is less and pollution is avoided.

According to one possible embodiment, the pushing engagement device is composed of a transmission belt, a lifting plate, a pinion and an inner rotating wheel, the lifting plate is vertically inserted above the lifting cavity and movably connected, the pinion is engaged at the left end of the lifting plate, the inner rotating wheel is mechanically connected to the inner portion of the pinion and is coaxially connected with the axis, and the inner rotating wheel is in transmission connection with the intermittent heat dissipation device through the transmission belt.

According to one implementation mode, the intermittent heat dissipation device is composed of a bearing wheel, a rotating cylinder, heat dissipation tiles, a heat conduction rod, a synchronizing wheel and a synchronous belt, the bearing wheel is in transmission connection with an inner rotating wheel through a transmission belt, the synchronizing wheel is movably connected to the outer surface of the bearing wheel, the rotating cylinder is mechanically connected to the outer surface of the synchronizing wheel, the bearing wheel, the rotating cylinder and the synchronizing wheel are collinear in axle center, the heat conduction rod is provided with three electric welding bodies with uniform intervals and is welded to the outer surface of the rotating cylinder, and the heat dissipation tiles are in threaded connection to the top of the heat conduction rod and are movably connected with a heat collection head.

Preferably, the heat of taking away the hot-water tank that the heat dissipation tile can intermittent type nature makes its temperature reduce gradually, reduces the temperature of whole equipment through the mode of heat transfer, prevents that equipment from overheating to burn out to the heat dissipation tile during operation does not have sound, and noise reduction prevents to influence people's rest.

According to one possible embodiment, the small burner has a trapezoidal structure, shaped like a horn.

Preferably, the trumpet-shaped equipment can amplify the generated sound, so that people can more easily notice the sound and adjust the temperature of the water dispenser in time.

Advantageous effects

The invention relates to a drinking machine overheating protection device based on metal deformation and silent heat conduction, wherein water enters from a water barrel, enters a water receiving barrel and a water injection seat through a drinking seat, respectively enters a first water guide pipe and a second water guide pipe, cold water can directly flow out from a water outlet faucet by opening a cold water switch seat, the second water guide pipe enters a hot water tank, is heated by a heating tank, and is opened through a folding handle to enable an anti-misoperation touch column to flow out from a hot water outlet pipe, the outer surface of the heating tank can generate heat when the heating tank is heated, so that a first heated metal sheet and a second heated metal sheet on the right side of the heating tank are deformed, when the temperature of the first heated metal sheet and the temperature of the second heated metal sheet are exceeded, an induction ball, a push plate and a compression column are pushed out, a retraction spring and an attaching plate play roles of limiting and resetting, the push plate moves to drive an extension rod and a trigger rod to, make the movable contact pole, the stationary contact pole, the trigger bar links together, form closed circuit, water to holding in the basin carries out the electrolysis, the oxyhydrogen mixture that produces gets into in the gas collecting chamber, get into small-size combustor and burn, produce the detonation and report to the police, other hydrogen of production can be with the lifting plate jacking, make it mesh to the pinion, through interior runner, the drive belt drives the wheel rotation of holding, and drive the synchronizing wheel of left end through the hold-in range, let rotatory section of thick bamboo, the heat dissipation tile, the heat conduction pole absorbs the heat to the thermal head, pour the heat of heating cabinet, heat conduction simultaneously when realizing reporting to the police.

The invention relates to a water dispenser overheating protection device based on metal deformation and silent heat conduction, which can realize the following advantages through an arranged heat conduction alarm mechanism:

1. when the equipment is overheated, the heat conduction and heat dissipation mechanism is started in time, so that the alarm is realized, the heat conduction is carried out rapidly, the situation that the water dispenser is always in an overheated state when people do not notice an alarm signal is prevented, and the safety of equipment components is better protected.

2. The heat dissipation tile replaces the traditional fan for heat dissipation during heat conduction, ensures the heat dissipation efficiency, ensures the whole heat dissipation process to be in a silent state, has obvious mechanical work application effect and reduces the consumption of useless work.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of a water dispenser overheating protection device based on metal deformation and silent heat conduction.

Fig. 2 is a schematic structural diagram of the interior of the drinking machine overheating protection device based on metal deformation and silent heat conduction.

Fig. 3 is a detailed structural schematic diagram of the hot water tank of the present invention.

Fig. 4 is a schematic structural diagram of the heat-conducting alarm mechanism of the invention.

Fig. 5 is a detailed structural schematic diagram of the heat-conducting alarm mechanism of the invention.

Description of reference numerals: a water bucket-1, a drinking water seat-2, a bearing seat-3, a stainless steel shell-4, a dustproof end cover-5, a heat preservation shell-17, a water receiving bucket-6, a water injection seat-7, a first water guide pipe-8, a cold water switch seat-9, a water outlet tap-10, an air vent-11, a second water guide pipe-12, a hot water tank-13, a fixing pile-14, a cleaning pipe-15, a heat conduction alarm mechanism-16, a heat collection head-131, a folding handle-132, a heating tank-133, a false touch prevention column-134, a hot water outlet pipe-135, an air guide hole-136, a first pressure lever-1611, a first hinge-1612, a first heated metal sheet-1613, a second heated metal sheet-1614, a second pressure lever-1615, a second hinge-1616, The device comprises a push plate-1621, a compression column-1622, a retraction spring-1623, a laminating plate-1624, an induction ball-1625, an extension rod-1626, a trigger rod-1627, a movable contact rod-1631, a static contact rod-1632, a water containing tank-1633, a small-sized burner-1634, a gas collecting cavity-1635, a jacking cavity-1636, a transmission belt-1641, a lifting plate-1642, a pinion-1643, an inner rotating wheel-1644, a receiving wheel-1651, a rotating cylinder-1652, a heat dissipation tile-1653, a heat conducting rod-1654, a synchronizing wheel-1655 and a synchronous belt-1656.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1 to 5, the present invention provides a water dispenser overheat protection device based on metal deformation and silent heat conduction: the structure of the water drinking bucket comprises a water bucket 1, a water drinking seat 2, a bearing seat 3, a stainless steel shell 4 and a dustproof end cover 5, wherein the water bucket 1 is in threaded connection above the water drinking seat 2, the axis of the water drinking seat is collinear, the water drinking seat 2 is embedded in the center of the upper surface of the bearing seat 3, the bearing seat 3 is electrically welded at the top of the stainless steel shell 4, the dustproof end cover 5 is hinged on the surface of the stainless steel shell 4 through a hinge, a heat insulation shell 17 is attached to the inside of the stainless steel shell 4, a water receiving bucket 6, a water injection seat 7, a first water guide pipe 8, a cold water switch seat 9, a water outlet tap 10, a vent 11, a second water guide pipe 12, a hot water tank 13, a fixing pile 14, a cleaning pipe 15 and a heat conduction alarm mechanism 16 are arranged inside the heat insulation shell 17, the water receiving bucket 6 is fastened at the top inside the heat insulation shell 17 through a buckle and mutually communicated with the water bucket 1 and the water drinking, the top of the first water guide pipe 8 is communicated with the left end of the bottom of the water receiving barrel 6, the cold water switch seat 9 is fixed above the water outlet faucet 10 through a spring and is mechanically connected, the top of the water outlet faucet 10 is in threaded connection with the first water guide pipe 8, the vent 11 is arranged on the lower surface of the water outlet faucet 10, the surface of the vent 11 is provided with more than two small holes, the top of the second water guide pipe 12 is electrically welded with the right end of the bottom of the water receiving barrel 6, the bottom of the second water guide pipe 12 is in threaded connection with the left end of the hot water tank 13, the heat conduction alarm mechanism 16 is attached to the upper right corner of the hot water tank 13, the cleaning pipe 15 is arranged below the heat conduction alarm mechanism 16 and is vertically welded on the right side of the hot water tank 13, the fixing pile 14 is provided with two water pipes and is fixed below the hot water tank 13 through rivets, the heat conduction alarm mechanism 16 is positioned at the right end of the, the heat conduction alarm mechanism 16 comprises a bimetal heating mechanism 161, a sliding triggering mechanism 162, an electrolysis reaction mechanism 163, a pushing engagement device 164 and an intermittent heat dissipation device 165, the bimetal heating mechanism 161 is tightly attached to the right side of the hot water tank 13, the sliding triggering mechanism 162 is mechanically connected to the right side of the bimetal heating mechanism 161, the electrolysis reaction mechanism 163 is movably connected to the upper side of the sliding triggering mechanism 162, the pushing engagement device 164 is inserted and embedded above the electrolysis reaction mechanism 163, the intermittent heat dissipation device 165 is connected to the left side of the pushing engagement device 164 in a transmission manner and movably connected with the hot water tank 13, the hot water tank 13 comprises a heat collecting head 131, a folding handle 132, a heating tank 133, an anti-false contact column 134, a hot water outlet pipe 135 and an air guide hole 136, the heat collecting head 131 is provided with two pieces and is connected to the top of the heating tank 133 in a gluing manner, and the air guide hole 136 is fixed below the surface, the hot water outlet pipe 135 is arranged on the upper surface of the air guide hole 136 and is connected with the heating box 133 by glue, the folding handle 132 is mechanically connected above the hot water outlet pipe 135, the anti-mis-touch column 134 is arranged inside the folding handle 132 and is movably connected with the hot water outlet pipe 135, the heat collecting head 131 is movably connected with the intermittent heat dissipation device 165, the heating box 133 is positioned on the left side of the electrolytic reaction mechanism 163, the bimetal heating mechanism 161 is composed of a first pressure lever 1611, a first hinge 1612, a first heated metal sheet 1613, a second heated metal sheet 1614, a second pressure lever 1615 and a second hinge 1616, the first heated metal sheet 1613 and the second heated metal sheet 1614 are both attached to the right end of the heating box 133, the second heated metal sheet 1614 is horizontally fixed below the first heated metal sheet 1613, the first pressure lever 1611 is movably connected at the lower right corner of the first heated metal sheet 1613 by forty-five degrees, the first hinge 1612 is hinged at the bottom of the first pressure lever 1611, the right ends of the first heated metal sheet 1613 and the second heated metal sheet 1614 are jointed with the sliding trigger structure 162, the second hinge 1616 is arranged at the lower left corner of the electrolytic reaction mechanism 163, the sensing sensitivity is higher, the self-starting effect is more obvious and the intelligence degree is higher by using the heating effect of metal, the sliding trigger structure 162 is composed of a push plate 1621, a pressure column 1622, a retraction spring 1623, a jointing plate 1624, a sensing ball 1625, an extension rod 1626 and a trigger rod 1627, the sensing ball 1625 is jointed at the right side of the first heated metal sheet 1613 and the second heated metal sheet 1614, the pressure column 1622 is welded at the right side of the sensing ball 1625, the push plate 1621 is vertically fixed at the right side of the pressure column 1622, the retraction spring 1623 is nailed at the right side of the pressure column 1622, the jointing plate 1624 is provided with two parts and is tightly jointed at the upper and lower ends of the retraction spring 1623, the extension rod 1626 is vertically fixed above the push plate 1621, the trigger rod 1627 is welded at the right end of the top of the extension rod 1626 and is mechanically connected with the bottom of the electrolysis reaction mechanism 163, and is powered on when needed and powered off when not needed, so that the electrolysis reaction mechanism 163 is more power-saving and environment-friendly, the electrolysis reaction mechanism 163 is composed of a movable contact rod 1631, a fixed contact rod 1632, a water containing tank 1633, a small burner 1634, a gas collecting cavity 1635 and a jacking cavity 1636, the fixed contact rod 1632 is vertically welded at the left end below the water containing tank 1633 and is tightly attached to the middle section of the trigger rod 1627, the movable contact rod 1631 is parallel to the right side of the fixed contact rod 1632 and is movably connected with the trigger rod 1627, the gas collecting cavity 1635 is welded at the left side of the water containing tank 1633 and is communicated with each other, the small burner 1634 is screwed to the left side of the gas collecting cavity 1635, the jacking cavity 1636 is electrically welded above the water containing tank 1633, and, the small burner 1634 is positioned at the lower right corner of the intermittent heat sink 165, a chemical reaction mode is adopted, the whole energy supply process is in a pollution-free state, the oxygen content of the generated oxygen can be improved, multiple purposes are achieved, the pushing and engaging device 164 comprises a transmission belt 1641, a rising plate 1642, a pinion 1643 and an inner rotating wheel 1644, the rising plate 1642 is vertically inserted above the jacking cavity 1636 and movably connected, the pinion 1643 is engaged at the left end of the rising plate 1642, the inner rotating wheel 1644 is mechanically connected inside the pinion 1643 and is collinear in axis, the inner rotating wheel 1644 is in transmission connection with the intermittent heat sink 165 through the transmission belt 1641, the precision of linear rising through gas pushing is higher, the rising plate 1642 can be better straightly and straightly engaged with the pinion 1643, the jacking abrasion during contact is reduced, and the intermittent heat sink 165 is formed by a receiving wheel 1651, a supporting wheel, A rotary cylinder 1652, a heat dissipation tile 1653, a heat conduction rod 1654, a synchronous wheel 1655, a synchronous belt 1656, the receiving wheel 1651 is in transmission connection with an inner rotating wheel 1644 through a transmission belt 1641, the synchronizing wheel 1655 is movably connected to the outer surface of the receiving wheel 1651, the rotating cylinder 1652 is mechanically connected to the outer surface of the synchronizing wheel 1655, the axes of the adapting wheel 1651, the rotating cylinder 1652 and the synchronizing wheel 1655 are collinear, the heat conducting rod 1654 is provided with three heat conducting rods which are evenly welded on the outer surface of the rotating cylinder 1652 at equal intervals, the heat dissipating tile 1653 is screw-coupled to the top of the heat conducting rod 1654 and is movably coupled to the heat collecting head 131, the heat dissipating tile 1653 has high heat absorption and heat dissipation properties, can rapidly dissipate absorbed heat, has high heat conduction efficiency, the small burner 1634 is in a trapezoidal structure, has a shape similar to that of a horn, improves the sound of detonation, is more obvious than the sound of buzzing, and can attract people more.

Water enters from a water barrel 1, enters a water receiving barrel 6 and a water injection seat 7 through a drinking water seat 2, respectively enters a first water guide pipe 8 and a second water guide pipe 12, cold water can directly flow out from a water outlet tap 10 by opening a cold water switch seat 9, the second water guide pipe 12 enters a hot water tank 13 and is heated by a heating box 133, an anti-misoperation touch column 134 is opened by folding a folding handle 132, hot water flows out from a hot water outlet pipe 135, the heating box 133 generates heat on the surface during heating, so that a first heated metal sheet 1613 and a second heated metal sheet 1614 on the right side of the heating box are deformed, when the temperature of the first heated metal sheet 1613 and the second heated metal sheet 1614 is exceeded, an induction ball 1625, a push plate 1621 and a compression column 1622 are pushed out, a retraction spring 1623 and a binding plate 1624 play a role of limiting and resetting, the extension rod 1626 is moved to drive the push plate 1626 and the trigger rod 1627 to move rightwards, the movable contact rod 1631, the fixed contact rod 1632 and the trigger rod 1627 are connected together to form a closed loop, water in the water containing tank 1633 is electrolyzed, the generated hydrogen-oxygen mixture enters the gas collecting cavity 1635 and then enters the small burner 1634 to be burned, a detonation is generated to give an alarm, other generated hydrogen can lift the rising plate 1642 to be meshed with the pinion 1643, the internal rotating wheel 1644 and the driving belt 1641 drive the bearing wheel 1651 to rotate, the synchronous wheel 1655 at the left end is driven by the synchronous belt 1656, the rotating cylinder 1652, the heat dissipation tile 1653 and the heat conducting rod 1654 absorb heat of the heat collecting head 131, heat of the heating box 133 is poured out, and heat conduction is achieved when the alarm is given out.

The invention can start the heat-conducting and radiating mechanism in time when the equipment is overheated by combining the components, realize alarm and simultaneously conduct heat quickly, prevent people from always being in an overheated state when not noticing an alarm signal, better protect the safety of equipment components, replace the prior fan radiation by a radiating tile in heat conduction, ensure the heat radiation efficiency, ensure the whole heat radiation process to be in a silent state, have obvious mechanical work effect and reduce the consumption of useless work, thereby solving the problems that the equipment only has simple alarm function when being overheated, has no good radiating measure when the equipment is at a higher temperature, and can always keep the hot water tank in a loaded state to influence the service life of hot water tank components, and a small part of the equipment has the heat radiation function but also radiates heat by the fan, so that the radiating sound is larger, and the radiating fan is always in an opened state, the problem of wasting energy due to too much useless work when the water tank is not hot.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims (1)

1. The utility model provides a water dispenser overheat protection device based on metal deformation and noiseless heat conduction, its structure includes cask (1), drinking water seat (2), bearing seat (3), stainless steel shell (4), dust cover (5), its characterized in that: cask (1) threaded connection is in the top and the axle center collineation of drinking water seat (2), drinking water seat (2) are inlayed at the center of bearing seat (3) upper surface, bearing seat (3) electric welding is at the top of stainless steel shell (4), dust cover (5) pass through the hinge and articulate on the surface of stainless steel shell (4), the inside laminating of stainless steel shell (4) has insulation casing (17), the inside of insulation casing (17) is equipped with water receiving bucket (6), water injection seat (7), first aqueduct (8), cold water switch seat (9), goes out tap (10), blow vent (11), second aqueduct (12), hot-water tank (13), spud pile (14), cleaning tube (15), heat conduction alarm mechanism (16), water receiving bucket (6) are through the buckle at the inside top of insulation casing (17) and with cask (1) the top of lock, The drinking water seat (2) is communicated with each other, the water injection seat (7) is embedded on the inner side of the water receiving barrel (6) and the axes of the water injection seat and the water injection seat are collinear, the top of the first water guide pipe (8) is communicated with the left end of the bottom of the water receiving barrel (6), the cold water switch seat (9) is fixed above the water outlet faucet (10) through a spring and is mechanically connected, the top of the water outlet faucet (10) is in threaded connection with the first water guide pipe (8), the vent hole (11) is arranged on the lower surface of the water outlet faucet (10), the surface of the vent hole (11) is provided with more than two small holes, the top of the second water guide pipe (12) is electrically welded with the right end of the bottom of the water receiving barrel (6), the bottom of the second water guide pipe (12) is in threaded connection with the left end of the hot water tank (13), the heat conduction alarm mechanism (16) is attached to the upper right corner of, the cleaning pipe (15) is arranged below the heat-conducting alarm mechanism (16) and vertically welded on the right side of the hot water tank (13), two fixing piles (14) are arranged and fixed below the hot water tank (13) through rivets, the heat-conducting alarm mechanism (16) is located at the right end of the second water guide pipe (12), the heat-conducting alarm mechanism (16) consists of a bimetal heating mechanism (161), a sliding trigger structure (162), an electrolytic reaction mechanism (163), a pushing engagement device (164) and an intermittent heat dissipation device (165), the bimetal heating mechanism (161) is tightly attached to the right side of the hot water tank (13), the sliding trigger structure (162) is mechanically connected to the right side of the bimetal heating mechanism (161), the electrolytic reaction mechanism (163) is movably connected above the sliding trigger structure (162), and the pushing engagement device (164) is inserted and embedded above the electrolytic reaction mechanism (163), the intermittent heat dissipation device (165) is in transmission connection with the left side of the pushing engagement device (164) and is movably connected with the hot water tank (13), the hot water tank (13) consists of two heat collection heads (131), a folding handle (132), a heating tank (133), an anti-misoperation column (134), a hot water outlet pipe (135) and air guide holes (136), the two heat collection heads (131) are connected to the top of the heating tank (133) in an adhesive mode, the air guide holes (136) are fixed below the surface of the heating tank (133) through screws, the hot water outlet pipe (135) is arranged on the upper surface of the air guide holes (136) and is in adhesive connection with the heating tank (133), the folding handle (132) is mechanically connected to the upper portion of the hot water outlet pipe (135), the anti-misoperation column (134) is arranged inside the folding handle (132) and is movably connected with the hot water outlet pipe (135), and the heat collection heads (131) are movably connected with the intermittent heat dissipation device (165), the heating box (133) is positioned on the left side of the electrolytic reaction mechanism (163), the bimetal heating mechanism (161) is composed of a first pressure lever (1611), a first hinge (1612), a first heated metal sheet (1613), a second heated metal sheet (1614), a second pressure lever (1615) and a second hinge (1616), the first heated metal sheet (1613) and the second heated metal sheet (1614) are both attached to the right end of the heating box (133), the second heated metal sheet (1614) is horizontally fixed below the first heated metal sheet (1613), the first pressure lever (1611) is movably connected to the lower right corner of the first heated metal sheet (1613) in a forty-five degree manner, the first hinge (1612) is hinged to the bottom of the first pressure lever (1611), the right ends of the first heated metal sheet (1613) and the second heated metal sheet (1614) are attached to the sliding trigger structure (162), the second hinge (1616) is arranged at the lower left corner of the electrolytic reaction mechanism (163), the sliding trigger structure (162) consists of a push plate (1621), a compression column (1622), a retraction spring (1623), a laminating plate (1624), a sensing ball (1625), an extension rod (1626) and a trigger rod (1627), the sensing ball (1625) is laminated on the right sides of the first heated metal sheet (1613) and the second heated metal sheet (1614), the compression column (1622) is welded on the right side of the sensing ball (1625), the push plate (1621) is vertically fixed on the right side of the compression column (1622), the retraction spring (1623) is connected on the right side of the compression column (1622) in a nailing manner, the laminating plate (1624) is provided with two extension rods which are tightly adhered at the upper end and the lower end of the retraction spring (1623), the extension rod (1626) is vertically fixed above the push plate (1621), and the trigger rod (1627) is welded at the right end of the top of the compression column (1626) and is mechanically connected with the extension mechanism (163), the electrolytic reaction mechanism (163) consists of a movable contact rod (1631), a fixed contact rod (1632), a water containing tank (1633), a small burner (1634), a gas collecting cavity (1635) and a jacking cavity (1636), wherein the fixed contact rod (1632) is vertically welded at the left end below the water containing tank (1633) and is tightly attached to the middle section of the trigger rod (1627), the movable contact rod (1631) is parallel to the right side of the fixed contact rod (1632) and is movably connected with the trigger rod (1627), the gas collecting cavity (1635) is welded at the left side of the water containing tank (1633) and is communicated with each other, the small burner (1634) is in threaded connection with the left side of the gas collecting cavity (1635), the jacking cavity (1636) is electrically welded above the water containing tank (1633), the jacking cavity (1636) is movably connected with the bottom of the pushing engagement device (164), and the small burner (1634) is positioned at the lower right corner of the intermittent heat dissipation device (165), the pushing and meshing device (164) consists of a transmission belt (1641), a lifting plate (1642), a pinion (1643) and an inner rotating wheel (1644), the lifting plate (1642) is vertically inserted and embedded above a jacking cavity (1636) and movably connected, the pinion (1643) is meshed at the left end of the lifting plate (1642), the inner rotating wheel (1644) is mechanically connected inside the pinion (1643) and is coaxially connected, the inner rotating wheel (1644) is in transmission connection with an intermittent heat dissipation device (165) through the transmission belt (1641), the intermittent heat dissipation device (165) consists of a receiving wheel (1651), a rotating cylinder (1652), a heat dissipation tile (1653), a heat conduction rod (1654), a synchronous wheel (1655) and a synchronous belt (1656), the receiving wheel (1651) is in transmission connection with the inner rotating wheel (1644) through the transmission belt (1641), and the synchronous wheel (1655) is movably connected to the outer surface of the receiving wheel (1651), the rotating cylinder (1652) is mechanically connected to the outer surface of a synchronizing wheel (1655), the bearing wheel (1651), the rotating cylinder (1652) and the synchronizing wheel (1655) are coaxially arranged, the heat conducting rod (1654) is provided with three heat conducting rods which are uniformly welded on the outer surface of the rotating cylinder (1652) at equal intervals, heat radiating tiles (1653) are connected to the top of the heat conducting rod (1654) in a threaded mode and movably connected with the heat collecting head (131), and the mini-type combustor (1634) is of a trapezoid structure and is similar to a horn in shape;

water enters from a bucket (1), enters into a water receiving bucket (6) and a water injection seat (7) through a drinking water seat (2), respectively enters into a first water guide pipe (8) and a second water guide pipe (12), cold water can directly flow out from a water outlet tap (10) by opening a cold water switch seat (9), the second water guide pipe (12) enters into a hot water tank (13) and is heated by a heating tank (133), a false touch preventing column (134) is opened by folding a folding handle (132), hot water flows out from a hot water outlet pipe (135), the heating tank (133) generates heat on the surface when being heated, so that a first heated metal sheet (1613) and a second heated metal sheet (1614) on the right side of the heating tank deform, and when the temperature of the first heated metal sheet (1613) and the second heated metal sheet (1614) is exceeded, a sensing ball (1625), a push plate (1621) and a pressure column (1622) are pushed out, the retractable spring (1623) and the laminating plate (1624) play a role in limiting and resetting, the push plate (1621) moves to drive the extension rod (1626) and the trigger rod (1627) to move rightwards, so that the movable contact rod (1631), the static contact rod (1632) and the trigger rod (1627) are connected together to form a closed loop, water in the water containing tank (1633) is electrolyzed, the generated hydrogen-oxygen mixture enters the gas collecting cavity (1635) and is combusted in the small-sized combustor (1634), the generated detonation is generated to give an alarm, the generated other hydrogen can lift the lifting plate (1642) to be meshed with the pinion (1643), the inner rotating wheel (1644) and the driving belt (1641) drive the receiving wheel (1651) to rotate, the synchronous wheel (1655) at the left end is driven by the synchronous belt (1656), the rotating cylinder (1652), the heat radiation (1653) and the heat conducting rod (1654) absorb heat of the heat collecting head (131), the heat of the heating box (133) is poured out, and the heat conduction is realized at the same time when the alarm is given.

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