CN109887784B

CN109887784B - Dairy product workshop power switch protection device based on gradual change temperature control

Info

Publication number: CN109887784B
Application number: CN201910112855.6A
Authority: CN
Inventors: 陆春杰
Original assignee: Zhuji Qingchen Science And Technology Service Co ltd
Current assignee: Zhuji Anhua life century Hualian Supermarket chain franchise store
Priority date: 2019-02-13
Filing date: 2019-02-13
Publication date: 2020-11-06
Anticipated expiration: 2039-02-13
Also published as: CN109887784A

Abstract

The invention discloses a dairy product workshop power switch protection device based on gradual change temperature control, which structurally comprises a rear cover, a front key cover, keys and a liquid guide device, wherein water collecting capillary tubes are arranged on freezing rods in an outward-extending manner in order, intervals are arranged between every two water collecting capillary tubes, the space for concentrating water is increased, the water is regularly and uniformly formed after being condensed by regular arrangement, the water is prevented from being condensed on a single surface, the temperature can be reduced in a step manner, the freezing effect is gradually reduced, the flowing direction of water liquid is determined, the size of a fit hole is just equal to the middle diameter of a conical structure of a refrigerating rod, a convex block is arranged at the top of a heating ring, the refrigerating rod can be clamped by the convex block, the heating ring is tightly attached to the conical structure to increase the temperature, the water can be blocked by the heating ring after flowing downwards, the convex block (with an inclined angle) at the top of the heating ring plays a role of guiding, the automatic moisture of discharging avoids the normality to dismantle, improves switch life, avoids influencing the normal operating of workshop machinery.

Description

Dairy product workshop power switch protection device based on gradual change temperature control

Technical Field

The invention discloses a dairy product workshop power switch protection device based on gradual change temperature control, and belongs to the field of power switch protection devices.

Background

Since the modern social machines are popularized in various industries, the intelligent processing is more and more finished by people and the productivity is improved, a switching power supply is usually used for controlling the operation of each machine, and because the humidity of the dairy product workshop is high, the internal parts of the switching device are usually moistened to generate chemical substances, so that the short circuit phenomenon is likely to occur, the normal operation of the machine is influenced, and even the life of people is threatened.

However, the existing power switch protection device has the following disadvantages:

1. the mode that the switch protector in dairy products workshop is mostly freezing to the use is concentrated the moisture in the air, but simple freezing device can only concentrate moisture and condense, and moisture condenses the back volume grow, and there is the uncertainty in the frozen outward appearance, makes ice-cube touch part easily, trigger switch even, causes switch confusion.

2. If the ice blocks inside are not processed in time, the power supply is required to be turned off when the power supply is frequently detached, the working progress is influenced, and the switch is easy to damage.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a dairy product workshop power switch protection device based on gradual change temperature control, which aims to solve the problems that the moisture in the air is concentrated mostly by using an icing mode, but a simple icing device can only concentrate and condense the moisture, the volume of the condensed moisture is increased, the icing appearance is uncertain, ice blocks are easy to touch parts and even trigger a switch, the power switch is disordered, if the internal ice blocks are not processed in time, the power supply needs to be turned off frequently to disassemble, the working progress is influenced, and the switch is easy to damage.

In order to achieve the purpose, the invention is realized by the following technical scheme: the dairy product workshop power switch protection device based on gradual change temperature control structurally comprises a rear cover, a front key cover, keys and a liquid guide device, wherein the front end of the rear cover is fixedly connected with the rear end of the front key cover through screws, the middle side of the front end of the front key cover is movably connected with the rear end of the keys, the interiors of the keys and the rear cover are mechanically connected, the bottom of the rear cover is connected with the top of the liquid guide device through a clamping groove, and a rubber ring is connected between the rear end of the keys and the front key cover, so that the phenomenon that the humidity in a dairy product is aggravated in a moist environment is avoided;

the liquid guiding device consists of a gradual change type water collecting device, a controller, an outer frame and a heating liquid guiding ring, wherein the gradual change type water collecting device is connected with the inside of the controller through a connecting rod, the rear end of the controller is fixedly connected with the inside of the outer frame through a screw, the bottom of the outer frame is connected with the outer wall of the heating liquid guiding ring through a clamping groove, a control sensor is arranged inside the controller, the middle end of the heating liquid guiding ring is attached to the lower end of the gradual change type water collecting device, the outer wall of the gradual change type water collecting device is attached to the inner wall of the outer frame, the top of the gradual change type water collecting device is in clearance fit with the rear end of a key, the upper end of the outer frame is wrapped by a rear cover and a front key cover, and meanwhile every two joints of.

Preferably, the gradual change water collecting device comprises a water collecting capillary tube, a freezing rod, an isolating ring, a first water discharging tube and a refrigerating rod, wherein the inside of the water collecting capillary tube is in embedded connection with the inside of the freezing rod, the bottom of the freezing rod is bonded with the upper end of the isolating ring, the bottom of the isolating ring is fixedly connected with the top of the refrigerating rod, the outer wall of the refrigerating rod is attached to the inside of the first water discharging tube, the top of the first water discharging tube is in clearance fit with the bottom of the isolating ring, the water collecting capillary tube is of a metal tube structure, the ambient temperature is lower than zero through the heat transfer of the freezing rod, the water collecting capillary tube is concentrated together and is condensed, the water collecting capillary tube is arranged on the freezing rod in an extending manner, a space is formed between every two water collecting capillary tubes, the space for concentrating the water is increased, the water is regularly and uniformly formed after the water is condensed due to the regular, meanwhile, the cone structure is not controlled by the temperature of the controller 41, so that water can flow downwards conveniently.

Preferably, the first drainage pipe is composed of a ring frame and a water ring groove, the outer wall of the ring frame and the inner wall of the water ring groove are of an integrated structure, the ring frame is of a hollow cylindrical structure, the water ring groove is sunken into the ring frame and is in a downward surrounding trend, water drops can be discharged downwards, and a water outlet is formed in the bottom of the water ring groove.

Preferably, the heating liquid guide ring is composed of a water guide heating ring, a magnetizing rod and a fixed ring frame, wherein the inside of the water guide heating ring is electrically connected with the inside of the magnetizing rod, the outer wall of the magnetizing rod is connected with a clamping groove inside the fixed ring frame, the fixed ring frame is of a hollow annular disc structure, the middle end of the water guide heating ring is attached to the refrigerating rod, the rear end of the magnetizing rod is connected with a heater, and the water guide heating ring is heated by the energy transferred by the magnetizing rod.

The best, the water guide heating collar comprises agreeing with hole, heating ring, second drain pipe, fixed block, the fixed block inner wall is clearance fit with the heating ring outer wall, heating ring outer wall and second drain pipe side structure as an organic whole, agree with the hole outside ratio and laminate mutually with the heating ring, agree with the hole size and just be the middle diameter of cold-stored pole conical construction, the heating ring top is equipped with the lug, can clip cold-stored pole.

Advantageous effects

When the refrigerator is used, the rubber ring is connected between the rear end of the key and the front key cover to prevent the moist environment of a dairy product from aggravating the internal humidity, the top parts of the front key cover and the rear cover are connected with the filter screen layers, the ventilation effect is prevented from overheating the interior, meanwhile, dust is prevented from entering, the controller is divided into an upper controller and a lower controller, the upper end of the controller is a freezer, and the controller can condense moisture in moist air under stable zero; the lower end is a refrigerator, the temperature is eight to nine degrees, the ice blocks close to the refrigerator can be relieved, the water is slowly thawed, the water collecting capillaries are arranged on the freezing rods in an extending manner, intervals exist between every two capillaries, the space for concentrating water is increased, meanwhile, the regular arrangement enables the water to be uniformly formed after the water is condensed, the single-side condensed water is avoided, the bottom of the refrigerating rod is of a conical structure, meanwhile, the conical structure is not controlled by the temperature controller, the water can conveniently flow downwards, the isolating ring can isolate the temperature between the freezing rods and the refrigerating rod, the refrigerating rod is prevented from being influenced by the low temperature of the freezing rods, when the freezing rods are matched with the water collecting capillaries to freeze the air water, the ice blocks can be slowly frozen and slowly close to the isolating ring, meanwhile, the ice blocks cross the isolating ring to contact with a first water discharge pipe, the first water discharge pipe is controlled by the temperature of the refrigerating rod, the contacted ice blocks can be melted into water, the water ring groove is provided with a water outlet at the bottom, the water ring groove can make the water flow orderly without centralized stagnation, the water guiding and heating ring realizes the heating effect by the energy transferred by the magnetizing rod, the water guiding and heating ring passes through the heating cone structure (the bottom of the refrigerating rod and the upper end of the refrigerating rod are respectively separated), thereby leading the temperature near the bottom of the water ring tank to be higher, increasing the atom activity, accelerating the flow of water flow, leading the size of the fit hole to be just the middle diameter of the conical structure of the refrigerating rod, leading the top of the heating ring to be provided with a convex block, the refrigerating rod can be clamped, the heating ring is tightly attached to the conical structure to heat the conical structure, when the water liquid flows downwards, will be blocked by the heating ring, and the lug (having the angle of inclination) at the top of the heating ring plays a role in guiding, so that water liquid continues to flow downwards through the second drain pipe until being discharged out of the interior of the liquid guiding device.

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

1. the controller is divided into an upper controller and a lower controller, the upper end of the controller is a freezer, and the freezer is stable below zero and can condense moisture in humid air; the lower end is a refrigerator, the temperature is eight to nine degrees, the ice blocks close to the refrigerator can be relieved, water is slowly thawed, the water collecting capillaries are arranged on the freezing rod in an outward-extending orderly manner, intervals exist between every two capillaries, the space for concentrating water is increased, the regular arrangement enables the water to be condensed and then to be regularly and uniformly formed, single-side condensed water is avoided, meanwhile, the temperature can be reduced in a step-shaped manner, the freezing effect is gradually reduced, and the flowing direction of the water liquid is determined.

2. Agree with the hole size and just be cold-stored pole conical construction's middle diameter, the heating ring top is equipped with the lug, can clip cold-stored pole, the conical construction is hugged closely to the heating ring, make it rise in temperature, down flow the back when water liquid, can be by the heating ring separation, the lug at heating ring top (having the angle of inclination) plays the guide effect this moment, make water liquid continue down through the second drain pipe, inside up to the discharge drain device, automatic discharge moisture, avoid normality to dismantle, improve switch life, avoid influencing workshop mechanical normal operating simultaneously.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of a dairy product workshop power switch protection device based on gradual temperature control according to the present invention;

FIG. 2 is a front sectional view of the liquid guiding device of the present invention;

FIG. 3 is an enlarged view of the graded water collecting apparatus of FIG. 2 according to the present invention;

FIG. 4 is a front sectional view of a first drain pipe according to the present invention;

FIG. 5 is a schematic view of a first drain pipe according to the present invention;

FIG. 6 is a cross-sectional view of the heating liquid guide of FIG. 2 according to the present invention;

FIG. 7 is a top cross-sectional view of the spacer ring of FIG. 6 in accordance with the present invention.

In the figure: the device comprises a rear cover-1, a front key cover-2, a key-3, a liquid guide device-4, a gradient water collection device-40, a controller-41, an outer frame-42, a heating liquid guide ring-43, a water collection capillary tube-401, a freezing rod-402, an isolation ring-403, a first water discharge pipe-404, a refrigerating rod-405, a ring frame-4041, a water ring groove-4042, a water guide heating ring-430, a magnetizing rod-431, a fixed ring frame-432, a matching hole-4301, a heating ring-4302, a second water discharge pipe-4303 and a fixed block-4304.

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, the present invention provides a dairy product workshop power switch protection device based on gradual temperature control, comprising: the structure of the milk product packaging device comprises a rear cover 1, a front key cover 2, keys 3 and a liquid guiding device 4, wherein the front end of the rear cover 1 is fixedly connected with the rear end of the front key cover 2 through screws, the middle side of the front end of the front key cover 2 is movably connected with the rear end of the keys 3, the inner parts of the keys 3 are mechanically connected with the inner part of the rear cover 1, the bottom of the rear cover 1 is connected with the top of the liquid guiding device 4 through a clamping groove, a rubber ring is connected between the rear end of the keys 3 and the front key cover 2, the phenomenon that the humidity of the interior of the milk product is aggravated in a humid environment is avoided, the top of the front key cover 2 and the top of the rear cover 1 are connected with a filter screen;

referring to fig. 2, the liquid guiding device 4 is composed of a gradual change water collecting device 40, a controller 41, an outer frame 42 and a heating liquid guiding ring 43, the interior of the gradual change water collecting device 40 is connected with the interior of the controller 41 through a connecting rod, the rear end of the controller 41 is fixedly connected with the interior of the outer frame 42 through screws, the bottom of the outer frame 42 is connected with the outer wall of the heating liquid guiding ring 43 through a clamping groove, a control sensor is arranged in the controller 41, the middle end of the heating liquid guiding ring 43 is attached to the lower end of the gradual change water collecting device 40, the outer wall of the gradual change water collecting device 40 is attached to the inner wall of the outer frame 42, the top of the gradual change water collecting device 40 is in clearance fit with the rear end of the key 3, the upper end of the outer frame 42 is wrapped by the rear cover 1 and the key cover 2, and rubber rings are arranged at the connection positions of two pairs at the same, the upper end is a freezer which is stable below zero and can condense the moisture in the humid air; the lower end is a refrigerator, the temperature is eight to nine degrees, the ice blocks close to the refrigerator can be relieved, and the water is slowly thawed.

Referring to fig. 3, the gradient water collecting device 40 comprises a water collecting capillary tube 401, a freezing rod 402, an isolating ring 403, a first water discharging tube 404 and a refrigerating rod 405, wherein the inside of the water collecting capillary tube 401 is connected with the inside of the freezing rod 402 in an embedded manner, the bottom of the freezing rod 402 is bonded with the upper end of the isolating ring 403, the bottom of the isolating ring 403 is fixedly connected with the top of the refrigerating rod 405, the outer wall of the refrigerating rod 405 is attached to the inside of the first water discharging tube 404, the top of the first water discharging tube 404 is in clearance fit with the bottom of the isolating ring 403, the water collecting capillary tube 401 is of a metal tube structure, the ambient temperature is lower than zero by the heat transfer of the freezing rod 402, the used water is collected and condensed, the water collecting capillary tubes 401 are arranged on the freezing rod 402 in an extending manner, a gap exists between every two water collecting capillary tubes, the space for collecting water is increased, and the water is regularly arranged to, avoid single face condensation moisture, cold-stored pole 405 bottom is the circular cone structure, the circular cone structure is not controlled by 41 temperature control of ware simultaneously, make things convenient for water liquid to flow down, isolating ring 403 can keep apart freezing pole 402 and the temperature between cold-stored pole 405, avoid cold-stored pole 405 to receive the low temperature influence of freezing pole 402, after freezing pole 402 cooperation water collecting capillary 401 made air moisture freeze, can slowly freeze and be close to isolating ring 403, the first drain pipe 404 of isolating ring 403 contact is crossed to the ice-cube simultaneously, first drain pipe 404 receives the accuse temperature of cold-stored pole 405, can make the ice-cube of contact become the lower water of temperature and flow down.

Referring to fig. 4-5, the first water drainage pipe 404 is composed of a ring frame 4041 and a water ring groove 4042, the outer wall of the ring frame 4041 and the inner wall of the water ring groove 4042 are integrated, the ring frame 4041 is a hollow cylindrical structure, the water ring groove 4042 is recessed into the ring frame 4041 and tends to surround downwards, so that water drops can be drained downwards, a water outlet is arranged at the bottom of the water ring groove 4042, and the recessed water ring groove 4042 enables water to flow orderly, so that the concentrated stagnation of water is avoided.

Referring to fig. 6, the liquid heating and conducting ring 43 is composed of a water guiding and heating ring 430, a magnetizing rod 431, and a fixed ring frame 432, the inside of the water guiding and heating ring 430 is electrically connected with the inside of the magnetizing rod 431, the outer wall of the magnetizing rod 431 is connected with the inside of the fixed ring frame 432 by a clamping groove, the fixed ring frame 432 is a hollow annular disc structure, the middle end of the water guiding and heating ring 430 is attached to the refrigerating rod 405, the rear end of the magnetizing rod 431 is connected with a heater, the water guiding and heating ring 430 realizes a temperature rise effect by the energy transferred by the magnetizing rod 431, and the water guiding and heating ring 430 heats the conical structure (the bottom of the refrigerating rod 405 and the upper end of the refrigerating rod 405 are respectively separated) so as to make the temperature near the bottom of the water ring groove 4042 higher, increase the atomic activity.

Referring to fig. 7, the water guiding and heating ring 430 is composed of a fitting hole 4301, a heating ring 4302, a second drain pipe 4303, and a fixing block 4304, an inner wall of the fixing block 4304 is in clearance fit with an outer wall of the heating ring 4302, an end of the outer wall of the heating ring 4302 and an end of the second drain pipe 4303 are integrated, an outer portion of the fitting hole 4301 is attached to an inner wall of the heating ring 4302, the fitting hole 4301 has a size just equal to a middle diameter of a conical structure of the refrigerating rod 405, a protrusion is disposed on a top of the heating ring 4302, the refrigerating rod 405 can be clamped by the heating ring 4302, the heating ring 4302 is tightly attached to the conical structure to raise a temperature, and when water flows downward, the water is blocked by the heating ring 4302, and at this time, the protrusion (having an inclination angle) on the top of the heating ring 4302 serves as a guide to enable the water to continue to.

When the refrigerator is used, a rubber ring is connected between the rear end of the key 3 and the front key cover 2, the phenomenon that the humidity of the interior of a dairy product is increased due to a humid environment is avoided, the top of the front key cover 2 and the top of the rear cover 1 are connected with a filter screen layer, the interior of the refrigerator is prevented from being overheated due to the ventilation effect, dust is prevented from entering the refrigerator, the controller 41 is divided into an upper type and a lower type, the upper end of the controller is a freezer, and the controller can condense moisture in humid air under stable; the lower end is a refrigerator, the temperature is eight to nine degrees, the ice blocks close to the refrigerator can be relieved, the water is slowly thawed, the water collecting capillary tubes 401 are arranged on the freezing rods 402 in an extending manner, intervals exist between every two freezing rods 402, the space where the water is concentrated is increased, meanwhile, the water is regularly formed after being condensed by regular arrangement, the single-side condensed water is avoided, the bottom of the refrigerating rod 405 is of a conical structure, the conical structure is not controlled by the controller 41, the water can conveniently flow downwards, the temperature between the freezing rods 402 and the refrigerating rod 405 can be isolated by the isolating ring 403, the refrigerating rod 405 is prevented from being influenced by the low temperature of the freezing rods 402, when the air water is frozen by the freezing rods 402 matching with the water collecting capillary tubes 401, the ice blocks can be slowly frozen to be close to the isolating ring 403, meanwhile, the ice blocks cross the refrigerating isolating ring 403 to contact the first water discharge pipe 404, the first water discharge pipe 404 is controlled by the temperature of the refrigerating, the water ring groove 4042 is recessed into the ring frame 4041 and tends to surround downwards to discharge water drops downwards, the bottom of the water ring groove 4042 is provided with a water outlet, the recessed water ring groove 4042 enables water to flow orderly without centralized stagnation of water, the water guiding and heating ring 430 transfers energy from the magnetizing rod 431 to realize a temperature rise effect, the water guiding and heating ring 430 is in a heating cone structure (the bottom of the refrigerating rod 405 and the upper end of the refrigerating rod 405 are separated), so that the temperature near the bottom of the water ring groove 4042 is higher, the atomic activity is increased, the water flow is accelerated, the size of the conjunction hole 4301 is just the middle diameter of the conical structure of the refrigerating rod 405, the top of the heating ring 4302 is provided with a bump which can clamp the refrigerating rod 405, the heating ring 4302 is tightly attached to the conical structure to raise the temperature, when water flows downwards, the water is blocked by the heating ring 4302, and at this time, the bump (with an inclination angle) at the top of the heating ring 4302 plays a guiding role, the water is continuously discharged downward through the second drain pipe 4303 until it is discharged out of the interior of the drainage device 4.

The invention solves the problems that a power switch protection device of a dairy product workshop mostly concentrates moisture in air by using an icing mode, but a simple icing device can only concentrate and condense the moisture, the volume of the condensed moisture is increased, the icing appearance is uncertain, ice blocks are easy to touch parts and even trigger a switch, the power switch is disordered, if the ice blocks in the power switch are not processed in time, the power supply needs to be turned off frequently to influence the working progress, and the switch is easy to damage; the lower end is a refrigerator, the temperature is eight to nine degrees, the ice blocks close to the refrigerator can be relieved, water is slowly thawed, the water collecting capillaries are arranged on the freezing rods in an extending manner, intervals exist between every two capillaries, the space for concentrating water is increased, meanwhile, the capillaries are regularly arranged, the water is condensed and then is regularly and uniformly formed, the water condensation on one side is avoided, the temperature can be reduced in a step-shaped manner, the freezing effect is gradually reduced, the flowing direction of the water liquid is determined, the size of a fit hole is just the middle diameter of the conical structure of the refrigerating rod, the top of the heating ring is provided with a convex block which can clamp the refrigerating rod, the heating ring is tightly attached to the conical structure to heat the conical structure, the heating ring can be blocked by the heating ring after the water liquid flows downwards, at the moment, the convex block (with an inclined angle) on the top of the heating ring plays a guiding role, the water liquid continues, normal disassembly is avoided, the service life of the switch is prolonged, and meanwhile, the influence on the normal operation of workshop machinery is avoided.

The foregoing merely illustrates the principles and preferred embodiments of the invention and many variations and modifications may be made by those skilled in the art in light of the foregoing disclosure, which are intended to be within the scope of the invention.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. Dairy products workshop switch protector based on gradual change nature accuse temperature, its structure includes back lid (1), preceding key lid (2), button (3), drain device (4), its characterized in that: the front end of the rear cover (1) is fixedly connected with the rear end of the front key cover (2) through screws, the middle side of the front end of the front key cover (2) is movably connected with the rear end of the key (3), the interior of the key (3) is mechanically connected with the interior of the rear cover (1), and the bottom of the rear cover (1) is connected with the top of the liquid guide device (4) through a clamping groove; the liquid guide device (4) is composed of a gradual change water collecting device (40), a controller (41), an outer frame (42) and a heating liquid guide ring (43), the interior of the gradual change water collecting device (40) is connected with the interior of the controller (41) through a connecting rod, the rear end of the controller (41) is fixedly connected with the interior of the outer frame (42) through a screw, the bottom of the outer frame (42) is connected with the outer wall of the heating liquid guide ring (43) through a clamping groove, a control sensor is arranged in the controller (41), the middle end of the heating liquid guide ring (43) is attached to the lower end of the gradual change water collecting device (40), the outer wall of the gradual change water collecting device (40) is attached to the inner wall of the outer frame (42), and the top of the gradual change water collecting device (40) is in clearance fit with the rear end of a key (3);

the gradual change water collecting device (40) comprises a water collecting capillary tube (401), a freezing rod (402), an isolating ring (403), a first drainage pipe (404) and a refrigerating rod (405), wherein the inside of the water collecting capillary tube (401) is connected with the inside of the freezing rod (402) in an embedded mode, the bottom of the freezing rod (402) is bonded with the upper end of the isolating ring (403), the bottom of the isolating ring (403) is fixedly connected with the top of the refrigerating rod (405), the outer wall of the refrigerating rod (405) is attached to the inside of the first drainage pipe (404), and the top of the first drainage pipe (404) is in clearance fit with the bottom of the isolating ring (403).

2. The dairy based workshop power switch protection device of claim 1, wherein: first drain pipe (404) comprises ring frame (4041), water ring groove (4042), ring frame (4041) outer wall and water ring groove (4042) inner wall structure as an organic whole, ring frame (4041) is hollow cylinder structure.

3. The dairy based workshop power switch protection device of claim 1, wherein: heating hot liquid ring (43) comprises water guide heating ring (430), magnetization pole (431), fixed ring frame (432), inside and the magnetization pole (431) of water guide heating ring (430) are inside to be connected for the electricity, magnetization pole (431) outer wall is connected for the draw-in groove with fixed ring frame (432) is inside, fixed ring frame (432) are hollow cyclic annular dish structure, water guide heating ring (430) middle-end and cold-stored pole (405) are laminated mutually.

4. The dairy based workshop power switch protection device of claim 3, wherein: the water guide heating ring (430) is composed of a conjunction hole (4301), a heating ring (4302), a second drain pipe (4303) and a fixing block (4304), the inner wall of the fixing block (4304) is in clearance fit with the outer wall of the heating ring (4302), the outer wall of the heating ring (4302) and the side end of the second drain pipe (4303) are of an integrated structure, and the exterior of the conjunction hole (4301) is attached to the inner wall of the heating ring (4302) in a comparison manner.