CN218951060U - Net heat all-in-one - Google Patents

Abstract

The application discloses net heat all-in-one, including support skeleton with install in support skeleton's electronic control unit, electronic control unit includes the automatically controlled box and is located automatically controlled board in the automatically controlled box, support skeleton and/or the automatically controlled box is equipped with the manger plate muscle that prevents that the automatically controlled board from intaking, manger plate muscle is followed the lateral part and/or the upper portion extension of automatically controlled board. The utility model discloses a net heat all-in-one is equipped with the manger plate muscle that prevents the automatically controlled board and advance water through at automatically controlled box and/or braced skeleton, manger plate muscle is along the lateral part and/or the upper portion extension of automatically controlled board, can utilize the manger plate muscle to separate the pipeline of traveling water on with braced skeleton, realize water and electricity separation, promote the waterproof effect of automatically controlled unit, under the blockking of manger plate muscle, water can not enter into the inside of automatically controlled box, avoided automatically controlled board and water contact, reduce the automatically controlled board and meet the risk that water damaged and the user electrocuted, improved the life of the electronic components in the automatically controlled unit, guaranteed user's safety.

Description

Net heat all-in-one

Technical Field

The application relates to the technical field of water purifiers, in particular to a heat purifying and integrating machine.

Background

Along with the promotion of economic development and living standard, consumers pay more and more attention to healthy water and drinking water, and the use requirement on water is also higher and higher. The water purifier is accepted and favored by more and more consumers as water treatment equipment capable of performing deep filtration and purification treatment on water quality according to the use requirement of the water. At present, a pure heat integrated machine appears in the market, so that a consumer can simultaneously take normal-temperature water purification and hot water and gradually replace an old water purifier with a single water purification function.

The supporting framework of the heat-purifying integrated machine is provided with the structures such as the filtering unit, the heating unit and the waterway plate, so that water flow exchange among the filtering unit, the heating unit and the waterway plate is realized, a plurality of water flowing pipelines are required to be arranged on the supporting framework, the water flowing pipelines have a certain water leakage risk, and once the waterproof measure of the whole machine electric control unit is insufficient, the possibility of contact between the electric control plate and water exists, so that the damage of electronic components in the whole machine electric control unit is caused, even the risk of electric shock of a user exists, the maintenance cost of the user is increased, and bad use experience is brought.

Disclosure of Invention

The application provides a net heat all-in-one to solve above-mentioned automatically controlled board and contact with water easily and damage, exist among the technical problem such as electric shock risk.

The technical scheme adopted by the application is as follows:

the utility model provides a net heat all-in-one, includes support skeleton and install in support skeleton's electronic control unit, electronic control unit includes the automatically controlled box and is located automatically controlled board in the automatically controlled box, support skeleton and/or the automatically controlled box is equipped with the manger plate muscle that prevents automatically controlled board water inlet, manger plate muscle is followed the lateral part and/or the upper portion extension of automatically controlled board.

The net heat all-in-one machine in the application also has the following additional technical characteristics:

the electric control unit stands in one side of supporting framework along vertical direction, the electric control box includes box body and lid, the box body with the lid cooperation forms and is used for installing the installation cavity of automatically controlled board, the box body is fixed in supporting framework, the manger plate muscle is including locating the top of box body and the last manger plate muscle that extends along horizontal direction, the lid lock joint is in go up the below of manger plate muscle, go up the projection of manger plate muscle on the horizontal plane and cover the projection of the topside of lid on the horizontal plane.

The lateral part of automatically controlled box is equipped with by the box body with the first wiring hole that the lid cooperation formed, the manger plate muscle still includes and is used for sheltering from the first manger plate muscle of first wiring hole, first manger plate muscle with the one end of last manger plate muscle links firmly and extends downwards to the below of first wiring hole.

The lateral part of automatically controlled box is equipped with by the box body with the second wiring hole that the lid cooperation formed, first wiring hole with the second wiring hole is located the same side of automatically controlled box, just the second wiring hole is located the below of first wiring hole, the manger plate muscle still includes and is used for sheltering from the second manger plate muscle of second wiring hole, second manger plate muscle one end with box body or lid link firmly, and the other end orientation downwardly extending extremely the below of second wiring hole.

The water retaining ribs further comprise wiring water retaining ribs formed on the supporting framework, the wiring water retaining ribs are arranged on the side portion of the electric control box and extend along the first wiring holes and the second wiring holes, and the wiring water retaining ribs, the first water retaining ribs and the second water retaining ribs enclose a wiring area for arranging wiring harnesses.

The bottom of the electric control box is provided with a third wiring hole formed by matching the box body and the box cover.

The bottom edge of the box cover is coated at the bottom of the box body.

The electric control box is vertically erected on one side of the supporting framework, a wiring hole for penetrating a wiring harness is formed in the side portion and/or the bottom of the electric control box, the wiring harness comprises a waterproof bending line segment located on the outer side of the electric control box, and the height of the waterproof bending line segment in the vertical direction is lower than that of the wiring hole.

The support framework is provided with a plurality of screw columns used for fixing the electric control box, at least one screw column is located below the wiring hole, and the wire harness winds the screw columns to form a waterproof bending line segment.

The support skeleton is equipped with first holding chamber and the second holding chamber that is used for installing the filter core, first holding chamber with the second holding chamber is arranged side by side along vertical direction, first holding chamber with connect through booster pump mounting structure between the second holding chamber, booster pump mounting structure include the backshell with detachably connect in the pump cover of backshell, the inboard of pump cover with the backshell encloses into the installation space that is used for installing the booster pump, automatically controlled unit install in the outside of pump cover.

Due to the adoption of the technical scheme, the technical effects obtained by the application are as follows:

1. in the net heat all-in-one that this application provided, through being equipped with the manger plate muscle that prevents the automatically controlled board and advance water at automatically controlled box and/or braced skeleton, the manger plate muscle extends along the lateral part and/or the upper portion of automatically controlled board, during concrete implementation, can utilize the manger plate muscle to separate the automatically controlled board with the pipeline of walking on braced skeleton, realize water and electricity separation, promote the waterproof effect of automatically controlled unit, in case the pipeline of walking takes place to leak, under the baffle of manger plate muscle, water can not enter into the inside of automatically controlled box, avoided automatically controlled board and water contact, reduce the automatically controlled board and meet the risk that water damaged and the user electrocuted, the life of the electronic components in the automatically controlled unit has been improved, user's safety has been guaranteed.

2. As a preferred mode of this application, automatically controlled unit stands in support skeleton's one side along vertical direction, helps practicing thrift the space of net heat all-in-one along horizontal direction, does benefit to the frivolity of net heat all-in-one. On this basis, through making the top of box body be equipped with the last manger plate muscle that extends along horizontal direction, the lid lock joint is in the below of last manger plate muscle, go up the projection of the topside of manger plate muscle on the horizontal plane cover lid on the horizontal plane for go up the manger plate muscle and shelter from the lid comprehensively in the top of lid, when the pipeline of walking water that is located the automatically controlled unit top appears leaking, water falls on last manger plate muscle, can not follow the topside of lid towards the fit clearance flow at box body and lid top, and then prevent that water from entering into the installation cavity of automatically controlled box through the fit clearance at box body and lid top, guaranteed the waterproof nature of automatically controlled unit.

3. As a preferred mode of this application, link firmly and extend to the below of first wiring hole downwards through first manger plate muscle and the one end of last manger plate muscle, realize the shielding to first wiring hole, when the water pipeline play water that is located the top of automatically controlled unit or side leaks or splashes water, first manger plate muscle will water block, water can not enter into in the automatically controlled box through first wiring hole, consequently, on the basis that does not influence first wiring hole arrangement pencil, still realized the waterproof of first wiring hole.

4. As a preferred manner of the present application, the first routing hole and the second routing hole may be used for different wire harness arrangements, respectively. One end of the second water retaining rib is fixedly connected with the box body or the box cover, the other end of the second water retaining rib extends downwards to the lower side of the second wiring hole, shielding of the second wiring hole is achieved, when water is discharged from a water feeding pipeline above or at the side of the electric control unit to leak or splash, the second water retaining rib blocks water, and water cannot enter the electric control box through the second wiring hole, so that water prevention of the second wiring hole is achieved on the basis that wiring harnesses are not arranged in the second wiring hole.

5. As a preferred mode of this application, the line manger plate muscle that walks that braced frame set up encloses into the line district that walks that is used for arranging the pencil together with first manger plate muscle, second manger plate muscle, and with the pencil arrange behind the line district of walking, walk line manger plate muscle and walk line district with the water piping on the braced frame, avoid walking the water piping towards walking line district and splash, simultaneously, walk the existence of line manger plate muscle and also further promoted the waterproof effect of first line hole and second line hole.

6. As a preferred mode of the electronic control unit, the bottom edge of the box cover is covered at the bottom of the box body, so that even if water leaks from the water supply pipeline above the electronic control unit to the box cover, water does not enter the electronic control box through the matching clearance between the box cover and the bottom of the box body when flowing downwards along the outer surface of the box cover.

7. As a preferred mode of this application, waterproof buckling line section highly is less than the wiring hole in vertical direction, because of rivers can not antigravity automatic upward flow, consequently, the setting of waterproof buckling line section has avoided the splash water on the pencil to flow along the pencil upwards and enter into the automatically controlled box through the wiring hole.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute an undue limitation to the application. In the drawings:

fig. 1 is a schematic structural diagram of a net heat integrated machine according to an embodiment of the present disclosure;

FIG. 2 is a cross-sectional view of a net heat integration machine provided by an embodiment of the present application;

FIG. 3 is an enlarged view of a portion of the structure at A in FIG. 2;

fig. 4 is a schematic structural diagram of an electronic control unit according to an embodiment of the present application;

FIG. 5 is a cross-sectional view of an electronic control unit provided in an embodiment of the present application;

fig. 6 is a schematic structural diagram of a pump cover of the electronic control unit and the supporting framework according to the embodiment of the present application;

fig. 7 is a schematic structural diagram of a pump cover of a support frame according to an embodiment of the present disclosure.

Reference numerals:

the device comprises a supporting framework 1, a wiring water retaining rib 11, a wiring area 12, a screw column 13, a first accommodating cavity 14, a second accommodating cavity 15, a rear shell 16 and a pump cover 17;

2 electric control box, 21 box body, 211 upper water bar, 212 first water bar, 213 second water bar, 22 box cover, 221 top edge, 222 bottom edge, 23 first wiring hole, 24 second wiring hole, 25 third wiring hole; and 3, an electric control board.

Detailed Description

In order to more clearly illustrate the general concepts of the present application, a detailed description is provided below by way of example in connection with the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced otherwise than as described herein, and thus the scope of the present application is not limited by the specific embodiments disclosed below.

In addition, in the description of the present application, it should be understood that the terms "upper," "lower," "top," "bottom," "inner," "outer," "axial," "radial," "circumferential," "transverse," "longitudinal," etc. indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, are merely for convenience in describing the present application and simplifying the description, and do not indicate or imply that the devices or elements being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present application.

In this application, unless specifically stated and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; the device can be mechanically connected, electrically connected and communicated; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be.

In this application, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

In the embodiments of the present application, a heat-purifying all-in-one machine is provided, and for convenience of explanation and understanding, the following descriptions are provided based on the structure of the illustrated product. Of course, those skilled in the art will appreciate that the foregoing structure is merely exemplary and illustrative and is not to be construed as limiting the scope of the embodiments provided herein.

Referring to fig. 1 to 3, the utility model provides a net heat all-in-one, including support skeleton 1 with install in the automatically controlled unit of support skeleton 1, automatically controlled unit includes automatically controlled box 2 and is located automatically controlled board 3 in the automatically controlled box 2, support skeleton 1 and/or automatically controlled box 2 is equipped with the manger plate muscle that prevents automatically controlled board 3 water inflow, manger plate muscle is followed the lateral part and/or the upper portion extension of automatically controlled board 3.

Specifically, the water retaining ribs can be independently arranged on the electric control box 2 or on the supporting framework 1, and as a preferred embodiment, the water retaining ribs can be arranged on the electric control box 2 and the supporting framework 1, so that the double waterproof effect is achieved, and the waterproof effect is improved. The water blocking ribs can extend only along the side part of the electric control plate 3, can also extend only along the upper part of the electric control plate 3, and can be arranged along the side part and the upper part of the electric control plate 3 in an extending manner as a preferred embodiment, and can prevent water leakage of the water flowing pipelines above and beside the electric control unit towards the electric control plate. The person skilled in the art can understand that, through being equipped with the manger plate muscle that prevents that automatically controlled board 3 from intaking at automatically controlled box 2 and braced skeleton 1, manger plate muscle extends along the lateral part and the upper portion of automatically controlled board 3, during concrete implementation, can utilize manger plate muscle to separate the pipeline of walking water of arranging on with braced skeleton 1 automatically controlled board 3, realize water and electricity separation, promote the waterproof effect of automatically controlled unit, in case the pipeline of walking water takes place to leak, under the baffle of manger plate muscle, water can not enter into the inside of automatically controlled box 2, avoided automatically controlled board 3 and water contact, reduce automatically controlled board 3 and meet the risk of water damage and user's electric shock, the life of the electronic components in the automatically controlled unit has been improved, and user's safety has been guaranteed.

As a preferred embodiment of the present application, as shown in fig. 1 to 3, the electronic control unit may stand on one side of the supporting framework 1 along a vertical direction, the electronic control box 2 includes a box body 21 and a box cover 22, the box body 21 and the box cover 22 cooperate to form an installation cavity for installing the electronic control board 3, the box body 21 is fixed on the supporting framework 1, the water blocking ribs include an upper water blocking rib 211 disposed on the top of the box body 21 and extending along a transverse direction, the box cover 22 is fastened under the upper water blocking rib 211, and a projection of the upper water blocking rib 211 on a horizontal plane covers a projection of a top edge 221 of the box cover 22 on the horizontal plane.

As can be appreciated by those skilled in the art, the electronic control unit stands on one side of the supporting framework 1 along the vertical direction, which is helpful for saving the space of the heat-purifying integrated machine along the horizontal direction and is beneficial for lightening and thinning the heat-purifying integrated machine. On the basis, the water flowing pipeline above the electric control unit becomes the largest risk factor of water leakage towards the electric control plate 3, therefore, by arranging the upper water retaining rib 211 extending along the transverse direction at the top of the box body 21, the box cover 22 is fastened below the upper water retaining rib 211, the projection of the upper water retaining rib 211 on the horizontal plane covers the projection of the top edge 221 of the box cover 22 on the horizontal plane, the upper water retaining rib 211 comprehensively shields the box cover 22 above the box cover 22, when the water flowing pipeline above the electric control unit leaks, water falls on the upper water retaining rib 211 and cannot flow towards the matching clearance between the box body 21 and the top of the box cover 22 along the top edge 221 of the box cover 22, and water is prevented from entering the installation cavity of the electric control box 2 through the matching clearance between the box body 21 and the top of the box cover 22, so that the water resistance of the electric control unit is ensured. Specifically, the case body 21 and the case cover 22 of the electric control case 2 may be detachably connected together by a clip, a screw, or the like, and the case body 21 may also be detachably fixed to the support frame 1 by a clip, a screw, or the like. In order to facilitate the water falling onto the upper water blocking rib 211 to flow downwards to avoid the accumulated water, the top surface of the upper water blocking rib 211 may be set to be an inclined surface, and the accumulated water is guided to flow downwards from the electronic control box 2 by the inclined surface.

As a preferred example in this embodiment, as shown in fig. 4 and fig. 5, a first routing hole 23 formed by matching the box body 21 and the box cover 22 may be provided on a side portion of the electric control box 2, and the water blocking rib further includes a first water blocking rib 212 for blocking the first routing hole 23, where the first water blocking rib 212 is fixedly connected with one end of the upper water blocking rib 211 and extends downward to below the first routing hole 23.

It can be understood by those skilled in the art that the first water blocking rib 212 is fixedly connected with one end of the upper water blocking rib 211 and extends downwards to the lower side of the first routing hole 23, so that the first routing hole 23 is blocked, when the water leakage or splashing occurs in the water outlet of the water outlet pipeline above or beside the electric control unit, the first water blocking rib 212 blocks water, and the water cannot enter the electric control box 2 through the first routing hole 23, so that the water prevention of the first routing hole 23 is realized on the basis that the wiring harness is not influenced by the arrangement of the first routing hole 23. Specifically, the first water blocking rib 212 and the upper water blocking rib 211 can be integrally formed, so that the water blocking rib processing technology can be simplified, and a water passing gap between the upper water blocking rib 211 and the first water blocking rib 212 can be avoided. Wherein the first routing hole 23 may be used for routing a strong current connected to a power source.

Further, as shown in fig. 4 and 5, the side portion of the electric control box 2 is provided with a second wiring hole 24 formed by matching the box body 21 and the box cover 22, the first wiring hole 23 and the second wiring hole 24 are located on the same side of the electric control box 2, the second wiring hole 24 is located below the first wiring hole 23, the water blocking rib further comprises a second water blocking rib 213 for blocking the second wiring hole 24, one end of the second water blocking rib 213 is fixedly connected with the box body 21 or the box cover 22, and the other end of the second water blocking rib extends downwards below the second wiring hole 24.

It can be understood by those skilled in the art that the first routing hole 23 and the second routing hole 24 are located on the same side of the electronic control box 2, so that the wire harness is convenient to be arranged in a concentrated manner on the same side of the electronic control box 2, and the water blocking ribs are convenient to be arranged on the same side of the electronic control box 2, and the structure of the water blocking ribs is simplified. The first routing holes 23 and the second routing holes 24 may be used to route different wire harnesses, respectively, and in particular, the second routing holes 24 may be used to route strong electricity connected to the heating unit. The embodiment that the second water retaining rib 213 is formed in the box body 21 is schematically depicted in the embodiment that the second water retaining rib 213 is fixedly connected with the box body 21, one end of the second water retaining rib 213 is fixedly connected with the box body 21, the other end of the second water retaining rib extends downwards to the lower side of the second wiring hole 24, shielding of the second wiring hole 24 is achieved, when water is discharged or splashed from a water discharge pipeline above or beside an electric control unit, the second water retaining rib 213 blocks water, and water cannot enter the electric control box 2 through the second wiring hole 24, so that water prevention of the second wiring hole 24 is achieved on the basis that wiring harness arrangement of the second wiring hole 24 is not affected.

Still further, as shown in fig. 1, 4 and 6, the water bar further includes a routing water bar 11 formed on the supporting frame 1, the routing water bar 11 is on a side of the electric control box 2 and extends along the first routing hole 23 and the second routing hole 24, and the routing water bar 11, the first water bar 212 and the second water bar 213 together enclose a routing area 12 for arranging a wire harness.

It can be understood by those skilled in the art that the wiring water-retaining rib 11 that the supporting framework 1 sets up encloses into the wiring area 12 that is used for arranging the pencil together with first water-retaining rib 212, second water-retaining rib 213, arrange the pencil behind the wiring area 12 with the pencil, the wiring water-retaining rib 11 can separate the water pipeline of walking on the supporting framework 1 with the wiring area 12, avoid the water pipeline to splash towards the wiring area 12, simultaneously, can arrange the water pipeline of walking on the supporting framework 1 in the one side of the wiring water-retaining rib 11 that deviates from the automatically controlled unit, make the wiring water-retaining rib 11 and first water-retaining rib 212, second water-retaining rib 213 form dual water-retaining barrier, play dual manger plate effect to first wiring hole 23 and second wiring hole 24, further promote the water-proof effects of first wiring hole 23 and second wiring hole 24.

As a preferred example of this embodiment, as shown in fig. 5, a third wiring hole 25 formed by matching the box body 21 and the box cover 22 is provided at the bottom of the electronic control box 2. Specifically, the third wiring hole 25 may be used for routing weak current connected to a booster pump, a self-priming pump, an electromagnetic valve, and the like, which are provided on the heat-purifying integrated machine. Because the water cannot flow upwards against the gravity, the third wiring hole 25 is arranged at the bottom of the electric control box 2 and cannot easily enter water.

As a preferred example of this embodiment, as shown in fig. 3, the bottom edge 222 of the box cover 22 may be covered on the bottom of the box body 21. As will be appreciated by those skilled in the art, by wrapping the bottom edge 222 of the lid 22 around the bottom of the case 21, even if the water leaking from the water supply line above the electronic control unit flows onto the lid 22, water does not enter the electronic control box 2 through the fit gap between the lid 22 and the bottom of the case 21 when flowing down the outer surface of the lid 22.

As a preferred embodiment of the present application, all the foregoing embodiments and examples of the present application may further enable the electronic control box 2 to stand on one side of the supporting framework 1 along a vertical direction, a wiring hole for threading a wire harness is provided on a side portion and/or a bottom portion of the electronic control box 2, the wire harness includes a waterproof bending line segment located on an outer side of the electronic control box 2, and a height of the waterproof bending line segment in the vertical direction is lower than the wiring hole.

Taking the foregoing embodiment as an example, the trace holes may be the first trace hole 23, the second trace hole 24, and the third trace hole 25 described above. The wire bundles passing through the first wire hole 23, the second wire hole 24 and the third wire hole 25 can be made into waterproof bending line segments, namely, the wire bundles passing through the first wire hole 23, the second wire hole 24 and the third wire hole 25 need to be bent downwards to form waterproof bending line segments and then are arranged upwards to be connected with other parts. As will be appreciated by those skilled in the art, the height of the waterproof bending line segment in the vertical direction is lower than the wire holes, that is, the waterproof bending line segment formed by the wire harness passing through the first wire hole 23 is lower than the first wire hole 23, the waterproof bending line segment formed by the wire harness passing through the second wire hole 24 is lower than the second wire hole 24, the waterproof bending line segment formed by the wire harness passing through the third wire hole 25 is lower than the third wire hole 25, and the water does not flow upwards automatically due to the counter gravity of the water flow, so that the arrangement of the waterproof bending line segment prevents the water sputtered on the wire harness from flowing upwards along the wire harness and entering the electronic control box 2 through each wire hole.

Regarding the forming mode of the waterproof bending line section of the wire harness, the supporting framework 1 may be provided with a plurality of screw columns for fixing the electric control box 2, at least one screw column is located below the routing hole, and the wire harness winds around the screw columns to form the waterproof bending line section.

Taking the above-mentioned first wiring hole 23 and the second wiring hole 24 provided on one side of the electric control box 2 shown in fig. 4 as an example, as shown in fig. 6 and 7, the support frame 1 may be provided with the screw post 13 below the second wiring hole 24, and the wire harness passing through the first wiring hole 23 and the second wiring hole 24 is bent downward and bypasses the screw post 13 to form a waterproof bending line segment, and then is routed upward, so that the screw post 13 may maintain the shape of the waterproof bending line segment.

Regarding the specific structure of the supporting framework 1, as a preferred embodiment of the present application, as shown in fig. 1, 2, 6 and 7, all the foregoing embodiments and examples of the present application may further enable the supporting framework 1 to be provided with a first accommodating cavity 14 and a second accommodating cavity 15 for installing a filter element, where the first accommodating cavity 14 and the second accommodating cavity 15 are arranged side by side along a vertical direction, the first accommodating cavity 14 and the second accommodating cavity 15 are connected through a booster pump installation structure, and the booster pump installation structure includes a rear housing 16 and a pump cover 17 detachably connected to the rear housing 16, an installation space for installing a booster pump is defined by an inner side of the pump cover 17 and the rear housing 16, and the electronic control unit is installed on an outer side of the pump cover 17. Specifically, the first accommodating cavity 14 and the second accommodating cavity 15 may both extend along the transverse direction, the second accommodating cavity 15 is located above the first accommodating cavity 14, and the whole machine of the heat-purifying integrated machine is arranged transversely. The pump cover 17 not only can be used for being matched with the rear shell 16 to cover the booster pump, but also provides a mounting position and structural support for the electric control unit, makes full use of the mounting space between the first accommodating cavity 14 and the second accommodating cavity 15, and promotes the structural compactness of the whole machine.

The non-mentioned places in the application can be realized by adopting or referring to the prior art.

In this specification, each embodiment is described in a progressive manner, and identical and similar parts of each embodiment are all referred to each other, and each embodiment mainly describes differences from other embodiments.

The foregoing is merely exemplary of the present application and is not intended to limit the present application. Various modifications and changes may be made to the present application by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc. which are within the spirit and principles of the present application are intended to be included within the scope of the claims of the present application.

Claims (10)

1. The utility model provides a net heat all-in-one, includes support skeleton and install in support skeleton's automatically controlled unit, its characterized in that, automatically controlled unit includes automatically controlled box and is located automatically controlled board in the automatically controlled box, support skeleton and/or automatically controlled box is equipped with the manger plate muscle that prevents automatically controlled board water intaking, manger plate muscle is followed the lateral part and/or the upper portion extension of automatically controlled board.

2. A net heat all-in-one machine as defined in claim 1, wherein,

the electric control unit stands in one side of supporting framework along vertical direction, the electric control box includes box body and lid, the box body with the lid cooperation forms and is used for installing the installation cavity of automatically controlled board, the box body is fixed in supporting framework, the manger plate muscle is including locating the top of box body and the last manger plate muscle that extends along horizontal direction, the lid lock joint is in go up the below of manger plate muscle, go up the projection of manger plate muscle on the horizontal plane and cover the projection of the topside of lid on the horizontal plane.

3. A net heat all-in-one machine as defined in claim 2, wherein,

the lateral part of automatically controlled box is equipped with by the box body with the first wiring hole that the lid cooperation formed, the manger plate muscle still includes and is used for sheltering from the first manger plate muscle of first wiring hole, first manger plate muscle with the one end of last manger plate muscle links firmly and extends downwards to the below of first wiring hole.

4. A net heat all-in-one machine as defined in claim 3, wherein,

the lateral part of automatically controlled box is equipped with by the box body with the second wiring hole that the lid cooperation formed, first wiring hole with the second wiring hole is located the same side of automatically controlled box, just the second wiring hole is located the below of first wiring hole, the manger plate muscle is still including being used for sheltering from the second manger plate muscle of second wiring hole, second manger plate muscle one end with box body or lid link firmly, the other end orientation downwardly extending to the below of second wiring hole.

5. A net heat all-in-one machine as set forth in claim 4, wherein,

the water retaining ribs further comprise wiring water retaining ribs formed on the supporting framework, the wiring water retaining ribs are arranged on the side portion of the electric control box and extend along the first wiring holes and the second wiring holes, and the wiring water retaining ribs, the first water retaining ribs and the second water retaining ribs enclose a wiring area for arranging wiring harnesses.

6. A net heat all-in-one machine as defined in claim 2, wherein,

the bottom of the electric control box is provided with a third wiring hole formed by matching the box body and the box cover.

7. A net heat all-in-one machine as defined in claim 2, wherein,

the bottom edge of the box cover is coated at the bottom of the box body.

8. A net heat all-in-one machine as defined in claim 1, wherein,

the electric control box is vertically erected on one side of the supporting framework, a wiring hole for penetrating a wiring harness is formed in the side portion and/or the bottom of the electric control box, the wiring harness comprises a waterproof bending line segment located on the outer side of the electric control box, and the height of the waterproof bending line segment in the vertical direction is lower than that of the wiring hole.

9. A net heat all-in-one machine as defined in claim 8, wherein,

the support framework is provided with a plurality of screw columns used for fixing the electric control box, at least one screw column is located below the wiring hole, and the wire harness winds the screw columns to form a waterproof bending line segment.

10. A net heat all-in-one machine as claimed in any one of claims 1 to 9, wherein,

the support skeleton is equipped with first holding chamber and the second holding chamber that is used for installing the filter core, first holding chamber with the second holding chamber is arranged side by side along vertical direction, first holding chamber with connect through booster pump mounting structure between the second holding chamber, booster pump mounting structure include the backshell with detachably connect in the pump cover of backshell, the inboard of pump cover with the backshell encloses into the installation space that is used for installing the booster pump, automatically controlled unit install in the outside of pump cover.

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