CN220588139U - Infant bathtub with temperature display - Google Patents

Abstract

The utility model discloses a baby bathtub with a temperature display, which comprises a bathtub body, a temperature display, a temperature sensing head and a metal heat conducting piece, wherein the temperature display is arranged on the bathtub body; the basin body comprises a bottom and a peripheral side part, the basin body is in a cuboid shape, and the peripheral side part comprises a pair of first side walls with smaller width and a pair of second side walls with longer width; the temperature display is arranged at the upper position of the first side wall, and the temperature sensing head is arranged at the bottom close to the first side wall; the temperature display is connected with the temperature sensing head through a wire; the metal heat conduction piece comprises a round connecting part at the front end and a round pressing part at the rear end, a round concave hole is formed in the rear side of the metal heat conduction piece, and a mounting hole communicated with the round concave hole is formed in the center of the round connecting part; the circular connecting part and the bottom of the bathtub body are integrally injection molded together, the temperature sensing head is tightly inserted into the mounting hole in a matching way, and the water temperature in the bathtub is transmitted to the temperature sensor through the metal heat conducting piece; the sensitivity and the accuracy of temperature measurement are ensured, and the installation stability of the heat conduction component is ensured.

Description

Infant bathtub with temperature display

Technical Field

The utility model relates to a baby bathtub, in particular to a baby bathtub with a temperature display, wherein a temperature sensing element measures the water temperature in the bathtub in real time and displays the water temperature by a display, so that a user can know the water temperature in the bathtub in real time and control the baby bathtub rhythm.

Background

The utility model provides a take intelligent temperature suggestion formula baby bathtub of publication number CN105193326A, through the temperature-sensing ware with be provided with intelligent temperature display screen on the bathtub, can know the problem of the bath water in the bathtub accurately, set for an optimum bath temperature for the infant, intelligent temperature display screen adopts waterproof technique to handle.

The temperature sensor is exposed to the inner surface of the tub bottom to better contact the bath water. The temperature sensor is connected with the display screen by a wire or in a wireless mode because a certain distance is reserved between the temperature sensor and the display screen.

When the lead is adopted, a through hole is arranged at the bottom of the bathtub so that the temperature sensor can penetrate into the inner side of the bottom of the bathtub, and meanwhile, a sealing piece is arranged in the through hole so as to seal the through hole to avoid water leakage.

The above arrangement has the following problems: 1. the high water pressure in the bathtub can influence the installation firmness of the sealing element, and water leakage phenomenon can occur. 2. The temperature sensor is directly exposed in the basin bottom, and two sides of the temperature sensor are wrapped by plastic, so that the problems of insufficient contact with bath water in the basin body and insufficient temperature measurement precision may exist.

Disclosure of Invention

The utility model provides a child bathtub with temperature display, which is capable of preventing water leakage and high in temperature measurement precision, and solves the problems of water leakage and insufficient temperature measurement precision caused by a mounting structure of an existing temperature sensor at the bottom of the bathtub.

The technical scheme adopted for solving the technical problems is as follows: the infant bathtub with the temperature display comprises a bathtub body, a temperature display, a temperature sensing head and a metal heat conducting piece;

the basin body comprises a bottom and a peripheral side part, the basin body is in a cuboid shape, and the peripheral side part comprises a pair of first side walls with smaller width and a pair of second side walls with longer width;

the temperature display is arranged at the position above the first side wall, and the temperature sensing head is arranged at the bottom close to the first side wall; the temperature display is connected with the temperature sensing head through a wire;

the metal heat conduction piece comprises a round connecting part at the front end and a round pressing part at the rear end, a round concave hole is formed in the rear side of the metal heat conduction piece, and a mounting hole communicated with the round concave hole is formed in the center of the round connecting part;

the circular connecting part and the bottom of the bathtub body are integrally injection molded together, the temperature sensing head is inserted into the mounting hole in a tight fit manner, and the water temperature in the bathtub is transferred to the temperature sensor through the metal heat conducting piece.

The further preferable technical scheme of the utility model is as follows: the front surface of the circular connecting part is flush with the front surface of the bottom of the bathtub;

the mounting hole is a through hole, and the front end of the temperature sensing head is flush with the front surface of the circular connecting part;

the wall surface of the bottom where the through hole is located seals the through hole to avoid water leakage.

The further preferable technical scheme of the utility model is as follows: the mounting hole is a blind hole, and the temperature sensing head extends into the blind hole;

the outer end of the temperature sensing head is flush with the bottom end of the blind hole, or the outer end of the temperature sensing head is higher than the bottom end of the blind hole.

The further preferable technical scheme of the utility model is as follows: the metal heat conducting piece outer cover is provided with a protective cover, and a connecting hole is formed in the protective cover;

mounting columns are arranged on the bottom walls of the two sides of the metal heat conducting piece; the mounting column is matched with the connecting hole to fix the protective cover.

The further preferable technical scheme of the utility model is as follows: two guide ribs are arranged at intervals on one side of the metal heat conducting piece, and a guide groove for placing at least part of the lead is formed between the two guide ribs;

the guide rib extends along the outer side wall of the basin body so as to be matched with the routing path of the lead.

The further preferable technical scheme of the utility model is as follows: the starting end of the guide rib exceeds the transition section of the bottom and the peripheral side part, and the ending end of the guide rib is clung to the outer side wall of the protective cover which is covered outside the metal heat conducting piece.

Another preferred subject matter: the infant bathtub with the temperature display comprises a bathtub body, a temperature sensing head and a metal heat conduction piece with a concave hole;

the metal heat conduction piece is arranged at the bottom of the basin body and is integrally injection molded with the bottom of the basin body;

at least one part of the metal heat conducting piece is embedded into the bottom wall surface of the basin body and forms one part of the bottom of the basin body, so that the metal heat conducting piece can be directly contacted with bath soup in the basin body;

the metal heat conduction piece comprises a pressing part and a connecting part, wherein the outer end of the pressing part transversely extends beyond the outer end of the connecting part to form a radial section, and a limiting effect in the longitudinal direction is formed between the upper wall or the lower wall of the radial section and the wall surface of the bottom of the basin body;

the temperature sensing head is placed in the concave hole and is in close contact with the connecting part so as to receive the water temperature conducted by the metal heat conducting piece.

The further preferable technical scheme of the utility model is as follows: the basin body comprises a bottom and a peripheral side part; the connecting portion is flush with the inner wall surface of the bottom, and the temperature sensing head is closely attached to the inner wall surface of the connecting portion.

The further preferable technical scheme of the utility model is as follows: the center of the connecting part is provided with a mounting hole communicated with the concave hole;

the temperature sensing head is inserted into the mounting hole in a tight fit manner;

the mounting hole is a through hole, and the outer end of the temperature sensing head does not extend beyond the through hole.

The further preferable technical scheme of the utility model is as follows: the mounting hole is a blind hole, and the outer end of the temperature sensing head is clung to the bottom end of the blind hole, or the outer end of the temperature sensing head is higher than the bottom end of the blind hole.

The further preferable technical scheme of the utility model is as follows: the metal heat conducting piece outer cover is provided with a protective cover, and a connecting hole is formed in the protective cover;

mounting columns are arranged on the bottom walls of the two sides of the metal heat conducting piece; the mounting column is matched with the connecting hole to fix the protective cover.

The further preferable technical scheme of the utility model is as follows: two guide ribs are arranged at intervals on one side of the metal heat conducting piece, and a guide groove for placing at least part of the lead is formed between the two guide ribs;

the guide ribs extend along the outer side wall of the basin body so as to be matched with the routing paths of the wires;

the starting end of the guide rib exceeds the transition section of the bottom and the peripheral side part of the basin body, and the ending end of the guide rib is clung to the outer side wall of the protective cover which is covered outside the metal heat conducting piece.

Another preferred subject matter: comprises a basin body, a temperature display, a temperature sensing head and a metal heat conduction piece;

the basin body comprises a bottom and a peripheral side part, the cross section of the basin body is similar to a rectangle, and the peripheral side part comprises a pair of first side walls with smaller width and a pair of second side walls with longer width;

the temperature display is arranged at the position above the first side wall, and the temperature sensing head is arranged at the bottom close to the first side wall; the temperature display is connected with the temperature sensing head through a wire;

the metal heat conducting piece is integrally injection molded at the bottom of the basin body, and a concave hole with an outward opening is formed in the rear side of the metal heat conducting body;

the metal heat conduction piece comprises a connecting part at the front end and a pressing part at the rear end, and a mounting hole communicated with the concave hole is formed in the center of the connecting part;

the temperature sensing head is placed in the concave hole and is inserted into the mounting hole in a tight fit mode, and water temperature in the bathtub is transferred to the temperature sensor through the metal heat conducting piece.

The further preferable technical scheme of the utility model is as follows: the pressing part is pressed on the outer side of the bottom, and at least one part of the connecting part is embedded into the wall surface of the bottom;

the mounting holes are blind holes or through holes.

The further preferable technical scheme of the utility model is as follows: the metal heat conducting piece outer cover is provided with a protective cover, and a connecting hole is formed in the protective cover;

mounting columns are arranged on the bottom walls of the two sides of the metal heat conducting piece; the mounting column is matched with the connecting hole to fix the protective cover.

The further preferable technical scheme of the utility model is as follows: two guide ribs are arranged at intervals on one side of the metal heat conducting piece, and a guide groove for placing at least part of the lead is formed between the two guide ribs;

the guide ribs extend along the outer side wall of the basin body so as to be matched with the routing paths of the wires;

the starting end of the guide rib exceeds the transition section of the bottom and the peripheral side part of the basin body, and the ending end of the guide rib is clung to the outer side wall of the protective cover which is covered outside the metal heat conducting piece.

Compared with the prior art, the utility model has the advantages that: the bottom of the basin body is integrally injection-molded with a metal heat conducting piece, the metal heat conducting piece directly contacts bath soup in the basin body to conduct water temperature, the temperature sensing head is closely contacted with the metal heat conducting piece to accurately sense temperature, and the temperature is reacted to a temperature display connected with the temperature sensing head to be intuitively read by a user. The metal heat conducting piece is integrally injection molded at the bottom, so that the production and installation procedures are optimized, and the connection relationship is firmer and more stable. In addition, the metal heat conducting piece embedded in the bottom can be in more direct and full contact with bath soup to conduct temperature, and the temperature measurement is more accurate and sensitive.

Further, the metal heat conducting piece provided with the concave hole comprises a connecting part and a pressing part, and the connecting part is provided with a mounting hole. The outer end of the pressing part transversely extends beyond the outer end of the connecting part to form a radial section. The radial segment expands outwards transversely relative to the circular connecting part, so that the upper wall or the lower wall of the radial segment can form a limiting effect with the wall surface of the bottom of the basin body in the longitudinal direction. The stability of the installation of the metal heat conducting piece is further improved.

The temperature sensing head is placed into the concave hole and is tightly inserted into the mounting hole, so that the temperature sensing head can more directly and fully receive the temperature conducted by the metal heat conducting piece. Ensuring the accuracy and sensitivity of temperature measurement.

In addition, when the mounting hole is the through-hole, the mounting hole passes through sealing member seal arrangement with the week lateral wall of temperature-sensing head to under the circumstances of avoiding the infiltration in water. The temperature sensing head can not only receive temperature through the heat conduction of the metal heat conduction piece, but also can be directly contacted through the bath soup in the contact bathtub. At this time, the temperature sensor receives the water temperature through two channels, so that the temperature measurement is more accurate, quick and sensitive.

Drawings

The utility model will be described in further detail below in connection with the drawings and the preferred embodiments, but it will be appreciated by those skilled in the art that these drawings are drawn for the purpose of illustrating the preferred embodiments only and thus should not be taken as limiting the scope of the utility model. Moreover, unless specifically indicated otherwise, the drawings are merely schematic representations, not necessarily to scale, of the compositions or constructions of the described objects and may include exaggerated representations.

FIG. 1 is a schematic view of the entire structure of a baby bathtub;

FIG. 2 is a schematic diagram of the entire structure of the baby bathtub;

FIG. 3 is a schematic view of the entire structure of a baby bathtub;

FIG. 4 is a schematic view of the entire structure of a baby bathtub;

FIG. 5 is a schematic view of a partial structure of a baby bathtub;

FIG. 6 is a schematic view of a partial structure of a baby bathtub;

FIG. 7 is a schematic view of a partial structure of a baby bathtub;

FIG. 8 is an enlarged view of a partial structure at A in FIG. 4;

FIG. 9 is an enlarged view of a part of the structure at B in FIG. 5;

FIG. 10 is an enlarged view of a part of the structure at C in FIG. 6;

FIG. 11 is an enlarged view of a part of the structure at D in FIG. 7;

fig. 12 is a partial enlarged view of the metal heat conductive member mounting structure;

fig. 13 is a partial enlarged view of the metal heat conductive member mounting structure.

Detailed Description

Preferred embodiments of the present utility model will be described in detail below with reference to the accompanying drawings. Those skilled in the art will appreciate that these descriptions are merely illustrative, exemplary, and should not be construed as limiting the scope of the utility model.

As shown in fig. 1 to 4, a baby bathtub 100 with temperature display is provided. The tub 100 is accompanied by a temperature display function so that a user can more intuitively understand the temperature of bath water (including, but not limited to, bath water, water containing Chinese herbal medicines having healing function, etc.) in the tub.

The bathtub 100 in this embodiment mainly includes a bathtub body 10, a temperature display 20, a temperature sensing head 30, and a metal heat conduction member 40. A temperature display 20 is mounted on the tub 10 for displaying the temperature of the water. The metal heat conductive member 40 is installed at the bottom of the tub 10 for conducting the water temperature in the tub 10. The temperature sensing head 30 is closely contacted with the metal heat conductive member 40 so that the temperature sensing head 30 can rapidly, sensitively and accurately receive the water temperature in the tub conducted by the metal heat conductive member 40.

Wherein, the basin body 10 includes a bottom 11 and a peripheral side 12, the basin body 10 is cuboid, and the peripheral side 12 includes a pair of first lateral walls that width is less and a pair of second lateral walls that width is longer.

Preferably, the temperature display 20 in this embodiment is mounted at a position above the first side wall, and the temperature sensing head 20 is mounted near the bottom of the first side wall. The temperature display 20 and the temperature sensing head 30 are connected by a wire s. Both are located on the same side of the tub, and also facilitate routing of the conductors s.

The mounting process of the metal heat conducting piece 40 and the basin bottom 11 is integrated injection molding, so that the production process is optimized, and the metal heat conducting piece 40 and the plastic bottom 11 do not need to be additionally assembled. And the tightness of the part is further ensured by integral injection molding.

At least a part of the metal heat conductive member 40 is embedded in the bottom wall surface v of the bottom 11, and at the same time, the bottom of the metal heat conductive member 40 can be most directly and sufficiently contacted with the bath soup in the bathtub.

The metal heat conductive member 40 includes a pressing portion and a connecting portion, and preferably both the pressing portion and the connecting portion are circular in shape.

More specifically, as shown in fig. 12 and 13, the outer end of the circular pressing portion 42 laterally extends beyond the outer end of the circular connecting portion 41 to form a radial segment 47.

In the present embodiment, the radial segment 47 extends laterally outward with respect to the circular connecting portion 41, and thus, the upper wall or the lower wall of the radial segment 47 can form a limiting function in the longitudinal direction with the wall surface of the tub bottom 11.

At least a part of the circular connecting portion 41 is buried in the bottom wall surface v when the metal heat conductive member 40 is actually fixedly mounted; alternatively, the circular connecting portion 41 may be entirely embedded in the bottom wall surface v, and at least a part of the circular pressing portion 42 may be embedded in the bottom wall surface v, or even the circular pressing portion 42 may be entirely embedded in the bottom wall surface v. The radial segment 47 in each of the above cases can effectively form a limiting action in the longitudinal direction with the bottom wall surface v. The mounting firmness of the metal heat conducting member 40 is further ensured under the integrally formed production process, thereby ensuring the effectiveness and sufficiency of heat conduction thereof.

Further preferably, the circular connecting portion 41 in the present embodiment is flush with the wall surface of the bottom portion 11; i.e. the bottom end of the circular connecting part 41 and the wall surface of the bottom 11 are smooth and continuous planes, thereby ensuring more comfort when the infant is bathed.

In this case, as shown in fig. 9, the temperature sensor head 30 is closely attached to the inner wall surface f of the circular connecting portion 41. The water temperature conducted by the metal heat conductive member 40 can be effectively transferred to the temperature sensing head 30.

More specifically, a circular concave hole 43 is formed on the rear side of the metal heat conducting member 41, and the circular concave hole 43 is used for placing the temperature sensing head 30 therein.

Further, in other words, the center of the circular connecting portion 41 is provided with a mounting hole 44 communicating with the circular concave hole 43. In practical implementation, the circular connecting part 41 and the basin bottom 11 are integrally injection molded together, the temperature sensing head 30 is tightly inserted into the mounting hole 44, and the water temperature in the bathtub is transferred to the temperature sensing head 30 through the metal heat conducting member 40.

The mounting holes 44 cooperate with the temperature sensing head 30 to further enhance the effectiveness and sensitivity of heat transfer. In the case of the arrangement of the mounting holes 44, there are also two cases including the case where the mounting holes 44 are blind holes or the case where the mounting holes 44 are through holes. The method comprises the following steps:

the mounting hole 44 is a blind hole, and the temperature sensing head 30 extends into the blind hole. And the outer end of the temperature sensing head 30 is flush with the bottom end of the blind hole, or the outer end of the temperature sensing head 30 is higher than the bottom end of the blind hole (i.e. the temperature sensing head 30 does not extend to the bottom completely, in this case, the heat transfer is not impaired because the mounting hole 44 is in close contact with the temperature sensing head 30. In the case of the blind hole, the temperature sensing head 30 is only by heat transfer of the metal heat conducting member 41.

When the mounting hole 44 is a through hole, the insertion relationship between the temperature sensing head 30 and the through hole also includes the complete insertion, that is, the bottom end of the temperature sensing head 30 is flush with the bottom surface of the circular connecting portion 41; and the case where the temperature sensing head 30 is inserted into the through hole but not to the deepest end of the through hole.

In both cases, the through hole is formed in the basin so that the temperature sensing head 30 can not only receive the temperature conducted by the metal heat conducting member 41, but also directly contact the water temperature in the basin, thereby further improving the effectiveness, rapidness and sensitivity of temperature acquisition. At this time, the through hole is in close contact with the peripheral side wall of the temperature sensing head 30, or a sealing measure is made to avoid the infiltration of water flow.

In addition, the front surface of the circular connecting portion 41 is flush with the front surface of the tub bottom 11, so that comfort is ensured when an infant is bathed, and the uneven state is avoided from rubbing the delicate skin of the infant. And preferably, whether the mounting hole 44 is a through hole or a blind hole, the front end of the temperature sensing head 30 is flush with the front surface of the circular connecting portion 41, ensuring the sensitivity and effectiveness of heat conduction.

The utility model has the advantages that the bottom 11 of the basin body 10 is integrally injection-molded with the metal heat conduction piece 41, the metal heat conduction piece 41 directly contacts bath soup in the basin body to conduct water temperature, the temperature sensing head 30 closely contacts with the metal heat conduction piece 41 to accurately sense temperature, and the temperature is reacted to the temperature display 20 connected with the temperature sensing head for visual reading of a user. The metal heat conducting member 41 is integrally injection molded at the bottom to optimize the production and installation process, and the connection relationship is also more firm and stable. In addition, the metal heat conductive member 41 embedded in the bottom 11 can be more directly and sufficiently contacted with the bath soup to conduct the temperature, and the temperature measurement is more accurate and sensitive.

Further, the metal heat conductive member 41 provided with the concave hole 43 includes a connection portion provided with a mounting hole 44 and a pressing portion. The outer end of the pressing part transversely extends beyond the outer end of the connecting part to form a radial 47 section. The radial segment 47 extends laterally outwardly relative to the circular connection so that the upper or lower wall of the radial segment 47 can form a longitudinal restriction with the wall surface of the bowl bottom. The stability of the installation of the metal heat conducting piece is further improved.

The temperature sensing head 30 is inserted into the concave hole 43 and is closely inserted into the mounting hole 44 so that the temperature sensing head 30 can more directly and sufficiently receive the temperature conducted by the metal heat conductive member 41. Ensuring the accuracy and sensitivity of temperature measurement.

In addition, when the mounting hole 44 is a through hole, the mounting hole 44 and the peripheral side wall of the temperature sensing head 30 are sealed by a sealing member, so as to avoid water infiltration. The temperature sensing head can not only receive temperature through the heat conduction of the metal heat conduction piece, but also can be directly contacted through the bath soup in the contact bathtub. At this time, the temperature sensor receives the water temperature through two channels, so that the temperature measurement is more accurate, quick and sensitive.

In addition, the metal heat conducting member 40 in this embodiment is provided with a protective cover 50, and the protective cover 50 is provided with a connecting hole c. The bottom walls of both sides of the metal heat conductive member 40 are provided with mounting posts t. The mounting posts t vertically correspond to the connecting holes c.

In actual installation, the mounting posts t cooperate with the connecting holes c to fix the protective cover 50.

Two guide ribs r are arranged at intervals on one side of the metal heat conducting piece 40, and a guide groove r1 for placing at least part of the lead s is formed between the two guide ribs r. The wire s is embedded in the guide groove r1, so that the wire arrangement rationality and the neatness of the wire s are ensured, and the phenomenon of the wire s falling off to cause the snagging is avoided.

Preferably, the guide rib r extends along the outer sidewall of the tub 10 and matches the routing path of the wire s. Specifically, the leading end of the guide rib r exceeds the transition section p between the bottom 11 and the peripheral portion 12, and the trailing end of the guide rib r is closely attached to the outer side wall of the shield case 50 that is provided outside the metal heat conductive member 40.

The lead s is easier to fall off and droop at the transition position of the bottom wall and the side wall, so that the guide rib r is arranged at the transition position of the bottom wall and the side wall, and the lead s can be effectively positioned and guided.

In the description of the present utility model, it should be noted that, directions or positional relationships indicated by terms such as "upper", "lower", "front", "rear", "inner", "outer", etc., are directions or positional relationships based on those shown in the drawings, or those that are conventionally put in use of the inventive product, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific direction, be configured and operated in a specific direction, and thus should not be construed as limiting the present utility model. While the terms "first" and "second" are used for descriptive purposes only and not for purposes of limitation, there is no other directional meaning.

It should be noted that: like reference numerals denote like items in the following figures, and thus once an item is defined in one figure, it may not be further defined and explained in the following figures.

The infant bathtub with temperature display provided by the utility model is described above, and specific examples are applied to illustrate the principle and the implementation of the utility model, and the description of the examples is only used for helping to understand the utility model and the core idea. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the utility model can be made without departing from the principles of the utility model and these modifications and adaptations are intended to be within the scope of the utility model as defined in the following claims.

Claims (12)

1. Infant bathtub with temperature display, characterized in that:

comprises a basin body, a temperature display, a temperature sensing head and a metal heat conduction piece;

the basin body comprises a bottom and a peripheral side part, the basin body is in a cuboid shape, and the peripheral side part comprises a pair of first side walls with smaller width and a pair of second side walls with longer width;

the temperature display is arranged at the position above the first side wall, and the temperature sensing head is arranged at the bottom close to the first side wall; the temperature display is connected with the temperature sensing head through a wire;

the metal heat conduction piece comprises a round connecting part at the front end and a round pressing part at the rear end, a round concave hole is formed in the rear side of the metal heat conduction piece, and a mounting hole communicated with the round concave hole is formed in the center of the round connecting part;

the circular connecting part and the bottom of the bathtub body are integrally injection molded together, the temperature sensing head is inserted into the mounting hole in a tight fit manner, and the water temperature in the bathtub is transferred to the temperature sensor through the metal heat conducting piece.

2. The baby bathtub with temperature display according to claim 1, wherein:

the front surface of the circular connecting part is flush with the front surface of the bottom of the bathtub;

the mounting hole is a through hole, and the front end of the temperature sensing head is flush with the front surface of the circular connecting part;

the wall surface of the bottom where the through hole is located seals the through hole to avoid water leakage.

3. The baby bathtub with temperature display according to claim 1, wherein: the mounting hole is a blind hole, and the temperature sensing head extends into the blind hole;

the outer end of the temperature sensing head is flush with the bottom end of the blind hole, or the outer end of the temperature sensing head is higher than the bottom end of the blind hole.

4. The baby bathtub with temperature display according to claim 1, wherein: the metal heat conducting piece outer cover is provided with a protective cover, and a connecting hole is formed in the protective cover;

mounting columns are arranged on the bottom walls of the two sides of the metal heat conducting piece; the mounting column is matched with the connecting hole to fix the protective cover.

5. The baby bathtub with temperature display according to claim 1, wherein: two guide ribs are arranged at intervals on one side of the metal heat conducting piece, and a guide groove for placing at least part of the lead is formed between the two guide ribs; the guide rib extends along the outer side wall of the basin body so as to be matched with the routing path of the lead.

6. The baby bathtub with temperature display according to claim 5, wherein: the starting end of the guide rib exceeds the transition section of the bottom and the peripheral side part, and the ending end of the guide rib is clung to the outer side wall of the protective cover which is covered outside the metal heat conducting piece.

7. Infant bathtub with temperature display, characterized in that:

comprises a basin body, a temperature sensing head and a metal heat conduction member with concave holes;

the metal heat conduction piece is arranged at the bottom of the basin body and is integrally injection molded with the bottom of the basin body;

at least one part of the metal heat conducting piece is embedded into the bottom wall surface of the basin body and forms one part of the bottom of the basin body, so that the metal heat conducting piece can be directly contacted with bath soup in the basin body;

the metal heat conduction piece comprises a pressing part and a connecting part, wherein the outer end of the pressing part transversely extends beyond the outer end of the connecting part to form a radial section, and a limiting effect in the longitudinal direction is formed between the upper wall or the lower wall of the radial section and the wall surface of the bottom of the basin body;

the temperature sensing head is placed in the concave hole and is in close contact with the connecting part so as to receive the water temperature conducted by the metal heat conducting piece.

8. The baby bathtub with temperature display according to claim 7, wherein:

the basin body comprises a bottom and a peripheral side part;

the connecting part is flush with the inner wall surface of the bottom, and the temperature sensing head is tightly attached to the inner wall surface of the connecting part;

the center of the connecting part is provided with a mounting hole communicated with the concave hole;

the temperature sensing head is inserted into the mounting hole in a tight fit manner;

the mounting hole is a through hole, and the outer end of the temperature sensing head does not extend beyond the through hole.

9. The infant bathtub with temperature display according to claim 8, wherein the mounting hole is a blind hole, and the outer end of the temperature sensing head is clung to the bottom end of the blind hole or is higher than the bottom end of the blind hole;

the metal heat conducting piece outer cover is provided with a protective cover, and a connecting hole is formed in the protective cover;

mounting columns are arranged on the bottom walls of the two sides of the metal heat conducting piece; the mounting columns are matched with the connecting holes to fix the protective cover;

two guide ribs are arranged at intervals on one side of the metal heat conducting piece, and a guide groove for placing at least part of the lead is formed between the two guide ribs;

the guide ribs extend along the outer side wall of the basin body so as to be matched with the routing paths of the wires;

the starting end of the guide rib exceeds the transition section of the bottom and the peripheral side part of the basin body, and the ending end of the guide rib is clung to the outer side wall of the protective cover which is covered outside the metal heat conducting piece.

10. Infant bathtub with temperature display, characterized in that:

comprises a basin body, a temperature display, a temperature sensing head and a metal heat conduction piece;

the basin body comprises a bottom and a peripheral side part, the cross section of the basin body is similar to a rectangle, and the peripheral side part comprises a pair of first side walls with smaller width and a pair of second side walls with longer width;

the temperature display is arranged at the position above the first side wall, and the temperature sensing head is arranged at the bottom close to the first side wall; the temperature display is connected with the temperature sensing head through a wire;

the metal heat conducting piece is integrally injection molded at the bottom of the basin body, and a concave hole with an outward opening is formed in the rear side of the metal heat conducting piece;

the metal heat conduction piece comprises a connecting part at the front end and a pressing part at the rear end, and a mounting hole communicated with the concave hole is formed in the center of the connecting part;

the temperature sensing head is placed in the concave hole and is inserted into the mounting hole in a tight fit mode, and water temperature in the bathtub is transferred to the temperature sensor through the metal heat conducting piece.

11. The baby bathtub with temperature display according to claim 10, wherein:

the pressing part is pressed on the outer side of the bottom, and at least one part of the connecting part is embedded into the wall surface of the bottom;

the mounting holes are blind holes or through holes.

12. The infant bathtub with temperature display according to claim 10, wherein the metal heat conducting piece outer cover is provided with a protective cover, and a connecting hole is formed in the protective cover;

mounting columns are arranged on the bottom walls of the two sides of the metal heat conducting piece; the mounting columns are matched with the connecting holes to fix the protective cover;

two guide ribs are arranged at intervals on one side of the metal heat conducting piece, and a guide groove for placing at least part of the lead is formed between the two guide ribs;

the guide ribs extend along the outer side wall of the basin body so as to be matched with the routing paths of the wires;

the starting end of the guide rib exceeds the transition section of the bottom and the peripheral side part of the basin body, and the ending end of the guide rib is clung to the outer side wall of the protective cover which is covered outside the metal heat conducting piece.