CN109662564B - Vapor pressure energy-saving heat-preserving scald-preventing adjustable steam cabinet - Google Patents

Abstract

The invention discloses a steam pressure energy-saving heat-preserving scald-preventing adjustable steam cabinet, which structurally comprises a steam cabinet main body, trundles, a control panel, an opening and closing door, an electric heating box, a heating frame, a volume adjusting and heat-preserving mechanism, a waste heat recovery box, a scald-preventing energy-saving pressure-preserving mechanism and a pipeline, wherein the steam cabinet main body is provided with the volume adjusting and heat-preserving mechanism, a displacement adjusting and clamping mechanism and a liquid-receiving groove are mutually combined to adjust the height of a hollow bottom plate, so that equipment can heat dishes with larger volume, the liquid-receiving groove and the hollow bottom plate store distilled water and can carry out heat-preserving treatment on the dishes, the scald-preventing energy-saving pressure-preserving mechanism is arranged, and a steam water intercepting mechanism and the energy-saving heat-preserving mechanism are mutually matched, so that the distilled water formed by steam is quickly and intensively discharged and stored into the liquid-receiving groove to prevent the dishes from being soaked in, the air pressure and the temperature in the equipment are in a proper range, so that the equipment is more energy-saving.

Description

Vapor pressure energy-saving heat-preserving scald-preventing adjustable steam cabinet

Technical Field

The invention relates to an adjustable steaming cabinet, in particular to a vapor pressure energy-saving heat-preserving scald-preventing adjustable steaming cabinet.

Background

The steam cabinet has various styles and types, the steam cabinet has an electromagnetic type, a steam type, a gas type and the like, the steam type is a commonly used one and is often used for heating or making dishes, heating racks of the traditional steam cabinet are distributed at equal intervals and are difficult to be used for heating large dishes, the upper end of the steam cabinet is of a flat plate structure, and problems can occur in the using process; steam is in evaporating cabinet upper end gathering formation distilled water, and distilled water can drip in the dish, leads to the meal to steep water, and the taste worsens, and is unsafe sanitary, and people when taking out the dish, the distilled water drips and can cause the scald on the skin, and the heating frame can't heat large-scale dish, and the result of use is poor.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a steam-pressure energy-saving heat-preserving anti-scald adjustable steaming cabinet, which aims to solve the problems that distilled water is formed at the upper end of the steaming cabinet by gathering steam, the distilled water can drip into dishes, the dishes are soaked in the water, the taste is poor, the food is unsafe and sanitary, when people take out the dishes, the distilled water drips onto the skin to cause scald, a heating rack cannot heat large dishes, and the using effect is poor.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a vapour pressure energy-conserving heat retaining scald preventing regulation formula evaporates cabinet, its structure is including evaporating cabinet main part, truckle, control panel, opening and closing door, electric heat box, heating frame, volume regulation heat preservation mechanism, waste heat recovery case, the energy-conserving pressurize mechanism of scald preventing, pipeline, control panel passes through the screw fixation at the positive lower extreme of evaporating cabinet main part, the opening and closing door articulates in the positive upper end of evaporating cabinet main part, the truckle is equipped with more than two and mechanical connection respectively at four angles of evaporating cabinet main part lower surface altogether, the welding of waste heat recovery case is at the right-hand member of evaporating cabinet main part, the welding of pipeline is in the upper end of evaporating cabinet main part, the electric heat box inlays at the inside lower extreme of evaporating cabinet main part, the energy-conserving pressurize mechanism interference fit of scald preventing evaporates the inside upper end of cabinet main part, heating frame clearance fit is.

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

in the above scheme, volume regulation heat preservation mechanism is adjusted by hollow bottom plate, bleeder vent, curb plate, displacement and is stopped mechanism, slide rail, holds the cistern and constitute, the bleeder vent inlays in hollow bottom plate's upper surface, displacement is adjusted and is stopped the mechanism and be equipped with two and weld both ends about hollow bottom plate lower surface respectively altogether, the curb plate is equipped with two altogether and welds both ends about hollow bottom plate upper surface respectively, the slide rail inlays in the right surface of curb plate, it inlays in the upper surface of curb plate to hold the cistern.

In the above scheme, the energy-conserving pressurize mechanism of scald preventing comprises bearing diagonal, steam water damming mechanism, collecting tank, energy-conserving heat preservation mechanism interference fit is in the inside middle section of bearing diagonal, steam water damming mechanism is equipped with two altogether and welds both ends about bearing diagonal lower surface respectively, the collecting tank is equipped with the lower surface that inlays at bearing diagonal base more than two and equidistance respectively altogether, bearing diagonal interference fit is in the inside upper end of steaming cabinet main part.

In the above scheme, hollow bottom plate lower surface right-hand member's displacement regulation card ends mechanism comprises steel outer container, finger screens structure, pull rod, spring, arc indent cassette, trapezoidal latch, straight-tooth card stopper gear, finger screens structure interference fit is at the left end of pull rod, the middle section and the steel outer container clearance fit of pull rod, the spring encircles the outer lane of connection at the pull rod, the left end at arc indent cassette is glued to the pull rod, trapezoidal latch is equipped with the welding of more than two and equidistance respectively on the right surface of arc indent cassette altogether, straight-tooth card stopper gear swing joint is at the inside right-hand member of steel outer container.

In the above scheme, the steam water intercepting mechanism at the left end of the lower surface of the obliquely symmetrical base is composed of a lower inclined plate, two leaf separating grooves and a gradually-changed water collecting groove, the two gradually-changed water collecting grooves are arranged at the left end and the right end of the lower inclined plate respectively, the leaf separating grooves are arranged at the left side and the right side of the gradually-changed water collecting groove respectively, and the lower inclined plate is welded at the left end of the lower surface of the obliquely symmetrical base.

In the above scheme, the energy-saving and heat-preserving mechanism is composed of a steel vent pipe, an upper fixing block, a downward pressing spring, a special-shaped sealing frame, a supporting sealing seat and a temperature sensing adjusting structure, wherein the upper fixing block is connected to the upper end of the inside of the steel vent pipe in a gluing mode, the downward pressing spring is welded to the lower end of the upper fixing block, the lower end of the downward pressing spring is connected with the special-shaped sealing frame in a gluing mode, the special-shaped sealing frame is in clearance fit with the upper end of the supporting sealing seat, and the temperature sensing adjusting structure is provided with two parts and welded to the left side and the right side of.

In the above scheme, the finger clamping structure comprises a push-pull plate, finger clamping grooves, a touch protrusion and a fixing through hole, wherein the fixing through hole is embedded in the center of the right surface of the push-pull plate, the finger clamping grooves are provided with two parts and are respectively embedded in the upper end and the lower end of the right surface of the push-pull plate, and the touch protrusion is provided with more than two parts and is connected to the surface of the finger clamping grooves through glue at equal intervals.

In the above scheme, the inside left temperature-sensing of steel air pipe adjusts the structure and comprises steel sleeve, mercury liquid chamber, slip cock stem, the mercury liquid chamber inlays in the inside lower extreme of steel sleeve, slip cock stem clearance fit is in the telescopic upper end of steel, the inside left side of steel air pipe is welded to the steel sleeve.

Advantageous effects

The invention relates to a vapor pressure energy-saving heat-preserving scald-preventing adjustable steaming cabinet, which comprises a heating rack, a volume-adjusting heat-preserving mechanism, a straight-tooth clamping and blocking gear, a push-pull plate, a spring, a trapezoidal clamping tooth, a straight-tooth clamping and blocking gear, a control panel, an electric heating box, a steam-generating door, an opening-closing door, a heating rack, a steam-generating device, a heating rack, a steam-generating device, a heating device, a steam-generating device, a dish with heating, a heating device, a dish with a heating device, the steam rises and is gathered under the anti-scald energy-saving pressure maintaining mechanism through the air holes, the inside of the equipment is filled with the steam, the dishes are heated, the inclined planes under the obliquely symmetrical bases generate distilled water, the distilled water flows towards two sides along with the liquid collecting tank and is blocked by the steam water interception mechanism, then the distilled water is concentrated to the middle section of the lower inclined plate from the leaf separating tank and the gradual change water collecting tank and drops into the liquid receiving tank of the side plate, the liquid receiving tank is communicated with the hollow bottom plate and concentrates the distilled water, the dishes are prevented from being soaked by the water and can be kept warm, when the air pressure and the temperature in the equipment rise to a certain degree, the energy-saving heat preserving mechanism senses the change of the temperature, the temperature induction adjusting structure is heated, the mercury liquid in the mercury liquid cavity is heated to expand, the volume is increased, the sliding plug column is enabled to be jacked upwards, the sliding plug column jacks up the special-shaped sealing frame after expanding to a certain degree, and, and the steam is discharged from the steel ventilation pipeline and is discharged to the waste heat recovery tank through the pipeline, and after part of energy is recovered, the steam is discharged, so that the work is completed.

According to the steam pressure energy-saving heat-preserving scald-preventing adjustable steaming cabinet, the volume-adjusting heat-preserving mechanism is arranged, the displacement-adjusting clamping mechanism and the liquid-receiving groove are combined mutually, the height of the hollow bottom plate is adjusted, equipment can heat dishes with larger volume, and the liquid-receiving groove and the hollow bottom plate store distilled water and can carry out heat preservation treatment on the dishes.

Through being equipped with the energy-conserving pressurize mechanism of scald preventing, steam water damps mechanism and energy-conserving heat preservation mechanism and mutually supports, makes the distilled water that steam formed concentrate the discharge fast and store to the liquid-holding tank in, prevents that the vegetable from being soaked water, and according to inside atmospheric pressure of equipment and temperature variation, decides exhaust time and volume simultaneously, makes the inside atmospheric pressure of equipment and temperature be in a suitable scope, makes equipment more energy-conserving.

Drawings

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

fig. 1 is a schematic structural view of a vapor pressure energy-saving heat-preserving scald-preventing adjustable steam cabinet of the present invention.

Fig. 2 is a schematic structural view of a section of a steam pressure energy-saving heat-preserving scald-preventing adjustable steam cabinet.

Fig. 3 is a detailed structural schematic diagram of the volume adjusting and heat preserving mechanism of the invention.

Fig. 4 is a detailed structural schematic diagram of the anti-scald energy-saving pressure maintaining mechanism of the invention.

FIG. 5 is a schematic cross-sectional view of the displacement adjustment locking mechanism of the present invention.

FIG. 6 is a schematic right view of the steam water shutoff mechanism of the present invention.

FIG. 7 is a schematic structural view of a section of the energy-saving heat-preserving mechanism of the present invention.

Fig. 8 is a detailed structural schematic diagram of the finger lock structure of the present invention.

Fig. 9 is an enlarged detailed structural diagram of the temperature sensing adjustment structure of the present invention.

Description of reference numerals: the steam cabinet comprises a steam cabinet main body 1, casters 2, a control panel 3, an opening and closing door 4, an electric heating box 5, a heating frame 6, a volume adjusting and heat preserving mechanism 7, a waste heat recovery box 8, an anti-scald energy-saving pressure maintaining mechanism 9, a pipeline 10, a hollow bottom plate 71, air vents 72, side plates 73, a displacement adjusting and clamping mechanism 74, a sliding rail 75, a liquid receiving groove 76, an oblique symmetrical base 91, a steam water intercepting mechanism 92, a liquid collecting groove 93, an energy-saving and heat preserving mechanism 94, a steel outer box 741, a finger clamping structure 742, a pull rod 743, a spring 744, an arc-shaped concave clamping seat 745, a trapezoidal clamping tooth 746, a straight tooth clamping and blocking gear 747, a lower inclined plate 921, a leaf separating groove 922, a gradual water collecting groove 923, a steel ventilation pipeline 941, an upper fixing block 942, a lower pressing spring 943, a special-shaped sealing frame 944, a supporting sealing seat 945, a temperature sensing and adjusting structure 946, a push-pull plate 7421, a finger clamping, Mercury liquid cavity 9462, sliding plug 9463.

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. 1-2, the present invention provides a steam pressure energy-saving thermal-insulation scald-preventing adjustable steam cabinet: the structure of the steam cabinet comprises a steam cabinet main body 1, trundles 2, a control panel 3, an opening and closing door 4, an electric heating box 5, a heating frame 6, a volume adjusting and heat insulating mechanism 7, a waste heat recovery box 8, an anti-scald energy-saving pressure maintaining mechanism 9 and a pipeline 10, wherein the control panel 3 is fixed at the lower end of the front surface of the steam cabinet main body 1 through screws, the opening and closing door 4 is hinged at the upper end of the front surface of the steam cabinet main body 1, the trundles 2 are provided with more than two parts and are respectively and mechanically connected at four corners of the lower surface of the steam cabinet main body 1, the waste heat recovery box 8 is welded at the right end of the steam cabinet main body 1, the pipeline 10 is welded at the upper end of the steam cabinet main body 1, the electric heating box 5 is embedded at the lower end of the inside the steam cabinet main body 1, the anti-scald energy-saving mechanism 9 is in interference fit at the upper end of the, the middle section is provided with a rack groove corresponding to the volume adjusting and heat preserving mechanism 7, and the length of the volume adjusting and heat preserving mechanism 7 is close to that of the scald preventing energy-saving pressure maintaining mechanism 9, so that distilled water can be conveniently received.

Referring to fig. 3, the volume-adjusting heat-preserving mechanism 7 comprises a hollow bottom plate 71, air holes 72, a side plate 73, two displacement-adjusting locking mechanisms 74, a slide rail 75 and a liquid-receiving groove 76, wherein the air holes 72 are embedded in the upper surface of the hollow bottom plate 71, the two displacement-adjusting locking mechanisms 74 are respectively welded at the left end and the right end of the lower surface of the hollow bottom plate 71, the two side plates 73 are respectively welded at the left end and the right end of the upper surface of the hollow bottom plate 71, the slide rail 75 is embedded in the right surface of the side plate 73, the liquid-receiving groove 76 is embedded in the upper surface of the side plate 73, the hollow bottom plate 71 is hollow, so that distilled water can be stored, the heat-preserving effect of liquid is good, the heat of the heated dishes can be preserved, the air holes 72 are convenient for steam to pass through, the dishes can be heated, the displacement-adjusting locking mechanisms 74 are convenient, the liquid receiving tank 76 is adapted to receive distilled water, and the interior of the liquid receiving tank 76 is the same as that of the hollow bottom plate 71, and can be used as a container.

Referring to fig. 4, the anti-scald energy-saving pressure maintaining mechanism 9 comprises an oblique symmetrical base 91, a steam water intercepting mechanism 92, a liquid collecting tank 93 and an energy-saving heat preserving mechanism 94, the energy-saving heat preserving mechanism 94 is in interference fit with the middle section inside the oblique symmetrical base 91, the steam water intercepting mechanism 92 is provided with two parts which are respectively welded at the left end and the right end of the lower surface of the oblique symmetrical base 91, the liquid collecting tank 93 is provided with more than two parts which are respectively embedded at equal intervals on the lower surface of the oblique symmetrical base 91, the oblique symmetrical base 91 is in interference fit with the upper end inside the steaming cabinet main body 1, the lower surface of the oblique symmetrical base 91 is an inclined surface, so that steam can be collected and distilled water can be guided, the liquid collecting tank 93 is convenient for accelerating the flow guiding speed of the distilled water on the inclined surface of the oblique symmetrical base 91, the steam water intercepting mechanism 92, it is determined whether to discharge the excess water vapor so that the pressure and temperature in the apparatus are within a suitable range.

Referring to fig. 5, the displacement adjusting and locking mechanism 74 at the right end of the lower surface of the hollow bottom plate 71 is composed of a steel outer box 741, a finger locking structure 742, a pull rod 743, a spring 744, an arc-shaped concave locking seat 745, a trapezoidal locking tooth 746, and a straight tooth locking gear 747, the finger locking structure 742 is in interference fit with the left end of the pull rod 743, the middle section of the pull rod 743 is in clearance fit with the steel outer box 741, the spring 744 is connected around the outer ring of the pull rod 743, the pull rod 743 is glued to the left end of the arc-shaped concave locking seat 745, the trapezoidal locking tooth 746 is provided with more than two and respectively welded to the right surface of the arc-shaped concave locking seat 745 at equal intervals, the straight tooth locking gear 747 is movably connected to the right end inside the steel outer box 741, the spring 744 provides a pushing force to the arc-shaped concave locking seat 745 so that the trapezoidal locking tooth locking gear 746 locks the straight tooth locking gear 747, and the right surface of the arc-shaped concave, each trapezoidal latch 746 is contacted with the straight-tooth latch gear 747, so that the latching effect is good.

Please refer to fig. 6, the steam water interception mechanism 92 at the left end of the lower surface of the obliquely symmetric base 91 is composed of a lower inclined plate 921, a leaf separating groove 922 and a gradual change water collecting groove 923, the gradual change water collecting groove 923 is provided with two and is embedded at the left and right ends of the lower inclined plate 921 respectively, the leaf separating groove 922 is provided with more than two and is embedded in the left and right sides of the gradual change water collecting groove 923 respectively, the lower inclined plate 921 is welded at the left end of the lower surface of the obliquely symmetric base 91, the cross-sectional shape of the lower end of the lower inclined plate 921 is similar to a triangle, so that the distilled water is guided to the middle section, the upper end of the gradual change water collecting groove 923 is larger and the lower end thereof is directed to the middle section of the lower inclined plate 921, so that.

Referring to fig. 7, the energy-saving and heat-insulating mechanism 94 includes a steel ventilation pipe 941, an upper fixing block 942, a lower pressing spring 943, a special-shaped sealing frame 944, a supporting sealing base 945, and a temperature sensing adjustment structure 946, wherein the upper fixing block 942 is adhesively connected to an upper end of the steel ventilation pipe 941, the lower pressing spring 943 is welded to a lower end of the upper fixing block 942, a lower end of the lower pressing spring 943 is adhesively connected to the special-shaped sealing frame 944, the special-shaped sealing frame 944 is in clearance fit with an upper end of the supporting sealing base 945, the temperature sensing adjustment structure 946 is provided with two parts and is respectively welded to left and right sides of the lower end of the steel ventilation pipe 941, the special-shaped sealing frame 944 is sealed by its own weight and an elastic force of the lower pressing spring 943 to prevent air leakage, a distance is provided between the lower end of the special-shaped sealing frame 944 and the temperature sensing adjustment structure 946, so that the temperature sensing adjustment structure 946 expands to a certain degree, and then discharging excessive water vapor to limit the temperature and pressure inside the equipment.

Referring to fig. 8, the finger positioning structure 742 is composed of a push-pull plate 7421, a finger slot 7422, a positioning protrusion 7423 and a fixing hole 7424, the fixing hole 7424 is embedded in the center of the right surface of the push-pull plate 7421, the finger slots 7422 are provided with two parts respectively embedded in the upper and lower ends of the right surface of the push-pull plate 7421, the positioning protrusion 7423 is provided with more than two parts respectively connected to the surface of the finger slot 7422 by glue at equal intervals, the finger slot 7422 is provided with two parts corresponding to the index finger and the middle finger of the palm, so that the finger can be conveniently pulled out, and the positioning protrusion 7423 facilitates the finger of a user to quickly find the corresponding position.

Referring to fig. 9, the temperature sensing adjustment structure 946 on the left side inside the steel vent pipe 941 is composed of a steel sleeve 9461, a mercury liquid cavity 9462 and a sliding plug 9463, the mercury liquid cavity 9462 is embedded in the lower end inside the steel sleeve 9461, the sliding plug 9463 is in clearance fit with the upper end of the steel sleeve 9461, the steel sleeve 9461 is welded on the left side inside the steel vent pipe 941, the wall thickness of the lower end of the steel sleeve 9461 is small, the mercury liquid cavity 9462 can sense the external temperature conveniently, the distance from the lower end of the sliding plug 9463 to the top end of the steel sleeve 9461 is larger than the distance from the sliding plug 9463 to the lower end of the special-shaped sealing frame 944, and the sliding plug 9463 can jack up the special-shaped sealing frame 944.

When the device works, the device is placed at a proper position, the opening and closing door 4 is opened, dishes with heating are placed on the heating rack 6, if dishes with larger volume need to be heated, the volume adjusting and heat preserving mechanism 7 is firstly adjusted in position, the index finger and the middle finger penetrate through the pull rod 743 in the displacement adjusting and clamping mechanism 74, the index finger and the middle finger are pressed on the finger clamping groove 7422, then the push-pull plate 7421 is pulled leftwards, the pull rod 743 is pulled leftwards along with the leftward movement of the spring 744, the arc-shaped concave clamping seat 745 moves leftwards, the trapezoidal clamping tooth 74 is separated from the straight tooth clamping and blocking gear 747, then the finger moves downwards, the straight tooth clamping and blocking gear 747 rotates, the volume adjusting and heat preserving mechanism 7 moves downwards along with the downward movement to a proper position, the finger is loosened, after the dishes are placed, the opening and closing door 4, the electric heating box 5 is started through the control panel 3, then the device starts to generate, the distilled water flows to two sides along with the liquid collecting tank 93 and is blocked by the steam water interception mechanism 92, then the distilled water is concentrated to the middle section of the lower inclined plate 921 from the leaf separating tank 922 and the gradual change water collecting tank 923 and drops into the liquid receiving tank 76 of the side plate 73, the liquid receiving tank 76 is communicated with the hollow bottom plate 71 to concentrate the distilled water, so that the dishes are prevented from being soaked in the water and can be insulated, when the air pressure and the temperature in the equipment rise to a certain degree, the energy-saving insulation mechanism 94 senses the change of the temperature, the temperature induction adjusting mechanism 946 is heated, the mercury liquid in the mercury liquid cavity 9462 is heated to expand, the volume of the mercury liquid cavity 9462 is increased, the sliding plug column 9463 is pushed upwards, and after the mercury liquid expands to a certain degree, the sliding plug column 9463 pushes up the special-shaped sealing frame 944, the special-shaped sealing frame 944 is separated from the supporting sealing seat 945, the steam is discharged from the steel ventilating pipe 941 and is discharged to the waste heat recovery tank 8 through the pipe 10, and after part of energy is recovered, the steam is discharged, so that the work is completed.

The invention combines the above components, the displacement adjusting and locking mechanism 74 and the liquid receiving groove 76 are combined with each other, the height of the hollow bottom plate 71 is adjusted, so that the equipment can heat dishes with larger volume, the liquid receiving groove 76 and the hollow bottom plate 71 store distilled water, the dishes can be subjected to heat preservation treatment, the steam water cut-off mechanism 92 and the energy-saving and heat-preserving mechanism 94 are matched with each other, so that the distilled water formed by steam is quickly and intensively discharged and stored into the liquid receiving groove 76, the dishes are prevented from being soaked in water, and simultaneously, the air discharge time and the air discharge quantity are determined according to the air pressure and the temperature change in the equipment, so that the air pressure and the temperature in the equipment are in a proper range, and the equipment is more energy-saving.

The specific embodiments described herein are merely illustrative of the invention.

The present invention is not limited to the above-mentioned preferred embodiments, and any structural changes made under the teaching of the present invention shall be understood as falling within the scope of the present invention.

Claims (3)

1. The utility model provides a vapour pressure energy-conserving heat retaining scald preventing regulation formula evaporates cabinet, its structure includes evaporates cabinet main part (1), truckle (2), control panel (3), door (4) that opens and shuts, electric heat box (5), heating frame (6), volume control heat preservation mechanism (7), waste heat recovery case (8), scald preventing energy-conserving pressurize mechanism (9), pipeline (10), its characterized in that:

the control panel (3) is located at the lower end of the front face of the steam cabinet main body (1), the opening and closing door (4) is arranged at the upper end of the front face of the steam cabinet main body (1), more than two trundles (2) are arranged on the trundles (2) and are respectively arranged at four corners of the lower surface of the steam cabinet main body (1), the waste heat recovery box (8) is fixed at the right end of the steam cabinet main body (1), the pipeline (10) is arranged at the upper end of the steam cabinet main body (1), the electric heating box (5) is fixed at the lower end of the interior of the steam cabinet main body (1), the anti-scald energy-saving pressure maintaining mechanism (9) is located at the upper end of the interior of the steam cabinet main body (1), and the heating frame (6) is fixed at;

the volume adjusting and heat preserving mechanism (7) consists of a hollow bottom plate (71), air holes (72), side plates (73), displacement adjusting and clamping mechanisms (74), a sliding rail (75) and a liquid receiving tank (76), wherein the air holes (72) are positioned on the upper surface of the hollow bottom plate (71), the displacement adjusting and clamping mechanisms (74) are provided with two air holes and are respectively arranged at the left end and the right end of the lower surface of the hollow bottom plate (71), the side plates (73) are provided with two air holes and are respectively fixed at the left end and the right end of the upper surface of the hollow bottom plate (71), the sliding rail (75) is fixed on the right surface of the side plate (73), and the liquid receiving tank (76) is arranged on the upper surface of the side;

the anti-scald energy-saving pressure maintaining mechanism (9) is composed of an obliquely symmetrical base (91), a steam water intercepting mechanism (92), a liquid collecting tank (93) and an energy-saving heat preservation mechanism (94), wherein the energy-saving heat preservation mechanism (94) is located in the middle section of the interior of the obliquely symmetrical base (91), the two steam water intercepting mechanisms (92) are arranged at two positions and are respectively arranged at the left end and the right end of the lower surface of the obliquely symmetrical base (91), the liquid collecting tank (93) is arranged at more than two positions and are respectively fixed on the lower surface of the obliquely symmetrical base (91) at equal intervals, and the obliquely symmetrical base (91) is located at the upper end of the interior of the steaming cabinet main body (;

the displacement adjusting and clamping mechanism (74) at the right end of the lower surface of the hollow bottom plate (71) consists of a steel outer box (741), a finger clamping structure (742), a pull rod (743), a spring (744), an arc-shaped concave clamping seat (745), a trapezoidal clamping tooth (746) and a straight tooth clamping and plugging gear (747), wherein the finger clamping structure (742) is located at the left end of the pull rod (743), the middle section of the pull rod (743) is connected with the steel outer box (741), the spring (744) is located at the outer ring of the pull rod (743), the pull rod (743) is fixed at the left end of the arc-shaped concave clamping seat (745), the trapezoidal clamping tooth (746) is provided with more than two clamping teeth which are respectively fixed on the right surface of the arc-shaped concave clamping seat (745) at equal intervals, and the straight tooth clamping and plugging gear (747) is arranged at the right end inside the steel outer box (741);

the steam water intercepting mechanism (92) at the left end of the lower surface of the obliquely symmetrical base (91) consists of a lower inclined plate (921), leaf separating grooves (922) and gradient water collecting grooves (923), wherein the gradient water collecting grooves (923) are provided with two parts and are respectively arranged at the left end and the right end of the front surface of the lower inclined plate (921), the leaf separating grooves (922) are provided with more than two parts and are respectively arranged at the left side and the right side of the gradient water collecting grooves (923), and the lower inclined plate (921) is arranged at the left end of the lower surface of the obliquely symmetrical base (91);

energy-conserving heat preservation mechanism (94) comprise steel vent pipe (941), last fixed block (942), push down spring (943), special-shaped seal frame (944), support sealed seat (945), temperature-sensing regulation structure (946), it is located the inside upper end of steel vent pipe (941) to go up fixed block (942), push down spring (943) and install the lower extreme at last fixed block (942), the lower extreme of push down spring (943) is connected with special-shaped seal frame (944), the upper end at support sealed seat (945) is installed in special-shaped seal frame (944), temperature-sensing regulation structure (946) are equipped with two altogether and install the left and right sides at the inside lower extreme of steel vent pipe (941) respectively.

2. The steam pressure energy-saving heat-preserving scald-preventing adjustable steam cabinet as claimed in claim 1, wherein: finger screens structure (742) comprise push-and-pull board (7421), finger draw-in groove (7422), touch position arch (7423), fixed through hole (7424) are installed at the center of push-and-pull board (7421) right surface, finger draw-in groove (7422) are equipped with two altogether and install respectively at the upper and lower both ends of push-and-pull board (7421) right surface, touch position arch (7423) be equipped with more than two altogether and respectively equidistant fix the surface at finger draw-in groove (7422).

3. The steam pressure energy-saving heat-preserving scald-preventing adjustable steam cabinet as claimed in claim 1, wherein: inside left temperature sensing of steel air pipe (941) adjusts structure (946) and comprises steel sleeve (9461), mercury liquid chamber (9462), slip cock (9463), mercury liquid chamber (9462) is located the inside lower extreme of steel sleeve (9461), slip cock (9463) are fixed in the upper end of steel sleeve (9461), the inside left side of steel air pipe (941) is installed to steel sleeve (9461).

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