CN219515245U

CN219515245U - Steam sandwich pot

Info

Publication number: CN219515245U
Application number: CN202320734854.7U
Authority: CN
Inventors: 黄斌
Original assignee: Chongqing Jizhiyuan Catering Co ltd
Current assignee: Chongqing Jizhiyuan Catering Co ltd
Priority date: 2023-04-06
Filing date: 2023-04-06
Publication date: 2023-08-15
Anticipated expiration: 2033-04-06

Abstract

The utility model discloses a steam jacketed kettle, which is characterized in that the cross section of a kettle body is semicircular, the kettle comprises a semicircular arc bottom shell, a cover plate positioned at the top and end covers positioned at the front end and the rear end, the arc bottom shell and the end covers are of a double-layer structure and are provided with an interlayer space, and the interlayer space is used for accommodating steam; the sliding division bars are symmetrically arranged in the interlayer space of the arc bottom shell in a left-right symmetry manner, the sliding division bars are in dynamic sealing fit with the interlayer space, the interlayer space between the two sliding division bars is connected with an exhaust valve and an air inlet valve, each sliding division bar is fixedly connected with one end of one arc rod, the other end of the arc rod extends out of the side edge of the cover plate and then is connected with an adjusting mechanism, and the adjusting mechanism can synchronously drive the left sliding division bar and the right sliding division bars to be close to or far away from each other in the interlayer space. The utility model can flexibly adjust the occupied space of the entering steam, and heat the material area more directly and intensively.

Description

Steam sandwich pot

Technical Field

The utility model relates to the field of steam heating equipment, in particular to a steam jacketed kettle.

Background

The steam jacketed kettle is mainly used for heating materials, especially materials with higher temperature control, and is usually heated by direct open fire, so that the temperature of the kettle bottom is easy to rapidly surge, and for heating some seasonings, such as chicken essence in the production process, chicken essence is rapidly gelatinized, so that the steam jacketed kettle is usually used for heating. The steam jacketed kettle commonly used is of a hemispherical structure, a hemispherical cavity is formed in the kettle to contain chicken essence materials, the side wall of the kettle is of a double-layer structure, namely, a sandwich space is formed, steam can be injected into the sandwich space, so that the kettle body is heated, and the chicken essence materials are heated. The existing steam jacketed kettle has the disadvantages that the occupied volume of steam after steam is injected into the interlayer is relatively constant, when materials are less, the steam is injected, and then rapid heat transfer is also carried out on the kettle wall at the place where a large amount of materials are not accumulated, so that heat flow cannot be directly and intensively transmitted into chicken essence materials, and heat loss is large.

Disclosure of Invention

The utility model aims to solve the problems that the steam holding cavity cannot be adjusted according to the quantity of materials and the materials are difficult to heat in a direct and concentrated mode.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a steam interlayer pot, which comprises a pot body, wherein the cross section of the pot body is semicircular, the pot body comprises a semicircular arc bottom shell, a cover plate positioned at the top and end covers positioned at the front end and the rear end, the arc bottom shell and the end covers are of double-layer structures and are provided with interlayer spaces, and the interlayer spaces are used for accommodating steam; the sliding division bars are symmetrically arranged in the interlayer space of the arc bottom shell in a left-right symmetry manner, the sliding division bars are in dynamic sealing fit with the interlayer space, the interlayer space between the two sliding division bars is connected with an exhaust valve and an air inlet valve, each sliding division bar is fixedly connected with one end of one arc rod, the other end of the arc rod extends out of the side edge of the cover plate and then is connected with an adjusting mechanism, and the adjusting mechanism can synchronously drive the left sliding division bar and the right sliding division bars to be close to or far away from each other in the interlayer space.

In the utility model, specifically, an interlayer space in the end cover is provided with a telescopic rod, the telescopic rod is parallel to the diameter of the arc bottom shell, two ends of the telescopic rod are respectively in dynamic sealing contact with the arc inner wall of the interlayer space, the telescopic rod is connected with the adjusting mechanism, and when the adjusting mechanism drives the sliding parting strips to be close to each other, the telescopic rod vertically moves downwards.

Further, adjustment mechanism includes driving shaft, driving gear, driven gear, lead screw, clamp plate and guide bar, the driving shaft is perpendicular and rotatory cooperation is installed the center of telescopic link, and threaded cooperation runs through apron is by side department, driving gear fixes on the driving shaft top, driving gear and driven gear meshing, driven gear rigid coupling is on the lead screw top, and the lead screw is rotationally installed in the apron top, and lead screw threaded cooperation runs through the clamp plate, clamp plate and the vertical sliding fit of guide bar, slip parting bead with still be connected through arc extension spring between the apron, so that one side bottom of clamp plate always with the top extrusion contact of arc pole.

Further, the arc-shaped rod extends and bends along the radian direction of the arc-shaped bottom shell.

Further, the device comprises a mounting plate, two ends of the mounting plate are respectively sleeved on the two driving shafts in a clearance fit manner, a driving motor is arranged in the center of the mounting plate, and a driving wheel driven by the driving motor is in transmission connection with two driven wheels respectively fixedly connected to the two driving shafts through a belt.

Further, the telescopic rod comprises a socket rod and a plug-in rod, two ends of the socket rod are provided with n-shaped notches, the plug-in rod is connected in the notches through elastic elements, and the socket rod is rotationally connected with the driving shaft.

Further, the end part of the plug rod is provided with wear-resistant rubber; the surface of the spigot-and-socket rod at the upper side and the lower side of the spigot-and-socket rod is respectively provided with a sealing rubber strip, the length direction of the spigot-and-socket rod is also provided with a sealing rubber strip, and the wear-resistant rubber and the sealing rubber strip are respectively contacted with the inner wall of the corresponding interlayer space.

Compared with the prior art, the utility model has the following beneficial effects: the utility model adopts the semi-cylindrical pot body, and correspondingly utilizes the sliding parting bead and the telescopic rod to adjust the steam accommodating space in the interlayer, so that the height of the steam covering area is well adapted to that of the material accommodating area, and the steam covering area and the material accommodating area are directly and intensively heated.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a top view of the pan body of the present utility model;

FIG. 3 is a front view of the telescoping rod;

FIG. 4 is a top view of the telescoping rod;

FIG. 5 is yet another front view of the telescoping rod;

fig. 6 is a transmission structure diagram between two driving shafts.

The reference numerals are explained as follows: the pot body 1, the arc bottom shell 101, the cover plate 102, the end cover 103, the sliding parting bead 2, the arc rod 3, the driving shaft 4, the driving gear 5, the telescopic rod 6, the socket rod 601, the elastic element 602, the socket rod 603, the wear-resistant rubber 604, the sealing rubber strip 605, the driven gear 7, the screw rod 8, the guide rod 9, the pressing plate 10, the driven wheel 11, the belt 12, the placement plate 13, the driving motor 14, the driving wheel 15 and the arc tension spring 16.

Detailed Description

In order to make the technical means, creation characteristics, achievement purposes and functions of the present utility model more clear and easy to understand, the technical scheme of the present utility model will be described in detail below. It will be appreciated by those skilled in the art that the following examples illustrate only some, but not all, of the specific embodiments of the utility model and that the scope of the utility model is not limited thereto.

Referring to fig. 1-2, this embodiment discloses a steam jacketed kettle, which comprises a kettle body 1, wherein the kettle body 1 is different from a general kettle body 1, and is not a hemispherical shape, but a semi-cylindrical structure, specifically, the cross section of the kettle body 1 is a semicircle, and comprises a semicircular arc bottom shell 101, a cover plate 102 positioned at the top, and end covers 103 positioned at the front end and the rear end, the arc bottom shell 101 and the end covers 103 are of a double-layer structure and have an interlayer space, and the interlayer space is used for containing steam. The sliding division bars 2 are symmetrically arranged in the interlayer space of the arc bottom shell 101, the sliding division bars 2 can be in a columnar structure with a rectangular cross section, the sliding division bars 2 are arranged along the axial direction of the pot body 1, the sliding division bars 2 are in dynamic sealing fit with the interlayer space, the interlayer space between the two sliding division bars 2 is a practical space for accommodating steam, and an exhaust valve and an air inlet valve are connected, the air inlet valve is used for inputting steam, and the exhaust valve is used for exhausting steam. Meanwhile, in this embodiment, each sliding parting bead 2 is fixedly connected with one end of one arc rod 3, specifically, the end part of the sliding parting bead 2 is fixedly connected with the arc rod 3, the other end of the arc rod 3 extends out of the side edge of the cover plate 102 and is connected with an adjusting mechanism, the adjusting mechanism can synchronously drive the left sliding parting bead 2 and the right sliding parting bead 2 to be close to or far away from each other in the interlayer space, so that the size of a cavity for storing steam is changed, the steam can be adaptively stored according to the amount of materials such as chicken essence and the like in the pot body 1, the cavity area outside the top surface of the materials such as chicken essence and the like can be made, the steam is not stored, the heat of the steam can be better transferred to the materials, the height of the material surface in the pot body 1 is made, the amount of the steam surface in the interlayer space is higher, or exceeds or is lower than the material surface, the size of the area directly transferred by the heat after the steam is input is flexibly mastered, and the heat is released in a targeted manner.

In this embodiment, the size of the space for storing steam in the interlayer space at two ends of the pot body 1 is also adjustable, specifically, the interlayer space in the end cover 103 may be provided with a telescopic rod 6, as shown in fig. 1 and fig. 3-4, where the telescopic rod 6 is parallel to the diameter of the arc bottom shell 101, for example, horizontally, two ends of the telescopic rod 6 are respectively in dynamic sealing contact with the arc inner wall of the interlayer space, the telescopic rod 6 is connected with an adjusting mechanism, and when the adjusting mechanism drives the sliding partition strips 2 to close to each other, the telescopic rod 6 moves vertically, so that a part of the interlayer space below the telescopic rod 6 is used for storing steam.

More specifically, as shown in fig. 1, the above-mentioned adjusting mechanism includes a driving shaft 4, a driving gear 5, a driven gear 7, a screw rod 8, a pressing plate 10 and a guide rod 9, wherein the driving shaft 4 is vertically and rotatably mounted in the center of the telescopic rod 6, so that the driving shaft 4 can freely rotate on the telescopic rod 6, and at the same time, the driving shaft 4 also penetrates the cover plate 102 in a threaded fit side. The driving gear 5 is fixed on the top end of the driving shaft 4, the driving gear 5 is meshed with the driven gear 7, the driven gear 7 is fixedly connected on the top end of the screw rod 8, the top end part of the screw rod 8 can be set to be an optical axis section to fix the driven gear 7, the screw rod 8 is rotatably arranged above the cover plate 102, the screw rod 8 penetrates through the pressing plate 10 in a threaded fit manner, the pressing plate 10 is vertically and slidably matched with the guide rod 9, the sliding parting bead 2 is connected with the cover plate 102 through the arc-shaped tension spring 16, so that one side bottom end of the pressing plate 10 is always in extrusion contact with the top end of the arc-shaped rod 3, when the driving shaft 4 rotates, the telescopic rod 6 moves downwards, and meanwhile, the screw rod 8 rotates to drive the pressing plate 10 to move downwards vertically, namely the sliding parting bead 2 is carried downwards, and the space of the arc-shaped bottom shell 101 for storing steam is reduced.

The arc rod 3 is extended and bent in the arc direction of the arc bottom case 101 so as to slide with the sliding division bar 2. The driven gear 7 is made into a gear with a thicker thickness, for example, the thickness of the driven gear 7 is ten times as thick as that of the driving gear 5, so as to form a gear shaft structure, thereby ensuring that the driving gear 5 and the driven gear 7 always keep meshed transmission in the vertical stroke range.

Specifically, as shown in fig. 1 and 6, the embodiment further includes a mounting plate 13, two ends of the mounting plate 13 are respectively sleeved on the two driving shafts 4 in a clearance fit manner, namely, the mounting plate 13 is placed on the driving shafts 4, a driving motor 14 is arranged in the center of the mounting plate 13, and a driving wheel 15 driven by the driving motor 14 is in transmission connection with two driven wheels 11 respectively fixedly connected to the two driving shafts 4 through a belt 12, so that when the driving shafts 4 move downwards in a rotating manner, the driving wheel 15 is always in transmission fit connection with the belt 12, and the relative positions of the driving wheels and the belt 12 in the vertical direction are unchanged.

As shown in fig. 3-4, a recommended design structure is shown, the telescopic rod 6 comprises a socket rod 601 and a plug rod 603, two ends of the socket rod 601 are provided with n-shaped notches, the plug rod 603 is connected in the notches through elastic elements 602, the front and rear opposite side walls of the telescopic rod 6 are contacted with the front and rear walls of the corresponding interlayer space to realize dynamic sealing, and the socket rod 601 is rotatably connected with the driving shaft 4 to vertically move. In order to improve the sealing performance, as shown in fig. 5, the end part of the plugging rod 603 is provided with wear-resistant rubber 604, the surfaces of the socket rods 601 on the upper side and the lower side of the plugging rod 603 are respectively provided with a sealing rubber strip 605, the length direction of the plugging rod 603 is also provided with a sealing rubber strip 605, and the wear-resistant rubber 604 and the sealing rubber strip 605 are respectively contacted with the inner wall of the corresponding interlayer space, so that sealing contact during expansion and contraction is well realized.

It should be further noted that, in the present disclosure, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Therefore, it will be appreciated by those skilled in the art that any modifications and equivalent substitutions of the present embodiment without departing from the technical spirit of the present utility model can be made by those skilled in the art based on the technical principles disclosed in the present utility model, and the present utility model is also intended to be within the scope of the present utility model.

Claims

1. The utility model provides a steam jacketed kettle, includes the pot body (1), its characterized in that: the cross section of the pot body (1) is semicircular, the pot body comprises a semicircular arc bottom shell (101), a cover plate (102) positioned at the top and end covers (103) positioned at the front end and the rear end, the arc bottom shell (101) and the end covers (103) are of double-layer structures and are provided with interlayer spaces, and the interlayer spaces are used for containing steam;

the novel air conditioner is characterized in that sliding parting strips (2) are symmetrically arranged in an interlayer space of the arc bottom shell (101) in a left-right symmetrical mode, the sliding parting strips (2) are in dynamic sealing fit with the interlayer space, an exhaust valve and an air inlet valve are connected in the interlayer space between the two sliding parting strips (2), each sliding parting strip (2) is fixedly connected with one end of an arc rod (3), the other end of the arc rod (3) stretches out of the side edge of the cover plate (102) and then is connected with an adjusting mechanism, and the adjusting mechanism can synchronously drive the left sliding parting strip and the right sliding parting strip (2) to be close to or far away from each other in the interlayer space.

2. The steam jacketed kettle as claimed in claim 1, wherein: the interlayer space in the end cover (103) is provided with a telescopic rod (6), the telescopic rod (6) is parallel to the diameter setting of the arc bottom shell (101), two ends of the telescopic rod (6) are respectively in dynamic sealing contact with the arc inner wall of the interlayer space, the telescopic rod (6) is connected with the adjusting mechanism, and when the adjusting mechanism drives the sliding parting strips (2) to be close to each other, the telescopic rod (6) moves down vertically.

3. The steam jacketed kettle as claimed in claim 2, wherein: the adjusting mechanism comprises a driving shaft (4), a driving gear (5), a driven gear (7), a screw rod (8), a pressing plate (10) and a guide rod (9), wherein the driving shaft (4) is vertically and rotationally matched with the center of the telescopic rod (6), and penetrates through the cover plate (102) by screw threads in a matched mode, the driving gear (5) is fixed at the top end of the driving shaft (4), the driving gear (5) is meshed with the driven gear (7), the driven gear (7) is fixedly connected to the top end of the screw rod (8), the screw rod (8) is rotationally arranged above the cover plate (102), the screw rod (8) penetrates through the pressing plate (10) by screw threads in a matched mode, the pressing plate (10) is in vertical sliding fit with the guide rod (9), and one side bottom end of the pressing plate (10) is always in extrusion contact with the top end of the arc-shaped rod (3) through an arc-shaped tension spring (16).

4. A steam jacketed kettle as claimed in claim 3, wherein: the arc-shaped rod (3) extends and bends along the radian direction of the arc-shaped bottom shell (101).

5. The steam jacketed kettle as set forth in claim 4, wherein: the device comprises a mounting plate (13), two ends of the mounting plate (13) are respectively sleeved on two driving shafts (4) in a clearance fit manner, a driving motor (14) is arranged in the center of the mounting plate (13), and a driving wheel (15) driven by the driving motor (14) is in transmission connection with two driven wheels (11) respectively fixedly connected to the two driving shafts (4) through a belt (12).

6. A steam jacketed kettle as claimed in claim 3, wherein: the telescopic rod (6) comprises a socket rod (601) and a plug rod (603), notches which are n-shaped are formed in two ends of the socket rod (601), the plug rod (603) is connected in the notches through elastic elements (602), and the socket rod (601) is rotationally connected with the driving shaft (4).

7. The steam jacketed kettle of claim 6, wherein: the end part of the plug rod (603) is provided with wear-resistant rubber (604); the surface of the spigot-and-socket rod (601) on the upper side and the lower side of the plug-in rod (603) is respectively provided with a sealing rubber strip (605), the length direction of the plug-in rod (603) is also provided with a sealing rubber strip (605), and the wear-resistant rubber (604) and the sealing rubber strip (605) are respectively contacted with the inner wall of the corresponding interlayer space.