CN111011414A

CN111011414A - Rolled pipe

Info

Publication number: CN111011414A
Application number: CN201911386874.4A
Authority: CN
Inventors: 裴学华
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-12-29
Filing date: 2019-12-29
Publication date: 2020-04-17

Abstract

The invention discloses a rolled noodle tube, which belongs to the field of wheaten food processing tools and can be used for randomly adjusting the thickness of a wrapper. The invention is realized by the following steps that the device comprises a rolled tube and a core rod; the part of the core bar between the two core bar frames is divided into a left section and a right section, and the positions of the core bar at the two end heads of the rolled tube are symmetrically provided with a flange with an inward slope surface; the two ends of the tube rolling cavity are provided with a sleeve frame in the shape of a circular ring and a plurality of sleeves with axes focused on the ring center, a cylindrical support rod is sleeved in each sleeve, the inner end of each support rod touches the flange slope surface at the end part of the core rod, the outer end of each support rod is sleeved with a circular rubber ring, when the core rod is operated and rotated and moves in the axial direction, the support rods move inwards or outwards together under the combined action of the rubber ring at the outer end of each support rod and the flange slope surface at the inner end of each support rod, and the diameter of the rubber ring sleeved on the outer end of each support rod is reduced or increased. The design is suitable for rolling the dough sheet.

Description

Rolled pipe

Technical Field

The invention relates to a kitchen wheaten food processing tool, in particular to a rolled noodle tube.

Background

In the processing of wheaten food, a round bar (tube) -shaped dough rolling tool is often used, which is mainly used for rolling dough into a sheet or a certain shape, for the rolling processing of the sheet-shaped dough cover, the thickness of the sheet-shaped dough cover is often limited according to specific conditions, for example, the thickness of the dumpling dough cover is generally 2 to 3mm, the thickness of the steamed stuffed bun is 4 to 5mm, and the thickness of the steamed stuffed bun is long, the thickness is controlled by operators, the thickness is not thin or uniform, the rolling shaft is difficult to be uniform, in recent years, a rolling shaft for solving the problem is provided, a circle of rubber ring with certain thickness is sleeved at two ends of the rolling shaft to cushion a shaft rod, a pair of rubber rings with different thicknesses are replaced when the thickness of a dough cover needs to be changed, the mode is complicated, the rubber rings are easy to scatter and lose, therefore, a rolling shaft which can be freely adjusted to the height of the padded shaft rod and is arranged together with the shaft rod is needed.

Disclosure of Invention

The invention aims to provide a new technical scheme of a rolled tube, which can solve the problems.

The technical scheme of the invention comprises the following steps: the rolling pipe comprises a round pipe-shaped rolling pipe, wherein a circular ring-shaped core rod frame is fixedly arranged near two ends of the inside of a pipe cavity of the rolling pipe in a bilateral symmetry mode, threads with opposite rotation directions are respectively processed in central round holes on the left core rod frame and the right core rod frame to form screw holes, and a round core rod which longitudinally penetrates through the pipe cavity of the rolling pipe, is connected together in a butt-joint combination mode and protrudes out of one section of the end face of the rolling pipe at the right end is matched and connected in the screw holes; the part of the core bar between the two core bar frames is divided into a left section and a right section, wherein the left end section of the right section is processed into a spline shaft, the end surface of the right end section of the left section is processed with a shaft sleeve matched and combined with the spline shaft, the left section and the right section are meshed and penetrated into a whole core bar through the spline shaft and the shaft sleeve, when the right end of the core bar is operated to rotate the whole core bar, the left section and the right section of the core bar can move in the opposite directions or back to back along the axial direction of the shaft rod under the action of opposite threads of screw holes on the core bar frames at each side, and meanwhile, flanges with inward slopes are symmetrically arranged at the positions of the two end heads of the rolled tube on the core bar; the two ends of the tube rolling cavity are provided with a sleeve frame in the shape of a same circular ring, a plurality of sleeves with axes focused on the ring center are uniformly distributed on the outward ring surface of the sleeve frame, a cylindrical stay bar penetrates through the sleeves, the inner ends of the stay bars touch the flange slope surface at the end part of the core bar, the outer ends of the stay bars are sleeved by a rubber ring sleeve which is in the shape of a circular ring, has certain elastic expansion performance and is uniformly provided with supporting plates with the same number as the stay bars on the inner circular surface, and each stay bar is externally supported on one supporting plate; when the core rod is operated to rotate and moves in the axial direction, the stay rods move inwards or outwards together under the combined action of the rubber rings at the outer ends of the stay rods and the flange slopes at the inner ends of the stay rods, the diameter of the rubber rings sleeved on the outer ends of the stay rods is reduced or increased, and the movement adjustment is performed by folding the rubber rings in the circumference of the rolled pipe or protruding the rubber rings out of the circumference of the rolled pipe.

The invention has the beneficial effects that: the cushion height of the rolled dough tube can be adjusted freely to process dough sheets with different thicknesses.

Drawings

FIG. 1 is a front view of a rolled pipe of the present design.

FIG. 2 is an enlarged detail view of the left and right ends of the rolled pipe (the rubber ring is contracted in the working state inside the circumference of the rolled pipe).

FIG. 3 is a front and cross-sectional view of the cannula housing and the cannula and struts thereon.

Fig. 4 is a front and cross-sectional view of the rubber ring and the stay plate.

FIG. 5 is a front and longitudinal cross-sectional view of the core rod and flanges thereon.

Fig. 6 is a front and cross-sectional view of the outer ends of the struts looped over the rubber rings (with the rubber rings in a contracted, collapsed state).

Fig. 7 is a front and cross-sectional view of the outer ends of the struts with the rubber rings looped (the rubber rings in an expanded state).

FIG. 8 is an exploded assembly view of the detail parts of the rolled face tube.

Figure 9 is a view of the rolled face tube being shimmed by the operation (i.e. the rubber ring is in an enlarged state).

In each figure, 1 is a rolled tube, 2 is a rubber ring, 3 is a core bar, 4 is a core bar frame, 5 is a support rod, 6 is a sleeve, 7 is a sleeve frame, 8 is a flange, 9 is a spline shaft, 10 is a shaft sleeve, and 11 is a support plate.

Detailed Description

As shown in fig. 1 and 2, the rolled pipe of the design comprises a rolled pipe 1 in a circular pipe shape, wherein the rolled pipe 1 is fixedly provided with a circular ring-shaped core rod frame 4 near two ends in a pipe cavity of the rolled pipe 1 in a bilateral symmetry manner, threads with opposite rotation directions are respectively processed in central circular holes on the left core rod frame and the right core rod frame to form screw holes, a circular core rod 3 which longitudinally penetrates through the pipe cavity of the rolled pipe 1, is connected together in a butt joint combination manner and protrudes one section of the end surface of the rolled pipe at the right end is exposed, and as shown in fig. 1 and 2, the outward protruding part at the right end of the core rod facilitates twisting operation; the part of the core rod 1 between the two core rod frames 4 is divided into a left section and a right section, wherein the left end section of the right section is processed into a spline shaft 9, the end surface of the right end section of the left section is processed with a shaft sleeve 10 matched and combined with the spline shaft, and the left section and the right section are meshed and connected into an integral core rod through the spline shaft and the shaft sleeve, as shown in fig. 2 and 8; when the right end of the core rod 1 is operated to rotate the whole core rod, the left and right sections of the core rod can move in the axial direction of the shaft rod 1 or move back to back under the action of the threads with opposite turning directions of the screw holes of the core rod rack on each side, namely move to be close to or away from each other, and meanwhile, flanges 8 with inward slopes are symmetrically arranged at the positions of the two end heads of the rolled pipe 1 on the core rod 3 in a left-right mode, as shown in fig. 2, 5, 8 and 9; the two ends of the tube cavity of the rolled tube 1 are both provided with a sleeve frame 7 with the same circular ring shape, a plurality of sleeves 6 with axes focused on the ring center are uniformly distributed on the outward ring surface of the sleeve frame, and a cylindrical support rod 5 is sleeved in each sleeve 6 in a penetrating way, as shown in figure 3; the inner ends of the stay bars 5 are all contacted with the slope surface of the flange 8 at the end part of the core bar 3, and the outer ends of the stay bars 5 are sleeved by a ring-shaped rubber ring 2 with certain elastic expansion performance, as shown in figures 2 and 8; the rubber ring 2 is a plastic material (such as PVC material), it can have elastic expansion performance and certain hardness at the same time through appropriate processing, meet the performance needs of many occasions, there are fagging plates 11 with the same quantity as the quantity of brace rod evenly on the inner circular surface of the rubber ring 2, the fagging is stamped and processed by rigid sheet steel plate, under the top contact action of the brace rod, the fagging can prop up the rubber ring of the outer lane into the most approximate round shape to obtain the smooth and easy rolling effect, as shown in fig. 4, fig. 6, fig. 7, otherwise, if there is no fagging under the rubber ring, it is apt to produce the uncomfortable vibrations when the rolling tube rolls in the work; when the core rod 3 is operated to rotate, the core rod 3 moves in the axial direction again, for example, the right end of the core rod 3 is twisted to rotate forward, as mentioned above, the left and right sections of the core rod will move toward the middle under the effect of the screw holes on the respective core rod frames rotating in opposite directions and approaching to the middle, the slope of the flange 8 on the core rod will force the stay rods in the respective sleeves to move outward and expand the rubber rings at the outer ends until the outer ends protrude to a position larger than the pipe diameter of the rolled pipe to cushion the rolled pipe by a certain height, for example, the right end of the core rod 3 is twisted to rotate reversely, the left and right sections of the core rod will move away to the two sides under the effect of the screw holes on the respective core rod frames rotating in opposite directions and extending to the pipe diameter, the slope of the flange 8 on the core rod will move to the two sides, the rubber rings sleeved on the outer ends of the stay rods will force the stay rods to move inward, and the diameter of the rubber rings at the outer ends of the stay rods will shrink until, namely, the rolling tube is folded in the circumference of the rolling tube to be adjusted in a moving way, as shown in figures 6, 7 and 9, so that the padded height of the rolling tube is reduced, the rolled dough sheet is thin, the thickness of the dough sheet can be adjusted within a few millimeters, the adjustment requirement can be met by slightly operating the outer end of the core rod to rotate for two or three circles, and the adjustment requirement is convenient, random and convenient.

Claims

1. A kind of rolling surface tube, it includes the rolling tube of the round tube shape, its characteristic is said rolling tube in its tube cavity near both ends each fixed with a round ring shape core bar shelf, the central round hole on the left, right core bar shelf processes the screw thread with opposite direction of rotation separately to become the screw hole, match and link with one longitudinal through rolling tube lumen, butt joint make up link together and expose and bulge rolling tube end one section round core bar in the right end; the part of the core bar between the two core bar frames is divided into a left section and a right section, wherein the left end section of the right section is processed into a spline shaft, the end surface of the right end section of the left section is processed with a shaft sleeve matched and combined with the spline shaft, the left section and the right section are meshed and penetrated into a whole core bar through the spline shaft and the shaft sleeve, when the right end of the core bar is operated to rotate the whole core bar, the left section and the right section of the core bar can move in the opposite directions or back to back along the axial direction of the rolled tube under the action of opposite threads of screw holes on the core bar frames at each side, and meanwhile, flanges with inward slopes are symmetrically arranged at the positions of the two end heads of the rolled tube on the core bar; the two ends of the tube rolling cavity are provided with a sleeve frame in the shape of a same circular ring, a plurality of sleeves with axes focused on the ring center are uniformly distributed on the outward ring surface of the sleeve frame, a cylindrical stay bar penetrates through the sleeves, the inner ends of the stay bars touch the flange slope surface at the end part of the core bar, the outer ends of the stay bars are sleeved by a rubber ring sleeve which is in the shape of a circular ring, has certain elastic expansion performance and is uniformly provided with supporting plates with the same number as the stay bars on the inner circular surface, and each stay bar is externally supported on one supporting plate; when the core rod is operated to rotate and moves in the axial direction, the stay rods move inwards or outwards together under the combined action of the rubber rings at the outer ends of the stay rods and the flange slopes at the inner ends of the stay rods, the diameter of the rubber rings sleeved on the outer ends of the stay rods is reduced or increased, and the movement adjustment is performed by retracting the rubber rings in the circumference of the rolling rods or protruding the rubber rings out of the circumference of the rolling rods.