CN210054436U - Dough twist machine head with non-exposed surface - Google Patents

Abstract

The utility model relates to a dough twist machine aircraft nose does not reveal face, including main part, inlet pipe, feeding mouth, discharging pipe and die cover, the main part is one end open-ended column cavity, the feeding mouth be with main part open end assorted flange, the flange middle part is equipped with outside extension's guide mouth, and the inlet pipe correspondence cup joints in the guide mouth outside, and the inlet pipe outer wall has cup jointed first gear, and the guide mouth outer wall sets up reverse screw, when the aircraft nose rotates along with first gear, rotates the dough backward extrusion in with inlet pipe and the guide mouth gap through reverse screw to avoid revealing the face.

Description

Dough twist machine head with non-exposed surface

Technical Field

The utility model relates to a fried dough twist machine technical field, concretely relates to dough twist machine aircraft nose does not show.

Background

The fried dough twist is a traditional special snack in China, and is popular with people because of sweet, crisp, sweet but not greasy, fresh taste and fragrance of teeth and cheeks. The fried dough twist machine is a device for processing fried dough twists at present, and is widely used due to high processing efficiency and good forming. However, the existing twist machine extrudes, rotates and twists into strands through the machine head to form twist, the feeding device and the machine head are connected through the rotary sealing joint, and the surface exposure phenomenon is easy to occur when the pressure is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome above-mentioned technique not enough, solve among the prior art rotary seal and lead to the technical problem of the face that exposes, the utility model discloses a dough twist machine aircraft nose does not expose.

The utility model discloses the concrete technical scheme who takes does: a head of a dough twist machine with an unexposed surface comprises a main body, a feeding pipe, a feeding nozzle, a discharging pipe and a mold cover, wherein the main body is a columnar cavity with an opening at one end, the feeding nozzle is a flange matched with the opening end of the main body, a material guide port extending outwards is arranged in the middle of the flange, the feeding pipe is correspondingly sleeved outside the material guide port, a first gear is sleeved on the outer wall of the feeding pipe, the first gear, the feeding nozzle and the main body are fixedly connected through bolts, and reverse threads are arranged on the outer wall of the material guide port; the main part front end is equipped with a plurality of groups and is equipped with the discharging pipe about main part axle center annular array distributes, the discharging pipe front end stretches out the main part partial shipment and is equipped with the second gear, and the discharging pipe front end is equipped with the die cover through the detachable mode, is equipped with on the die cover to be no less than two discharge openings.

Preferably, the outer wall of the discharge pipe is provided with reverse threads. The first gear is assembled on the outer wall of the feeding pipe through a bearing.

Further, the second gear is fitted with the tapping pipe by a key; or the outer wall of the discharge pipe is provided with a multi-edge part, and the second gear is provided with an assembly hole matched with the multi-edge part. The discharging pipes are divided into three groups.

The beneficial technical effects are as follows: the outer wall of the material guide opening is provided with reverse threads, and when the machine head rotates along with the first gear, the machine head reversely extrudes dough in a gap between the feeding pipe and the material guide opening through the rotation of the reverse threads, so that the dough exposure is avoided.

Drawings

FIG. 1 is a schematic illustration of a head installation;

FIG. 2 is a schematic front view of the handpiece;

fig. 3 is a schematic cross-sectional view of a handpiece.

In the figure, 101 a frame, 102 a cylinder, 103 a squeezing piston, 104 a feeding pipe, 105 a cylinder, 106 a driving motor, 107 a cutting knife, 108 a transmission belt, 201 a main body, 202 a first gear, 203 an internal gear, 204 a feeding nozzle, 205 a second gear, 206 a die cover, 207 a bolt, 208 a feeding pipe, 209 a discharging pipe and 210 a bearing.

Detailed Description

A head of a dough twist machine with non-exposed surface, which is shown in figures 1-2: the feeding device comprises a main body 201, a feeding pipe 208, a feeding nozzle 204, a discharging pipe 209 and a mold cover 206, wherein the main body 201 is a cylindrical cavity with an opening at one end, the feeding nozzle 204 is a flange matched with the opening end of the main body 201, a material guide port extending outwards is arranged in the middle of the flange, the feeding pipe 208 is correspondingly sleeved outside the material guide port, a first gear 202 is sleeved on the outer wall of the feeding pipe 208, the first gear 202, the feeding nozzle 204 and the main body are fixedly connected through a bolt 207, and reverse threads are arranged on the outer wall of the material guide port; the main part front end is equipped with a plurality of groups and is equipped with the discharging pipe 209 about main part axle center annular array distributes, the discharging pipe 209 front end stretches out the main part and is equipped with second gear 205, and discharging pipe 209 front end is equipped with the mould lid 206 through the detachable mode, is equipped with on the mould lid 206 to be no less than two discharge openings.

The front end of the main body is provided with a plurality of groups of discharging pipes 209 distributed in an annular array mode relative to the axis of the main body, the front ends of the discharging pipes 209 extending out of the main body are provided with second gears 205, the front ends of the discharging pipes 209 are provided with a die cover 206 in a detachable mode, and the die cover 206 is provided with at least two discharging holes; the dough is divided into three strands to enter the discharging pipe 209 correspondingly after entering the main body 201 from the material guiding port, the discharging pipe 209 is provided with a second gear 205, the front end of the machine head is provided with an inner gear corresponding to the second gear 205, the inner gear drives the second gear 205 to rotate in the rotating process of the machine head, and the discharging pipe 209 is three groups. The outer wall of the discharge pipe 209 is provided with reverse threads, reverse propelling force is generated through rotation of the reverse threads, and dough in the gap is reversely extruded, so that the dough is prevented from being exposed. The middle part of the frame is provided with a driving mechanism corresponding to the first gear 202, and the front side of the frame is provided with an internal gear corresponding to the second gear 205. The driving mechanism is a driving motor correspondingly connected with a speed reducer, and the first gear 202 is assembled on the outer wall of the feeding pipe 208 through a bearing 210; the second gear 205 is fitted with a discharge pipe 209 by a key; or the outer wall of the discharge pipe 209 is provided with a multi-edge part, and the second gear 205 is provided with an assembly hole matched with the multi-edge part. The discharging pipe 209 divides the dough into two strands through the die cover 206, the second gear 205 rotates to twist the two strands, and the noodles led out from the three groups of discharging pipes 209 rotate along with the first gear 202 to be twisted for the second time to form a twist.

The dough twist machine with the non-exposed dough integrally comprises a machine head, a machine frame and feeding equipment, wherein at least two groups of feeding equipment are arranged on one side of the machine frame, the feeding equipment is connected with the machine head through a feeding pipe, dough is placed in a feeding device and is guided into the machine head through the feeding device and the feeding pipe; the feeding device comprises a cylinder and an extrusion piston, an end cover is arranged above the cylinder, the upper edge of the cylinder is communicated with a feeding pipe 208 through a feeding pipe, and the bottom of the cylinder is provided with a cylinder correspondingly connected with the extrusion piston; the dough is placed into the cylinder body, the extrusion piston is driven by the cylinder to extrude, and the dough is extruded into the machine head.

The machine head comprises a main body 201, a feeding pipe 208, a feeding nozzle 204, a discharging pipe 209 and a mold cover 206, wherein the main body 201 is a cylindrical cavity with one open end, the feeding nozzle 204 is a flange matched with the open end of the main body 201, a material guide port extending outwards is arranged in the middle of the flange, the feeding pipe 208 is correspondingly sleeved outside the material guide port, a first gear 202 is sleeved on the outer wall of the feeding pipe 208, the first gear 202, the feeding nozzle 204 and the main body 201 are fixedly connected through a bolt 207, and reverse threads are arranged on the outer wall of the material guide port; the driving device drives the first gear 202 through a chain so as to rotate the machine head, and in the rotating process, as the outer wall of the material guide opening is provided with reverse threads, the material guide opening rotates through the reverse threads to generate reverse propelling force, and the feeding pipe 208 and dough in a gap of the material guide opening are reversely extruded out, so that the dough exposure is avoided.

The front end of the main body 201 is provided with a plurality of groups of discharging pipes 209 distributed in an annular array manner relative to the axis of the main body 201, the part of the front end of each discharging pipe 209, which extends out of the main body 201, is provided with a second gear 205, the front end of each discharging pipe 209 is provided with a die cover 206 in a detachable manner, and the die cover 206 is provided with at least two discharging holes; the dough is divided into three strands to enter the discharging pipe 209 correspondingly after entering the main body 201 from the material guiding port, the discharging pipe 209 is provided with a second gear 205, the front end of the machine head is provided with an inner gear corresponding to the second gear 205, the inner gear drives the second gear 205 to rotate in the rotating process of the machine head, and the discharging pipe 209 is three groups. The outer wall of the discharge pipe 209 is provided with reverse threads, reverse propelling force is generated through rotation of the reverse threads, and dough in the gap is reversely extruded, so that the dough is prevented from being exposed. The middle part of the frame is provided with a driving mechanism corresponding to the first gear 202, and the front side of the frame is provided with an internal gear corresponding to the second gear 205. The driving mechanism is a driving motor correspondingly connected with a speed reducer, and the first gear 202 is assembled on the outer wall of the feeding pipe 208 through a bearing 210; the second gear 205 is fitted with a discharge pipe 209 by a key; or the outer wall of the discharge pipe 209 is provided with a multi-edge part, and the second gear 205 is provided with an assembly hole matched with the multi-edge part. The discharging pipe 209 divides the dough into two strands through the die cover 206, the second gear 205 rotates to twist the two strands, and the noodles led out from the three groups of discharging pipes 209 rotate along with the first gear 202 to be twisted for the second time to form a twist.

The first gear 202, the feed nozzle 204 and the main body 201 are fixedly connected through a bolt 207, the machine head is kept fixed, the first gear 202 is sleeved with the feed pipe 208 through a bearing 210, the machine head can rotate relative to the feed pipe 208, and friction is reduced through the bearing 210.

The frame front side is equipped with the transmission band that corresponds the aircraft nose, there is the cutting knife transmission band top through the leg joint, and the support top links firmly the cylinder of downward drive cutting knife. The fried dough twist is cut and formed by the cutting knife driven by the cylinder, and the number of the feeding devices is two. The alternative feeding can be carried out by two groups of feeding devices, so that the non-intermittent operation of the fried dough twist machine is ensured, and the production efficiency is improved.

The driving mechanism and the air cylinder are correspondingly connected to a controller, and the controller is correspondingly connected with a control knob and a display panel. And a controller is arranged, and the thickness of the fried dough twist and the cutting length of the fried dough twist are set by adjusting the speed.

The head of the fried dough twist machine can be transversely or longitudinally arranged in front of the frame of the fried dough twist machine.

Claims (5)

1. The utility model provides a dough twist machine aircraft nose does not have exposed surface, includes main part, inlet pipe, feed nozzle, discharging pipe and die cover, characterized by: the feeding device comprises a main body, a feeding nozzle, a feeding pipe, a first gear, a second gear, a feeding nozzle and a main body, wherein the main body is a columnar cavity with an opening at one end, the feeding nozzle is a flange matched with the opening end of the main body, a material guide port extending outwards is arranged in the middle of the flange, the feeding pipe is correspondingly sleeved outside the material guide port, the outer wall of the feeding pipe is sleeved with the first gear, the feeding nozzle and the main body; the main part front end is equipped with a plurality of groups and is equipped with the discharging pipe about main part axle center annular array distributes, the discharging pipe front end stretches out the main part partial shipment and is equipped with the second gear, and the discharging pipe front end is equipped with the die cover through the detachable mode, is equipped with on the die cover to be no less than two discharge openings.

2. The faceless fried dough twist machine head of claim 1, wherein: the outer wall of the discharging pipe is provided with reverse threads.

3. The faceless fried dough twist machine head of claim 1, wherein: the first gear is assembled on the outer wall of the feeding pipe through a bearing.

4. The faceless fried dough twist machine head of claim 1, wherein: the second gear is assembled with the discharge pipe through a key; or the outer wall of the discharge pipe is provided with a multi-edge part, and the second gear is provided with an assembly hole matched with the multi-edge part.

5. The faceless fried dough twist machine head of claim 1, wherein: the discharging pipes are divided into three groups.

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