CN117882746A - Automatic demoulding device for dried meat floss cakes - Google Patents

Abstract

The invention relates to the technical field of demolding equipment, and provides an automatic dried meat floss cake demolding device which solves the problems that an existing demolding device can damage a finished product and high energy consumption of equipment in the demolding process.

Description

Automatic demoulding device for dried meat floss cakes

Technical Field

The invention relates to the technical field of demolding equipment, in particular to an automatic demolding device for dried meat floss cakes.

Background

When the dried meat floss cake is manufactured, the flour cake wrapped with the dried meat floss stuffing is put into a die, then baked by baking equipment to form the dried meat floss cake, and the dried meat floss cake is required to be demolded from the die after baking is finished. The temperature of the mold is high when the mold is taken out of the baking equipment (the temperature reaches 180-210 ℃ when the mold is baked in the baking equipment), and the mold is cooled, and then the mold is manually inverted, vibrated and patted to enable the meat muffin to be demolded from the mold. The mold is cooled for a long time (usually more than 15 min), so that the production period of the meat muffin is long. Moreover, this kind of mode inefficiency of manual demoulding, if the dynamics of beating the mould is big, can make the dried meat floss cake drop fast from the mould for dried meat floss cake surface desquamation influences selling the looks.

Disclosure of Invention

Therefore, the invention aims at the problems, and provides the automatic stripping device for the dried meat floss cakes, which has high stripping efficiency and avoids peeling of the surfaces of the dried meat floss cakes.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

The automatic dried meat floss cake demolding device comprises a frame, a first belt conveying mechanism, a first turnover mechanism, a second belt conveying mechanism and a third belt conveying mechanism, wherein the first belt conveying mechanism, the first turnover mechanism, the second belt conveying mechanism and the third belt conveying mechanism are arranged on the frame;

The first turnover mechanism comprises a first shell, a plurality of first conveying rollers, a plurality of conveying chain wheels, two conveying chains and a plurality of positioning pieces, wherein the side surface of the first shell is semicircular, the first conveying roller rings are arranged in the first shell, the conveying chain wheels are arranged at the two ends of each first conveying roller, the conveying chains are respectively wrapped on the conveying chain wheels at the two ends of each first conveying roller, and the positioning pieces are arranged on the conveying chains;

The first belt conveying mechanism is provided with a plurality of mold combinations, each mold combination comprises a plurality of mold units and a plurality of overturning hinges, each overturning hinge is arranged on two sides above each mold unit, every two adjacent mold units are rotatably connected through the overturning hinge, each mold unit is provided with a plurality of forming grooves, two sides of each mold unit are provided with positioning grooves, and the positioning grooves are correspondingly arranged with the positioning pieces.

Further, one end, far away from the first output port, of the second belt conveying mechanism is provided with a semi-annular belt conveying mechanism, the other end of the semi-annular belt conveying mechanism is provided with a fourth belt conveying mechanism, and the other end of the fourth belt conveying mechanism is provided with a second turnover mechanism and a fifth belt conveying mechanism;

The two ends of the second turnover mechanism are respectively provided with a second input port and a second output port, one side of the second input port is provided with a fourth belt conveying mechanism, one side of the second output port is provided with a fifth belt conveying mechanism, and the fourth belt conveying mechanism is arranged above the fifth belt conveying mechanism;

The second turnover mechanism comprises a second shell, a plurality of second conveying rollers and turnover conveying belts, the side surface of the second shell is semicircular, each second conveying roller ring is arranged in the second shell, and the turnover conveying belts are wrapped on the outer sides of the second conveying rollers.

Further, a baffle plate is arranged on the semi-annular belt conveying mechanism.

Further, the second belt conveying mechanism comprises two conveying components arranged at intervals and a conveying rod connected with the two conveying components, the conveying rod is arranged at two ends of the conveying components, the conveying components comprise sleeves, conveying belts, supporting frames and supporting seats, the supporting frames and the sleeves are arranged on one sides of the supporting seats, the sleeves are arranged at two ends of the supporting frames, and the conveying belts are wrapped outside the sleeves and the supporting frames.

Further, defining the length direction of the die units as longitudinal and the width direction as transverse, each die unit comprises a top plate, a side plate and a first positioning block, the side plate and the first positioning block are connected below the top plate, the side plate is arranged on two transverse sides of the top plate, the first positioning block is arranged on two longitudinal sides of the top plate, each forming groove is formed by downwards sinking the top plate, and the positioning groove is arranged on the outer side of the first positioning block.

Further, the top of the first positioning block is provided with a roller, and the top plate is provided with a through hole at the position corresponding to the roller.

Further, the locating piece comprises a locating rod and a second locating block, one end of the locating rod is connected with the conveying chain, the other end of the locating rod is connected with the second locating block, a plurality of magnetic blocks are embedded in the second locating block, and each die combination is made of iron.

Further, hooks are arranged between the die assemblies, adjacent die assemblies are connected through the hooks, each hook comprises a first hook and a second hook, and the first hooks and the second hooks are respectively arranged on two sides of the die assemblies.

Further, the first hooks and the second hooks are L-shaped hooks, the first hooks are horizontally arranged, and the second hooks are vertically arranged.

Compared with the prior art, the invention has the beneficial effects that:

1. According to the invention, the first belt conveying mechanism, the first turnover mechanism, the second belt conveying mechanism and the third belt conveying mechanism are arranged on the frame, the positioning piece arranged in the first turnover mechanism is matched with the positioning grooves correspondingly arranged on two sides of the die unit, the die assembly is conveyed to the second belt conveying mechanism by the first belt conveying mechanism, the positioning piece can reciprocate under the action of the conveying chain wheel and the conveying chain arranged in the first turnover mechanism, the die assembly can be turned uninterruptedly, continuous demolding is realized, the efficiency is improved, the energy consumption is reduced, and the dried meat floss cake in the die assembly can not be thrown out of the die under the action of the first shell.

2. According to the invention, through the arrangement of the semi-annular belt conveying mechanism, the fourth belt conveying mechanism, the second overturning mechanism and the fifth belt conveying mechanism, the die combination overturning can be realized through the first overturning mechanism, so that a worker can conveniently check whether residual dough sheets exist in the die or not, further, the next circulation production can be continued, the first overturning mechanism and the second overturning mechanism can be staggered under the action of the semi-annular belt conveying mechanism, and the occupied field length of the overturning device is reduced.

Drawings

Fig. 1 is a schematic overall structure of a first embodiment of the present invention.

Fig. 2 is a schematic diagram of a belt removal mechanism according to a first embodiment of the present invention.

Fig. 3 is a schematic cross-sectional view of a first tilting mechanism according to a first embodiment of the present invention.

Fig. 4 is an enlarged schematic view of fig. 3 at E.

Fig. 5 is a schematic cross-sectional view of a second tilting mechanism according to a first embodiment of the invention.

Fig. 6 is a schematic diagram of a mold assembly structure according to a first embodiment of the invention.

Fig. 7 is an exploded view of a mold unit according to a first embodiment of the present invention.

Fig. 8 is a schematic structural diagram of a positioning member according to a first embodiment of the invention.

Fig. 9 is an enlarged schematic view of the structure of fig. 1 at a.

Fig. 10 is an enlarged schematic view of the structure at B in fig. 3.

Fig. 11 is an enlarged schematic view of the structure at C in fig. 1.

Fig. 12 is a schematic diagram of a mold assembly structure according to a second embodiment of the invention.

Fig. 13 is a schematic side view of a mold assembly according to a second embodiment of the present invention.

Fig. 14 is an enlarged schematic view of the structure of fig. 13 at D.

Reference numerals illustrate:

A frame 1; a first belt conveying mechanism 2; a first tilting mechanism 3; a second belt conveying mechanism 4; a third belt conveying mechanism 5; a first input port 6; a first output port 7; a first housing 8; a first conveying roller 9; a transmission sprocket 10; a conveying chain 11; a positioning member 12; a die assembly 13; a die unit 14; a flip hinge 15; a forming groove 16; a positioning groove 17; a semi-annular belt conveyor 18; a fourth belt conveying mechanism 19; a second tilting mechanism 20; a fifth belt conveying mechanism 21; a second input port 22; a second output port 23; a second housing 24; a second conveying roller 25; turning the conveyor belt 26; a baffle 27; a spacer groove 28; a conveying member 29; a transfer lever 30; a sleeve 31; a conveyor belt 32; a support frame 33; a support 34; a top plate 35; a side plate 36; a first positioning block 37; a roller 38; a through hole 39; a positioning rod 40; a second positioning block 41; a magnetic block 42; a hook 43; a first hook 44; a second hook 45; notch 46; a synchronizing section 47; a fixing member 48; a synchronizing roller 49; a belt 50; an arc plate 51; a positioning ring 52; a positioning cylinder 53; a positioning pin 54; a clamp lever 55; a rotating lever 56; and a spring 57.

Detailed Description

The following describes embodiments of the present invention in detail with reference to specific examples, so as to solve the technical problem by applying the technical means to the present invention, and the implementation process for achieving the technical effect can be fully understood and implemented accordingly.

Example 1

As shown in fig. 1 to 11, the embodiment provides an automatic dried meat floss cake demolding device, which comprises a frame 1, wherein a first belt conveying mechanism 2, a first turnover mechanism 3, a second belt conveying mechanism 4 and a third belt conveying mechanism 5 are arranged on the frame 1, a first input port 6 and a first output port 7 are respectively arranged at two ends of the first turnover mechanism 3, the first belt conveying mechanism 2 is arranged at one side of the first input port 6, the second belt conveying mechanism 4 is arranged at one side of the first output port 7, the second belt conveying mechanism 4 is arranged above the first belt conveying mechanism 2, the third belt conveying mechanism 5 is arranged between the first belt conveying mechanism 2 and the second belt conveying mechanism 4, a spacing groove 28 is formed in the second belt conveying mechanism 4, so that dried meat floss cakes can pass through the spacing groove 28 and fall into the third belt conveying mechanism 5 to finish demolding, and the distance from the top of the second belt conveying mechanism 4 to the top of the third belt conveying mechanism 5 is not more than three dried meat floss cakes in demolding thickness. Meanwhile, a sponge (not shown in the figure) can be arranged on the surface of the third belt conveying mechanism 5 for wrapping so as to achieve the purpose of buffering.

The first turnover mechanism 3 comprises a first shell 8, a plurality of first conveying rollers 9, a plurality of conveying chain wheels 10, two conveying chains 11 and a plurality of positioning pieces 12, the side surface of the first shell 8 is semicircular, the first conveying rollers 9 are annularly arranged in the first shell 8, the conveying chain wheels 10 are arranged at two ends of the first conveying rollers 9, the conveying chains 11 are respectively wrapped on the conveying chain wheels 10 at two ends of the first conveying rollers 9, the positioning pieces 12 are arranged on the conveying chain 11, the first belt conveying mechanism 2 is provided with a plurality of die assemblies 13, each die assembly 13 comprises a plurality of die units 14 and a plurality of turnover hinges 15, each turnover hinge 15 is arranged at two sides above the die units 14, adjacent die units 14 are rotatably connected through the turnover hinges 15, a plurality of forming grooves 16 are formed in each die unit 14, positioning grooves 17 are formed in two sides of each die unit 14, and the positioning grooves 17 are correspondingly formed in the positioning pieces 12.

A notch 46 is formed in one side of the inner ring of the first shell 8 of the first turnover mechanism 3, a synchronizing component 47 is arranged at the notch 46, a plurality of fixing pieces 48 are arranged on two sides of the notch 46, each fixing piece 48 is arranged on the outer side of the first shell 8, the synchronizing component 47 comprises a plurality of synchronizing rollers 49 and a belt 50, two ends of each synchronizing roller 49 are connected with the fixing pieces 48, and the belt 50 is wrapped on the outer side of the synchronizing roller 49; when the first turnover mechanism 3 turns the die assembly 13 over half, the dried meat floss cake in the die assembly 13 can be contacted and rubbed with the first shell 8 due to weight, so that the skin of the dried meat floss cake is possibly worn, and the friction between the dried meat floss cake and the first shell 8 can be avoided by the arrangement of the synchronizing component 47; the width of the belt 50 is smaller than the interval between the two overturning hinges 15 on the die assembly 13, the inner surface of the belt 50 protrudes from the inner surface of the first shell 8, and the overturning hinges 15 protrude from the top of the die assembly 13, so that the belt 50 can be attached to the top of the die assembly 13, and the falling of the dried meat floss cakes is blocked.

The number of the first conveying roller 9, the conveying chain wheel 10, the positioning piece 12, the forming groove 16, the fixing piece 48 and the synchronizing roller 49 is not specifically limited, and is adjusted according to practical situations, so that the structure of the device is conveniently displayed, connecting rods between the frame 1 and the second belt conveying mechanism 4, the first turnover mechanism 3 and the third belt conveying mechanism 5 are not shown in the figure, and the conventional structure in the field is not repeated here.

The second belt conveying mechanism 4 is far away from one end of the first output port 7 and is provided with a semi-annular belt conveying mechanism 18, the other end of the semi-annular belt conveying mechanism 18 is provided with a fourth belt conveying mechanism 19, the other end of the fourth belt conveying mechanism 19 is provided with a second turnover mechanism 20 and a fifth belt conveying mechanism 21, two ends of the second turnover mechanism 20 are respectively provided with a second input port 22 and a second output port 23, one side of the second input port 22 is provided with the fourth belt conveying mechanism 19, one side of the second output port 23 is provided with the fifth belt conveying mechanism 21, the fourth belt conveying mechanism 19 is arranged above the fifth belt conveying mechanism 21, the second turnover mechanism 20 comprises a second shell 24, a plurality of second conveying rollers 25 and a turnover conveying belt 26, the side surface of the second shell 24 is semi-annular, each second conveying roller 25 is annularly arranged in the second shell 24, and the turnover conveying belt 26 is wrapped outside each second conveying roller 25.

The second input port 22 both sides are equipped with the arc 51, arc 51 and second casing 24 integrated into one piece, the arc 51 outside is equipped with the setting element, the setting element includes holding ring 52, locating cylinder 53 and locating pin 54, the holding ring 52 is located the arc 51 outside, be equipped with locating cylinder 53 on the fourth belt conveying mechanism 19, the locating pin 54 passes holding ring 52 and locating cylinder 53 and fixes the arc 51, the mould combination 13 can cause certain skew to lead to unable entering second input port 22 after semi-annular belt conveying mechanism 18, can avoid through setting up arc 51.

The number of the second conveying rollers 25 is not specifically limited, and the first belt conveying mechanism 2, the second belt conveying mechanism 4, the third belt conveying mechanism 5, the fourth belt conveying mechanism 19, the fifth belt conveying mechanism 21, the first turnover mechanism 3 and the second turnover mechanism 20 should be connected with an external driving device according to actual conditions, which is a conventional technical means and will not be described herein.

The semi-annular belt conveying mechanism 18 is provided with a baffle plate 27, and the baffle plate 27 can prevent the die assembly 13 from falling off when passing through the semi-annular belt conveying mechanism 18.

The second belt conveying mechanism 4 comprises two conveying components 29 arranged at intervals and a conveying rod 30 connected with the two conveying components 29, the interval grooves 28 are formed by the two conveying components 29 at intervals, the conveying rod 30 is arranged at two ends of the conveying components 29, the conveying components 29 comprise a sleeve 31, a conveying belt 32, a supporting frame 33 and a support 34, the supporting frame 33 and the sleeve 31 are arranged at one side of the support 34, the sleeve 31 is arranged at two ends of the supporting frame 33, the two ends of the conveying rod 30 are connected with the sleeve 31, and the conveying belt 32 is wrapped outside the sleeve 31 and the supporting frame 33.

Defining the longitudinal direction of the die units 14 as the longitudinal direction and the width direction as the transverse direction, each die unit 14 comprises a top plate 35, a side plate 36 and a first positioning block 37, wherein the side plate 36 and the first positioning block 37 are connected below the top plate 35, the side plate 36 is arranged on two transverse sides of the top plate 35, the first positioning block 37 is arranged on two longitudinal sides of the top plate 35, each forming groove 16 is formed by downwards sinking the top plate 35, and the positioning groove 17 is arranged on the outer side of the first positioning block 37.

The top of the first positioning block 37 is provided with a roller 38, the top plate 35 is provided with a through hole 39 at the corresponding position of the roller 38, and the roller 38 can avoid friction between the die assembly 13 and the first and second shells 8 and 24.

The locating piece 12 includes locating lever 40 and second locating piece 41, locating lever 40 one end is connected with conveying chain 11, the locating lever 40 other end is connected with second locating piece 41, it is equipped with a plurality of magnetic blocks 42 to inlay on the second locating piece 41, each mould combination 13 is the iron material, second locating piece 41 adopts cylindricly, the size of second locating piece 41 is less than the size of constant head tank 17, can solve mould combination 13 and get into behind the first casing 8, because the transfer chain is difficult to make second locating piece 41 and constant head tank 17 matching very accurately.

Working principle:

The first belt conveying mechanism 2 conveys the die combination 13 into the first turnover mechanism 3, the positioning piece 12 is matched with the positioning groove 17, the die combination 13 is driven to move to the second belt conveying mechanism 4 along an arc shape, and the dried meat floss cakes in the forming groove 16 fall onto the third belt conveying mechanism 5 on the second belt conveying mechanism 4, so that demolding is completed. The die assembly 13 after demolding enters the fourth belt conveying mechanism 19 through turning of the semi-annular belt conveying mechanism 18, and is conveyed to the fifth belt conveying mechanism 21 through the second turnover mechanism 20 to finish turnover, and the die assembly 13 before demolding and the die assembly 13 after demolding are both arranged on the lower layer, so that workers can observe the conditions of the die assembly 13 conveniently.

Example two

As shown in fig. 12-14, unlike the first embodiment, a hook 43 is provided between each of the mold assemblies 13, and adjacent mold assemblies 13 are connected by the hook 43, where the hook 43 includes a first hook 44 and a second hook 45, and the first hook 44 and the second hook 45 are respectively disposed on two sides of the mold assembly 13; the first hooks 44 and the second hooks 45 are L-shaped hooks, the first hooks 44 are horizontally arranged, the second hooks 45 are vertically arranged, and the distance between the adjacent die units 14 is the same as the distance between the adjacent die assemblies 13.

The second hook 45 comprises a clamping rod 55, a rotating rod 56 and a spring 57, wherein one end of the clamping rod 55 clamps the bottom end of the rotating rod 56, the rotating rod 56 can freely rotate along the bottom end, one side, far away from the first hook 44, of the rotating rod 56 is provided with the spring 57, one end of the spring 57 is connected with the rotating rod 56, the other end of the spring 57 is connected with the clamping rod 55, and the separated die assemblies 13 can be buckled by controlling the transmission rates among different belt conveying mechanisms. During buckling, the rotating rod 56 collides with the first hook 44, the rotating rod 56 rotates along the bottom end, and then the rotating rod is reset through the spring 57 to realize buckling on the production line, so that manual operation is not needed; in the separation process, a push rod (not shown in the drawing) is arranged at one side of the conveying line to push the die assembly 13 out along the unsealed side of the first hook 44, so that the separation is realized, and the conventional technical means are not repeated here.

After the demolding of the die combination 13 is completed, the die combination 13 can be conveyed to a tray arranging machine for stacking, when the tray arranging machine is adopted to put the dried meat floss cakes into the forming groove 16, the separated die combination 13 can possibly generate small-angle deviation in conveying, so that the cakes collide with the die combination 13 to generate deformation to be scrapped, the die combination 13 connected by the hooks 43 does not have the problem, the rotatable angle between the adjacent die combinations 13 can be increased through the arrangement of the hooks 43, the length of the semi-annular belt conveying mechanism 18 can be greatly reduced, and the structure of the tray arranging machine can refer to the automatic tray arranging machine for moon cakes disclosed in Chinese patent publication No. CN208843124U, which is conventional equipment and is not repeated herein.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. An automatic shedder of dried meat floss cake, its characterized in that:

The device comprises a frame, a first belt conveying mechanism, a first turnover mechanism, a second belt conveying mechanism and a third belt conveying mechanism, wherein the first belt conveying mechanism, the first turnover mechanism, the second belt conveying mechanism and the third belt conveying mechanism are arranged on the frame;

The first turnover mechanism comprises a first shell, a plurality of first conveying rollers, a plurality of conveying chain wheels, two conveying chains and a plurality of positioning pieces, wherein the side surface of the first shell is semicircular, the first conveying roller rings are arranged in the first shell, the conveying chain wheels are arranged at the two ends of each first conveying roller, the conveying chains are respectively wrapped on the conveying chain wheels at the two ends of each first conveying roller, and the positioning pieces are arranged on the conveying chains;

The first belt conveying mechanism is provided with a plurality of mold combinations, each mold combination comprises a plurality of mold units and a plurality of overturning hinges, each overturning hinge is arranged on two sides above each mold unit, every two adjacent mold units are rotatably connected through the overturning hinge, each mold unit is provided with a plurality of forming grooves, two sides of each mold unit are provided with positioning grooves, and the positioning grooves are correspondingly arranged with the positioning pieces.

2. An automatic dried meat floss cake demolding device as claimed in claim 1, characterized in that:

one end, far away from the first output port, of the second belt conveying mechanism is provided with a semi-annular belt conveying mechanism, the other end of the semi-annular belt conveying mechanism is provided with a fourth belt conveying mechanism, and the other end of the fourth belt conveying mechanism is provided with a second turnover mechanism and a fifth belt conveying mechanism;

The two ends of the second turnover mechanism are respectively provided with a second input port and a second output port, one side of the second input port is provided with a fourth belt conveying mechanism, one side of the second output port is provided with a fifth belt conveying mechanism, and the fourth belt conveying mechanism is arranged above the fifth belt conveying mechanism;

The second turnover mechanism comprises a second shell, a plurality of second conveying rollers and turnover conveying belts, the side surface of the second shell is semicircular, each second conveying roller ring is arranged in the second shell, and the turnover conveying belts are wrapped on the outer sides of the second conveying rollers.

3. An automatic dried meat floss cake demolding device as claimed in claim 2, characterized in that: and a baffle plate is arranged on the semi-annular belt conveying mechanism.

4. An automatic dried meat floss cake demolding device as claimed in claim 1, characterized in that:

The second belt conveying mechanism comprises two conveying components arranged at intervals and conveying rods connected with the two conveying components, the conveying rods are arranged at two ends of the conveying components, the conveying components comprise sleeves, conveying belts, supporting frames and supporting seats, the supporting frames and the sleeves are arranged on one sides of the supporting seats, the sleeves are arranged at two ends of the supporting frames, and the conveying belts are wrapped outside the sleeves and the supporting frames.

5. An automatic dried meat floss cake demolding device as claimed in claim 1, characterized in that:

The length direction of the die units is defined as the longitudinal direction, the width direction of the die units is defined as the transverse direction, each die unit comprises a top plate, side plates and a first positioning block, the side plates and the first positioning block are connected below the top plate, the side plates are arranged on two transverse sides of the top plate, the first positioning blocks are arranged on two longitudinal sides of the top plate, each forming groove is formed by downwards sinking the top plate, and the positioning grooves are arranged on the outer sides of the first positioning blocks.

6. An automatic dried meat floss cake demolding device as claimed in claim 5, wherein:

The top of the first positioning block is provided with a roller, and the top plate is provided with a through hole at the position corresponding to the roller.

7. An automatic dried meat floss cake demolding device as claimed in claim 1, characterized in that:

The locating piece comprises a locating rod and a second locating block, one end of the locating rod is connected with the conveying chain, the other end of the locating rod is connected with the second locating block, a plurality of magnetic blocks are embedded in the second locating block, and each die combination is made of iron.

8. An automatic dried meat floss cake demolding device as claimed in claim 1, characterized in that: the two sides of the die combination are respectively provided with a hook, the adjacent die combinations are connected through the hooks, each hook comprises a first hook and a second hook, and the first hooks and the second hooks are respectively arranged on the two sides of the die combination.

9. The automatic dried meat floss cake demolding device as claimed in claim 8, wherein:

the first hooks and the second hooks are L-shaped hooks, the first hooks are horizontally arranged, and the second hooks are vertically arranged.