CN216315189U - Pastry making mold - Google Patents

Abstract

The invention discloses a pastry making mold, which aims to solve the technical problems of difficult positioning, different auxiliary material thicknesses and unstable material taking of the existing mold. The invention comprises a rack, a mould assembly and a driving assembly, wherein the mould assembly comprises a static mould module and a movable mould module; the static mould module comprises a static ejection core and a static template, a first pattern hole is formed in the static template and matched with the static ejection core, the movable mould module comprises a movable ejection core and a movable template, a second pattern hole is formed in the movable template and matched with the movable ejection core; the static mould driving unit and the static ejection core are correspondingly arranged, the movable mould driving unit and the movable ejection core are correspondingly arranged, and the movable mould overturning unit and the movable mould plate are correspondingly arranged. The invention has the beneficial effects that: the positioning is accurate, the material taking is stable, the multi-angle skin pasting is realized, the automatic production of cartoon-shaped products is realized, the shape is uniform, and the quality is stable and reliable.

Description

Pastry making mold

Technical Field

The invention relates to the technical field of food machinery, in particular to a pastry making mold.

Background

In order to increase the fashion feeling of the pastries, various modeling patterns such as tigers and the like are generally prepared on the pastries, and the basic shapes of the pastries are firstly prepared and then edible patterns are pasted on the pastries. The traditional modeling mode is manufactured manually, and the efficiency and the quality are difficult to ensure. For the reasons, related technicians propose a die for manufacturing the pastry, wherein a five sense organs model is convexly arranged on the lower surface of the die, and a die handle fixedly connected with the upper surface of the die base body is arranged on the upper surface of the die base body; a mould ejection core is assembled in the mould base body in a vertically sliding manner, and the upper end of the mould ejection core extends into the mould handle and extends out of the upper end of the mould ejection core; the lower end of the mold top core is provided with various facial features parts which slide through the facial features model and can extend out of the ejection part of the lower end face of the facial features model, and the pattern auxiliary materials in the mold are adhered to the surface points through the top core.

Above-mentioned technical scheme can increase substantially work efficiency and economic benefits, but because the face point surface is the sphere usually, leads to planar mould location difficulty, and if set up into the arc with facial features terrace die bottom, because the auxiliary material surface of waiting to get is planar, consequently lead to getting the thickness of material time facial features each department different, influence whole pleasing to the eye. And the arc-shaped die can not ensure the stability when taking materials and is easy to lose.

Disclosure of Invention

The invention provides a pastry making mold, which aims to solve the technical problems of difficult positioning, different auxiliary material thicknesses and unstable material taking of the existing mold.

In order to solve the technical problems, the invention adopts the following technical scheme:

designing a pastry manufacturing die, which comprises a rack, a die assembly and a driving assembly, wherein the die assembly comprises a static die module and a movable die module, and the driving assembly comprises a static die driving unit, a movable die driving unit and a movable die overturning unit;

the static mould module comprises a static ejection core and a static template, a first pattern hole is formed in the static template and matched with the static ejection core, the movable mould module comprises a movable ejection core and a movable template, a second pattern hole is formed in the movable template and matched with the movable ejection core;

the static mould driving unit and the static ejection core are correspondingly arranged, the movable mould driving unit and the movable ejection core are correspondingly arranged, and the movable mould overturning unit and the movable mould plate are correspondingly arranged.

Further, the static mould module comprises a first top plate, a first mounting plate, a first guide rod and a first fixing rod, the static mould plate is fixedly connected with the first mounting plate through the first fixing rod, the first mounting plate is provided with a first guide hole and a static ejection core hole, the first guide rod is fixed in the first guide hole, and the static ejection core is in sliding connection with the static ejection core hole;

the movable mould module comprises a second top plate, a second mounting plate, a second guide rod and a second fixing rod, the movable mould plate is fixedly connected with the second mounting plate through the second fixing rod, a second guide hole and a movable ejection core hole are formed in the second mounting plate, the second guide rod is fixed in the second guide hole, and the movable ejection core is connected with the movable ejection core hole in a sliding mode.

Furthermore, all overlap on first guide bar and the second guide bar and be equipped with reset spring.

Furthermore, a support plate is arranged on the machine frame, and the first mounting plate is fixed on the support plate.

Further, the side of frame is equipped with the arc wall, and the both ends of second mounting panel are equipped with the gyro wheel that matches with the arc wall, are equipped with the transmission piece on the second roof, transmission piece and movable mould upset unit rotatable coupling, and movable mould upset unit can promote the upset of movable mould module along the arc wall.

Furthermore, the two ends of the second mounting plate are also provided with guide wheels, and the guide wheels and the idler wheels are arranged adjacently.

Furthermore, the movable mould module is provided with two movable mould modules which are respectively positioned at two sides of the static mould module, the static mould driving unit is arranged above the static mould module, the movable mould driving unit is arranged above the movable mould module in an inclined mode, and the movable mould module can correspond to the movable mould driving unit when being overturned.

Furthermore, the movable mould turning units comprise two movable mould turning units, wherein the two movable mould turning units are arranged in the middle of the rack and are rotatably connected with the middle of the movable mould module, or the two movable mould turning units are arranged on two sides of the rack and are rotatably connected with one end of the movable mould module.

Furthermore, inclined supporting pieces are arranged at the front part and the rear part of the rack, the movable mould driving unit is arranged on the supporting pieces, a vertical plate is arranged at the top of the rack, and the movable mould overturning unit is arranged on the vertical plate.

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

1. the adhered five sense organs are divided into the top and two side surfaces of the surface point, the top and the two side surfaces are separated from each other and respectively correspond to the top and the two side surfaces of the spherical surface point, when the adhesive ball is in work, the die at the top is over against the top of the surface point, and the die at the two side surfaces are over and then are over against the side surfaces of the surface point, so that the positioning is accurate when the adhesive ball is used for manufacturing patterns.

2. The molds on the two side surfaces can be opposite to the side surfaces of the surface points after being turned over, so that the molds do not need to be manufactured into an arc shape to be matched with the spherical surface points, the thickness of the patterns adhered at each position can be kept consistent, and the manufactured surface points are more attractive integrally.

3. The invention has the advantages that the molds on the two side surfaces are not turned over yet and are still on the same plane with the molds on the top surface when the material is taken, the material taking can be kept uniform and stable, and the conical discharge hole is additionally arranged at the bottom of the mold, so that the material taking can be prevented from being lost.

Drawings

Fig. 1 is a schematic structural view of the pastry making mold of the present invention.

FIG. 2 is a left side view of the pastry making die of the present invention.

FIG. 3 is a top view of the pastry making die of the present invention.

FIG. 4 is a front view of the pastry making die of the present invention.

Fig. 5 is a schematic structural diagram of a mold assembly of the pastry making mold of the present invention.

Fig. 6 is a schematic structural view of a static mold of the pastry making mold of the present invention.

Fig. 7 is a schematic structural view of a moving mold of the pastry making mold of the present invention.

Fig. 8 is a left side view of another embodiment of the pastry making die of the present invention.

Fig. 9 is a top view of another embodiment of the pastry making die of the present invention.

In the figure, a machine frame 1, a right side plate 101, a left side plate 102, a right front oblique arm 103, a left front oblique arm 104, a front support plate 105, a right rear oblique arm 106, a left rear oblique arm 107, a rear support plate 108, a front vertical plate 109, a rear vertical plate 110, a top plate 111,

a die assembly 2, a first top plate 201, a first guide bar 202, a stationary core 203, a first fixing bar 204, a first mounting plate 205, a first tapered discharge hole 206, a stationary die plate 207, a first pattern hole 208, a first spring 209,

a second top plate 211, a second guide rod 212, a movable top core 213, a second fixed rod 214, a second mounting plate 215, a second conical discharge hole 216, a stationary die plate 217, a second pattern hole 218, a second spring 219,

fisheye joint 2011, a roller 2012, a guide wheel 2013, a transmission block 2014, a top rod 2015, a limit block 2016 and an arc-shaped groove 2017,

a front drive cylinder 301, a rear drive cylinder 302, a rear tumble cylinder 303, a front tumble cylinder 304, and a thrust cylinder 305.

Detailed Description

The following examples are intended to illustrate the present invention in detail and should not be construed as limiting the scope of the present invention in any way.

Example 1: a pastry making die, as shown in figures 1 to 4, comprises a frame 1, and a die assembly 2 and a driving assembly are arranged on the frame 1. The mould assembly 2 comprises a static mould module positioned in the middle and moving mould modules positioned on two sides, and the driving assemblies respectively comprise 5 cylinders.

The structure of the mold assembly 2 is shown in fig. 6 to 7, wherein the static mold module comprises a static top core 203 and a static mold plate 207, a first pattern hole 208 is formed in the static mold plate 207, and the shape of the first pattern hole 208 is matched with that of the static top core 203; a first top plate 201, a first mounting plate 205, a first guide rod 202 and a first fixing rod 204 are arranged on a static mould module, the upper ends of the first guide rod 202 and a static top core are fixed on the first top plate 201, the static mould plate 207 is fixedly connected with the first mounting plate 205 through the first fixing rod 204, a first guide hole and a static top core hole are formed in the first mounting plate 205, the bottom end of the first guide rod 202 is fixedly connected with the first guide hole, the static top core 203 is matched with the static top core hole in shape, and the static top core 203 can pass through the static top core hole to move downwards to the bottom of the static mould plate 207; a first tapered discharge hole 206 corresponding to the first pattern hole 208 is provided in the bottom of the first mounting plate 205, and a first spring 209 is mounted on the first guide bar 202. During the use, mould subassembly 2 wholly moves down to waiting to get the auxiliary material in, the auxiliary material gets into in the feed bin of first toper discharge opening 206 and top this moment, then quiet mould module removes to the face point top, pushes down first roof 201 by the top push cylinder and drives quiet knockout core 203 ejecting to the face point with the auxiliary material in the feed bin on, then under the effect of first spring 209, quiet knockout core 203 resets and prepares to get the material next time.

Similarly, the movable mould module comprises a movable ejection core 213 and a movable mould plate 217, wherein the movable mould plate 217 is provided with a second pattern hole 218, and the shapes of the second pattern hole 218 and the movable ejection core 213 are matched; a second top plate 211, a second mounting plate 215, a second guide rod 212 and a second fixing rod 214 are arranged on the movable mould module, the upper ends of the second guide rod 212 and the movable ejection core are fixed on the second top plate 201, the movable mould plate 217 is fixedly connected with the second mounting plate 215 through the second fixing rod 214, a second guide hole and a movable ejection core hole are formed in the second mounting plate 215, the bottom end of the second guide rod 212 is fixedly connected with the second guide hole, the movable ejection core 213 is matched with the movable ejection core hole in shape, and the movable ejection core 213 can pass through the movable ejection core hole and move downwards to the bottom of the movable mould plate 217; a second conical discharge hole 216 corresponding to the second pattern hole 218 is formed at the bottom of the second mounting plate 215, and a second spring 219 is mounted on the second guide rod 212. During the use, mould subassembly 2 wholly moves down to waiting to get in the auxiliary material or the auxiliary material rises to mould subassembly 2, the auxiliary material gets into in the feed bin of second toper discharge opening 216 and top this moment, then move the mould module and remove to the face point top earlier, later the certain angle of upset reachs the face point side, drive actuating cylinder 302 by the front and drive actuating cylinder 301 or after and push down second roof 211 and make and move ejector core 213 and push out the auxiliary material in the feed bin that corresponds to fall to the face point on, then under the effect of second spring 219, it resets to move ejector core 213, back moves the reverse upset of mould module and prepares to get the material next time.

The driving assembly comprises 5 cylinders installed on the rack 1 and respectively forms a static die driving unit, a movable die driving unit and a movable die overturning unit, wherein the pushing cylinder 305 is the static die driving unit, the front driving cylinder 301 and the rear driving cylinder 302 are the movable die driving units, the rear overturning cylinder 303 and the front overturning cylinder 304 are the movable die overturning units, and the cylinders are connected with the air compressor through air pipes to work. The structure of the frame 1 is shown in fig. 5, and comprises a right side plate 101, a left side plate 102, a top plate 111, a front vertical plate 109 and a rear vertical plate 110 fixed at the middle position of the top plate 11, a right front oblique arm 103 and a left front oblique arm 104 fixed at the front side of the frame 1, a front support plate 105 mounted thereon, a right rear oblique arm 106 and a left rear oblique arm 107 fixed at the rear side of the frame 1, and a rear support plate 108 mounted thereon. A stopper 2016 is fixed to both sides of the bottom of the frame 1, and the first mounting plate 205 of the stationary mold module is fixed to the stopper 2016. The pushing cylinder 305 is fixed on a transverse plate in the middle of the frame 1, the driving ejector rod 2015 downwards presses the first top plate 201, the front driving cylinder 301 is installed on the front supporting plate 105, the rear driving cylinder 302 is installed on the rear supporting plate 108, and the front driving cylinder 301 and the rear driving cylinder 302 are used for downwards pressing the turned movable mould module. Rear rollover cylinder 303 is mounted on rear riser 110 and front rollover cylinder 304 is mounted on front riser 109.

The structure for pushing the movable mould module to overturn is as follows: an arc-shaped groove 2017 is formed in the side face of the machine frame 1, idler wheels 2012 matched with the arc-shaped groove are installed at two ends of the second mounting plate 215 of the movable die module, a transmission block 2014 is fixed on the second top plate 211 of the movable die module, fisheye joints 2011 are connected to the front overturning air cylinder 304 and the rear overturning air cylinder 303 and rotatably connected with the transmission block 2014 through joint bearings, and guide wheels 2013 are arranged at positions, located on the outer sides of the idler wheels 2012, at two ends of the second mounting plate 215 of the movable die module, so that a rotating track is guaranteed. The turning cylinder pushes the movable mould module downwards obliquely to turn along the track of the arc-shaped groove 2017.

The working process of the pastry making die is as follows: filling auxiliary materials into the static mold module and the movable mold module in a horizontal state, moving the mold to the upper side of the surface point, turning the movable mold module to the side surface of the surface point, keeping the static mold module still, pushing the static ejection cylinder 305, the front driving cylinder 301 and the rear driving cylinder 302 to push the static ejection core and the movable ejection core downwards respectively to enable the auxiliary materials in the mold to be ejected out and fall onto the surface point, shrinking the last cylinder, resetting the ejection core, turning the movable mold module to be horizontal, then filling the auxiliary materials for the next time and repeating the steps, and finishing the pattern decoration of the surface point in such a circulating way.

Example 2: as another embodiment, referring to fig. 8 and 9, the difference from example 1 is that the front turnover cylinder 304 is fixed on the right front oblique arm 103 through a connecting plate, the rear turnover cylinder 303 is fixed on the left rear oblique arm 107 through a connecting plate, the rear turnover cylinder 303 and the front turnover cylinder 304 are moved from the middle of the frame to both sides, at this time, the roller of the roller 2012 of the movable mold module extends outwards and is rotatably connected with the fisheye joints at the ends of the rear turnover cylinder 303 and the front turnover cylinder 304 through joint bearings, and the roller of the turnover cylinder driving roller 2012 rotates the movable mold module along the arc-shaped groove 2017.

Example 3: as another embodiment, the difference from embodiment 1 is that a cylinder in the driving assembly providing the pushing force is replaced by a hydraulic cylinder or an electric push rod to provide the driving force for the stationary mold module and the movable mold module.

While the present invention has been described in detail with reference to the drawings and the embodiments, those skilled in the art will understand that various specific parameters in the above embodiments can be changed without departing from the spirit of the present invention, and a plurality of specific embodiments are formed, which are common variation ranges of the present invention, and will not be described in detail herein.

Claims (9)

1. The pastry making mold comprises a rack, and is characterized by further comprising a mold assembly and a driving assembly, wherein the mold assembly comprises a static mold module and a movable mold module, and the driving assembly comprises a static mold driving unit, a movable mold driving unit and a movable mold overturning unit; the static mould module comprises a static ejection core and a static template, a first pattern hole is formed in the static template and matched with the static ejection core, the movable mould module comprises a movable ejection core and a movable template, a second pattern hole is formed in the movable template and matched with the movable ejection core; the static mould driving unit and the static ejection core are correspondingly arranged, the movable mould driving unit and the movable ejection core are correspondingly arranged, and the movable mould overturning unit and the movable mould plate are correspondingly arranged.

2. The pastry making die of claim 1, wherein the static die module further comprises a first top plate, a first mounting plate, a first guide rod and a first fixing rod, the static die plate is fixedly connected with the first mounting plate through the first fixing rod, a first guide hole and a static top core hole are formed in the first mounting plate, and the static top core is connected with the static top core hole in a sliding manner; the movable mould module further comprises a second top plate, a second mounting plate, a second guide rod and a second fixed rod, the movable mould plate is fixedly connected with the second mounting plate through the second fixed rod, a second guide hole and a movable ejection core hole are formed in the second mounting plate, and the movable ejection core is slidably connected with the movable ejection core hole.

3. The pastry making die of claim 2, wherein the first guide rod and the second guide rod are respectively sleeved with a return spring.

4. The pastry making die of claim 2, wherein a support plate is provided on the frame, and the first mounting plate is fixed to the support plate.

5. The pastry making die as claimed in claim 2, wherein an arc-shaped groove is formed in the side face of the machine frame, rollers matched with the arc-shaped groove are arranged at two ends of the second mounting plate, a transmission block is arranged on the second top plate, the movable die overturning unit comprises an overturning cylinder, the transmission block is rotatably connected with the overturning cylinder, and the overturning cylinder can push the movable die module to overturn along the arc-shaped groove.

6. The pastry making die of claim 5, wherein guide wheels are further provided at two ends of the second mounting plate, and the guide wheels and the rollers are adjacently arranged.

7. The pastry making die of claim 1, wherein the two movable die modules are respectively arranged at two sides of the static die module, the static die driving unit comprises a first driving cylinder arranged above the static die module, the movable die driving unit comprises a second driving cylinder arranged obliquely above the movable die module, and the movable die module can correspond to the second driving cylinder when being overturned.

8. The pastry making die of claim 7, wherein the movable die turning unit comprises two movable die turning units, which are arranged in the middle of the frame and rotatably connected with the middle of the movable die module, or arranged on two sides of the frame and rotatably connected with one end of the movable die module.

9. The pastry making die of claim 7, wherein the front and rear portions of the frame are provided with inclined supports on which the movable die driving unit is disposed, and wherein the top portion of the frame is provided with a riser on which the movable die turning unit is mounted.

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