阅读说明：本技术 一种食品生产专用浇模机 (special mould machine of watering of food production ) 是由 黄丽兰 于 2019-10-21 设计创作，主要内容包括：本发明公开了一种食品生产专用浇模机,其结构包括机底座、电控箱、进料斗、内外抖动成型装置、传送台,机底座呈矩形结构,电控箱设于机底座右上方,进料斗设于机底座左上方且位于内外抖动成型装置正上方,传送台设于内外抖动成型装置正下方。本发明通过设有的内外抖动成型装置,采用内外同步抖动,即内通过抖板、外通过浇模板同步抖动,将食品浇膜过程中混入的气体快速挤出,解决传动只能靠外部抖动,挤气泡速度减慢,无法彻底挤出气泡,食品已硬化的问题,保证食品足量,同时保证食品的口感。(The invention discloses a special die casting machine for food production, which structurally comprises a machine base, an electric cabinet, a feed hopper, an internal and external shaking forming device and a conveying table, wherein the machine base is of a rectangular structure, the electric cabinet is arranged on the right upper side of the machine base, the feed hopper is arranged on the left upper side of the machine base and is positioned right above the internal and external shaking forming device, and the conveying table is arranged right below the internal and external shaking forming device. According to the invention, through the internal and external shaking forming device, the internal and external synchronous shaking is adopted, namely the internal shaking plate and the external pouring template synchronously shake, so that gas mixed in the food film pouring process is quickly extruded out, the problems that the transmission only depends on the external shaking, the bubble extruding speed is reduced, bubbles cannot be thoroughly extruded out, and the food is hardened are solved, the sufficient amount of the food is ensured, and the taste of the food is ensured.)

1. The utility model provides a food production special use waters mould machine, its structure includes base (1), electric cabinet (2), feeder hopper (3), inside and outside shake forming device (4), conveying platform (5), its characterized in that:

Base (1) is the rectangle structure, base (1) upper right side is located in electric cabinet (2), base (1) upper left side is located and is located directly over inside and outside shake forming device (4) feeder hopper (3), shake forming device (4) under inside and outside is located in conveying platform (5).

2. the molding machine of claim 1, wherein the molding machine comprises: the inner and outer shaking forming device (4) is composed of a sanitary partition box (a), a telescopic outer shaking mechanism (b), a membrane pouring structure (c), a lifting inner shaking mechanism (d) and a membrane pouring driving mechanism (e), the sanitary partition box (a) is of a hollow cylindrical structure, the telescopic outer shaking mechanism (b) is arranged inside the sanitary partition box (a), the membrane pouring structure (c) is arranged inside the telescopic outer shaking mechanism (b), the lifting inner shaking mechanism (d) is arranged inside the membrane pouring structure (c), the membrane pouring driving mechanism (e) is arranged above the lifting inner shaking mechanism (d) and is movably connected through a hinge, the telescopic outer shaking mechanism (b) is composed of a multi-stage hydraulic rod (ba), a same-shaking disc (bb), a main shaking piece (bc) and an auxiliary shaking piece (bd), one end of the multi-stage hydraulic rod (ba) is welded with the sanitary partition box (a), and the other end of the multi-stage hydraulic rod (ba) is vertically welded with the same-shaking disc (bb), the main vibration piece (bc) and the auxiliary vibration piece (bd) are arranged on the inner surface of the same vibration disc (bb).

3. The molding machine of claim 2, wherein the molding machine comprises: the main vibration piece (bc) is arranged at the position between the same vibration disc (bb) and the same multi-order hydraulic rod (ba), and the auxiliary vibration piece (bd) is arranged at the position, far away from the connection position of the multi-order hydraulic rod (ba), of the same vibration disc (bb).

4. the molding machine of claim 1, wherein the molding machine comprises: the membrane pouring structure (c) is composed of a membrane plate (ca), pleated pieces (cb), membrane lattices (cc) and a traceless meshing port (cd), the pleated pieces (cb) are arranged at two ends of the membrane plate (ca), the membrane plate (ca) surrounds the membrane lattices (cc), and the traceless meshing port (cd) is arranged in the middle of the membrane plate (ca).

Technical Field

The invention relates to the field of food production, in particular to a special molding machine for food production.

Background

At present, the domestic casting machine for food processing. It has a plunger pump for quantitative pouring. The arrangement, the size, the weight and the shape of different food stamping on the stamping plate are different, but the special moulding machine for food production in the prior art still has the following defects:

Disclosure of Invention

The invention aims to provide a pouring machine special for food production, aiming at solving the defects that when a food film with thick liquid is poured by the pouring machine special for food production in the prior art, gas is often mixed in when liquid food flows into a model from top to bottom, the gas is exhausted in time, bubbles are formed in the food after the food is hardened, and if the bubbles are removed by adopting a traditional shaking mode, most of the bubbles can be extruded, but part of the bubbles are not extruded out of the food and are hardened, so that the weight of the food is influenced, the wrong feeling of deceiving customers is caused, and the taste is influenced.

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

A special pouring die machine for food production structurally comprises a machine base, an electric cabinet, a feeding hopper, an internal and external shaking forming device and a conveying table, wherein the machine base is of a rectangular structure, the electric cabinet is arranged on the upper right of the machine base, the feeding hopper is arranged on the upper left of the machine base and is positioned right above the internal and external shaking forming device, and the conveying table is arranged right below the internal and external shaking forming device;

The inside and outside shake forming device is by sanitary compartment, flexible shake mechanism outward, water membrane structure, shake mechanism in going up and down, water membrane actuating mechanism and constitute, the sanitary compartment is empty cylindrical structure, flexible shake mechanism outward locate inside the sanitary compartment, it locates inside flexible shake mechanism outward to water membrane structure, it locates inside the membrane structure to shake in going up and down to tremble the mechanism, it locates in going up and down to tremble the mechanism top and through hinge swing joint to water membrane actuating mechanism.

As a further scheme of the invention, the telescopic external shaking mechanism consists of a multi-stage hydraulic rod, a same shaking disc, a main shaking piece and an auxiliary shaking piece, wherein one end of the multi-stage hydraulic rod is welded with the sanitary partition box, the other end of the multi-stage hydraulic rod is vertically welded with the same shaking disc, and the main shaking piece and the auxiliary shaking piece are arranged on the inner surface of the same shaking disc.

As a further scheme of the invention, the main vibration piece is arranged at a position between the same vibration disc and the same multi-order hydraulic rod, and the auxiliary vibration piece is arranged at a position far away from the connection position of the multi-order hydraulic rod on the same vibration disc.

As a further scheme of the invention, the membrane pouring structure is composed of a membrane plate, pleated pieces, membrane lattices and a traceless meshing port, wherein the pleated pieces are arranged at two ends of the membrane plate, the membrane plate surrounds the membrane lattices to form the membrane lattices, and the traceless meshing port is arranged in the middle of the membrane plate.

As a further scheme of the invention, 3-8 membrane plates are arranged and surround into a ring shape, and the membrane plates are connected with each other through a pleated piece.

According to a further scheme of the invention, the traceless engagement port consists of an engagement port, a traceless air bag, an extension spring, an air storage bag and an air transmission channel, the engagement port is arranged in the middle of the membrane plate, the traceless air bag is arranged inside the engagement port, the extension spring is arranged inside the air storage bag, and the air storage bag is arranged on two sides of the engagement port and is communicated with the traceless air bag through the air transmission channel.

As a further scheme of the invention, the lifting internal shaking mechanism comprises a central feeding hole, a fixed shaking plate, a telescopic shaking plate and a hinge piece, wherein the fixed shaking plate is radially, uniformly and equidistantly arranged at the outer side of the central feeding hole, the inner end of the telescopic shaking plate is in transition fit with the fixed shaking plate, the outer end of the telescopic shaking plate is meshed with a meshing port, and the lifting internal shaking mechanism is movably connected with a film pouring driving mechanism through the hinge piece.

As a further scheme of the invention, the film pouring driving mechanism comprises a shaking driving shaft, a synchronizing ring, a connecting rod and a feeding pipe, wherein the shaking driving shaft is vertically arranged at the center of the synchronizing ring and is welded with the synchronizing ring through the connecting rod, the feeding pipe is arranged below the shaking driving shaft and is in through connection, and the feeding pipe is aligned with a central feeding hole.

Advantageous effects of the invention

Compared with the traditional special pouring die machine for food production, the invention adopts the internal and external synchronous shaking through the internal and external shaking forming device, namely the internal shaking plate and the external pouring die plate synchronously shake to quickly extrude the gas mixed in the food film pouring process, solves the problems that the transmission only depends on the external shaking, the bubble extruding speed is slow, the bubbles cannot be completely extruded, the food is hardened, ensures the sufficient quantity of the food, and simultaneously ensures the taste of the food.

Drawings

Other features, objects and advantages of the invention will become more apparent from a reading of the detailed description of non-limiting embodiments with reference to the attached drawings.

In the drawings:

FIG. 1 is a schematic structural diagram of a pouring and molding machine for food production according to the present invention.

FIG. 2 is a plan view of the inside and outside shaking forming device of the pouring machine special for food production.

FIG. 3 is a plan view of the structure of a casting film structure of a casting machine for food production according to the present invention.

fig. 4 is an enlarged view of the structure of fig. 3 at a according to the present invention.

FIG. 5 is a plan view of the lifting and lowering mechanism of the pouring machine for food production according to the present invention.

Fig. 6 is a schematic structural diagram of a casting driving mechanism of the casting machine special for food production.

In the figure: the machine comprises a base 1, an electric cabinet 2, a feed hopper 3, an internal and external shaking forming device 4, a conveying table 5, a sanitary partition box a, a telescopic external shaking mechanism b, a film pouring structure c, a lifting internal shaking mechanism d, a film pouring driving mechanism e, a multi-stage hydraulic rod ba, a co-shaking disc bb, a main shaking piece bc, an auxiliary shaking piece bd, a film plate ca, a pleated piece cb, a film lattice cc, a traceless meshing port cd, a meshing port c1, a traceless air bag c2, a tension spring c3, an air storage bag c4, an air conveying channel c5, a central feeding port da, a fixed shaking plate db, a telescopic shaking plate dc, a hinge piece dd, a shaking driving shaft ea, a synchronous ring eb, a connecting rod ec and a feeding pipe ed.

Detailed Description

in order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

as shown in fig. 1-6, the present invention provides a technical solution of a special molding machine for food production:

A special pouring die machine for food production structurally comprises a machine base 1, an electric cabinet 2, a feed hopper 3, an internal and external shaking forming device 4 and a conveying table 5, wherein the machine base 1 is of a rectangular structure, the electric cabinet 2 is arranged on the upper right of the machine base 1, the feed hopper 3 is arranged on the upper left of the machine base 1 and is positioned right above the internal and external shaking forming device 4, and the conveying table 5 is arranged right below the internal and external shaking forming device 4;

The inside and outside shaking forming device 4 comprises a sanitary partition box a, a telescopic outer shaking mechanism b, a pouring membrane structure c, a lifting inner shaking mechanism d and a pouring membrane driving mechanism e, wherein the sanitary partition box a is of a hollow cylindrical structure, the telescopic outer shaking mechanism b is arranged inside the sanitary partition box a, the pouring membrane structure c is arranged inside the telescopic outer shaking mechanism b, the lifting inner shaking mechanism d is arranged inside the pouring membrane structure c, and the pouring membrane driving mechanism e is arranged above the lifting inner shaking mechanism d and is movably connected through a hinge.

The telescopic external shaking mechanism b is composed of a multi-stage hydraulic rod ba, a same shaking disc bb, a main shaking piece bc and an auxiliary shaking piece bd, one end of the multi-stage hydraulic rod ba is welded with the sanitary partition box a, the other end of the multi-stage hydraulic rod ba is vertically welded with the same shaking disc bb, and the main shaking piece bc and the auxiliary shaking piece bd are arranged on the inner surface of the same shaking disc bb.

The main vibration part bc is arranged at a position between the same vibration disc bb and the same multi-order hydraulic rod ba, and the auxiliary vibration part bd is arranged at a position away from the connection position of the multi-order hydraulic rod ba with the vibration disc bb.

The membrane pouring structure c is composed of a membrane plate ca, pleated pieces cb, membrane lattices cc and a traceless meshing port cd, the pleated pieces cb are arranged at two ends of the membrane plate ca, the membrane plate ca surrounds the membrane lattices cc, and the traceless meshing port cd is arranged in the middle of the membrane plate ca.

The number of the membrane plates ca is 3-8, the membrane plates ca are surrounded into a ring shape, and the membrane plates ca are connected with the membrane plates ca through pleated pieces cb.

The traceless engagement port cd comprises an engagement port c1, a traceless air bag c2, an extension spring c3, an air storage bag c4 and an air conveying passage c5, wherein the engagement port c1 is arranged in the middle of a membrane ca, the traceless air bag c2 is arranged inside the engagement port c1, the extension spring c3 is arranged inside the air storage bag c4, and the air storage bags c4 are arranged on two sides of the engagement port c1 and are communicated with the traceless air bag c2 through the air conveying passages c 5.

the lifting internal shaking mechanism d comprises a central feeding hole da, a fixed shaking plate db, a telescopic shaking plate dc and a hinge part dd, the fixed shaking plate db is radially, uniformly and equidistantly arranged on the outer side of the central feeding hole da, the inner end of the telescopic shaking plate dc is in transition fit with the fixed shaking plate db, the outer end of the telescopic shaking plate dc is meshed with a meshing port c1, and the lifting internal shaking mechanism d is movably connected with a film pouring driving mechanism e through the hinge part dd.

The film pouring driving mechanism e is composed of a shaking driving shaft ea, a synchronous ring eb, a connecting rod ec and a feeding pipe ed, the shaking driving shaft ea is vertically arranged at the center of the synchronous ring eb and welded with the synchronous ring eb through the connecting rod ec, the feeding pipe ed is arranged below the shaking driving shaft ea and is in through connection with the synchronous ring eb, and the feeding pipe ed is aligned to the central feeding hole da.

The working principle of the invention is as follows: a power supply is connected to a special molding machine for food production, working parameters are set through an electric cabinet 2, the state of a pleated piece cb is adjusted and controlled through the telescopic state of a multi-stage hydraulic rod ba, the size of a membrane lattice cc is adjusted, liquid food raw materials are fed into the equipment through a feed hopper 3, at the moment, the liquid food raw materials flow into a central feed port da through a feed pipe ed along a channel in the middle of a shaking driving shaft ea and uniformly flow into spaces between fixed shaking plates (db) along the bottom surface of the membrane lattice cc, the shaking driving shaft ea is in a downward pressing state and acts on a synchronous ring eb, the synchronous ring eb pushes and presses the telescopic shaking plates (dc) through a connecting rod ec, the outer end of the synchronous ring eb is embedded into an engagement port c1, the membrane plate ca in the shaking state, the fixed shaking plates db and the telescopic shaking plates dc are matched with each other to synchronously shake the inside and the outside of the food along with the filling of the liquid food raw materials, air bubbles are quickly shaken out, the shaking driving shaft ea is lifted to lift the lifting inner shaking mechanism d, at the moment, the traceless air bag c2 in the meshing port c1 loses the ejection of the telescopic shaking plate dc, air in the air storage bag c4 enters the traceless air bag c2 through the air conveying passage c5 under the action of the extension spring c3, the smoothness of the edge of the formed food is realized, finally, the hardened food is output through the conveying table 5, the film pouring processing is completed, and the steps are repeated in a circulating mode.

The invention solves the problem that when the pouring die machine special for food production in the prior art is used for pouring a film on food with relatively thick liquid, the liquid food flows into a die from top to bottom, gas is often mixed, if the gas is not discharged in time, the gas forms bubbles inside the food after the food is hardened, if the bubbles are removed by adopting the traditional shaking mode, most of the bubbles can be extruded, but part of the bubbles are still not extruded out of the food and hardened, so that the weight of the food is influenced, the wrong feeling of deceiving customers is caused, and the taste is influenced simultaneously. The hardening of the food ensures the sufficient amount of the food and simultaneously ensures the mouthfeel of the food.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.