CN218087795U - Gluten cutting machine automatic feeding device - Google Patents

Abstract

The utility model discloses a gluten cutting machine automatic feeding device, including last feed bin and liftout mechanism, it is equipped with the liftout mouth to go up the feed bin diapire, liftout mechanism includes at least two-stage liftout structure, and parallel arrangement of liftout structure at all levels becomes the echelonment between the liftout structure from top to bottom and distributes. The liftout structure jacks up the gluten strips in the feeding bin step by step and finally jacks out. The utility model discloses a jacking structure that the echelonment distributes pushes up the gluten strip in the feed bin step by step and goes out, saves the manual work, has promoted the sanitary degree of gluten strip moreover, and the gluten strip after the jacking signs the mechanism feed for two gluten strings through carrying the module, removes to change the mechanism and snatchs the mechanism feed for gluten string in turn on carrying ejection of compact station, makes two gluten strings sign the mechanism and can move simultaneously, improves cutting efficiency.

Description

Gluten cutting machine automatic feeding device

Technical Field

The utility model belongs to the technical field of the gluten processing, concretely relates to gluten cutting machine automatic feeding device.

Background

Gluten is when carrying out cluster and signing production, and the gluten strip is generally that the manual work is placed on the conveyer belt, and operating personnel intensity of labour is big, and the staff is long with gluten strip contact time, influences food sanitation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the gluten strips are manually placed when being strung and signed, and the automation degree is low, thereby providing a gluten cutting machine automatic feeding device.

For solving the technical problem, the utility model discloses the technical scheme who adopts does:

the utility model provides a gluten cutting machine automatic feeding device, includes feed bin and liftout mechanism, goes up the feed bin diapire and is equipped with the liftout mouth, liftout mechanism includes at least two-stage liftout structure, and the liftout structure at different levels parallels parallel arrangement, becomes the echelonment distribution by from top to bottom between the liftout structure. The gluten strips in the feed bin are jacked up step by step and finally ejected out by the material ejecting structure.

As a preferred scheme of the utility model, the material ejecting structure of each stage comprises a movable ejector plate and a fixed ejector plate, the upper part of the movable ejector plate passes through a material ejecting opening and is positioned in the material feeding bin, and the lower part of the movable ejector plate is positioned outside the material feeding bin; the fixed ejector plate is fixedly connected with the inner wall of the upper bin, the fixed ejector plate is parallel to the movable ejector plate, and the top of the fixed ejector plate is higher than that of the movable ejector plate; and the movable ejector plate of the next-stage ejector structure is lifted between the current fixed ejector plate and the fixed ejector plate of the next-stage ejector structure. Move the kicking board and will go up the face rib in the feed bin and follow diapire jacking to fixed kicking board top, fixed kicking board top is as putting the platform temporarily of face rib, and adjacent kicking board top initial condition that moves flushes with the top of fixed kicking board, and the gluten strip can be pushed to adjacent kicking board top of moving, and adjacent kicking board that moves is with the jacking of gluten strip to the fixed kicking board top that corresponds, and the jack-up that makes progress in proper order finally is with the ejecting feed bin of face rib.

As a preferred scheme of the utility model, the lower part that moves the kicking plate is connected with liftout power unit, and liftout power unit drives and moves the kicking plate and move jack-up face rib.

As the utility model discloses an optimal scheme, an liftout power unit of liftout structure sharing at different levels, liftout power unit, including liftout power spare, liftout base and liftout base plate, the liftout power spare is installed in last feed bin below, and the pars contractilis and the liftout pedestal connection of liftout power spare, is provided with the liftout base plate on the liftout base, and the liftout base plate is connected with moving the liftout plate one-to-one, and has the difference in height between the adjacent liftout base plate.

As a preferred scheme of the utility model, the material ejecting structure is provided with two stages, namely a first-stage material ejecting structure and a second-stage material ejecting structure, wherein the first-stage material ejecting structure comprises a first-stage movable material ejecting plate and a first-stage fixed material ejecting plate; the secondary material ejecting structure comprises a secondary movable ejector plate and a secondary fixed ejector plate; the first-stage fixed ejector plate and the second-stage fixed ejector plate are respectively and fixedly connected with the inner wall of the upper storage bin; the first-stage movable ejector plate moves between the bottom wall of the upper storage bin and the first-stage fixed ejector plate; the second-stage movable ejector plate moves between the first-stage fixed ejector plate and the second-stage fixed ejector plate. When only setting up two-stage liftout structure, the one-level moves the flitch and pushes up the gluten strip to the fixed flitch that pushes up of one-level, and the flitch is moved to the second grade obtains the face rib strip and pushes up to the fixed flitch that pushes up of second grade on from the fixed flitch top that pushes up of one-level, and the face rib strip is pushed out the feed bin from the fixed flitch top that pushes up of second grade.

As a preferred scheme of the utility model, the liftout structure is provided with three stages, namely a primary liftout structure, a secondary liftout structure and a tertiary liftout structure, wherein the primary liftout structure comprises a primary movable liftout plate and a primary fixed liftout plate; the secondary material ejecting structure comprises a secondary movable ejector plate and a secondary fixed ejector plate; the three-stage material ejecting structure comprises a three-stage movable material ejecting plate and a three-stage fixed material ejecting plate; the first-stage fixed ejector plate, the second-stage fixed ejector plate and the third-stage fixed ejector plate are fixedly connected with the inner wall of the upper storage bin respectively; the first-stage movable ejector plate moves between the bottom wall of the upper storage bin and the first-stage fixed ejector plate; the second-stage movable ejector plate moves between the first-stage fixed ejector plate and the second-stage fixed ejector plate, and the third-stage movable ejector plate moves between the second-stage fixed ejector plate and the third-stage fixed ejector plate. When a three-level material ejecting structure is arranged, the one-level movable material ejecting plate ejects gluten strips to the one-level fixed material ejecting plate, the second-level movable material ejecting plate obtains the flour ribs from the one-level fixed material ejecting plate and ejects the flour ribs to the second-level fixed material ejecting plate, the three-level movable material ejecting plate obtains the flour ribs from the second-level fixed material ejecting plate and ejects the flour ribs to the three-level fixed material ejecting plate, and the flour ribs are ejected out of a feed bin from the top of the three-level fixed material ejecting plate.

As a preferred scheme of the utility model, the position that just is located the ejection of compact direction of tertiary fixed kicking plate outside the feed bin is provided with conveying mechanism, and conveying mechanism is equipped with the transport material loading station and carries ejection of compact station, and is equipped with the material loading and detects the sensor at carrying the material loading station, and the material loading detects the sensor and is connected with the controller, and the output and the liftout power part of controller and conveying mechanism's conveying motor are connected. The face rib that is pushed up is carried away through conveying mechanism. Whether gluten strips exist in a conveying and feeding station or not is detected through a feeding detection sensor, when the gluten strips exist, the controller controls the jacking power part to stop, and the conveying mechanism moves to convey the gluten strips.

As a preferred scheme of the utility model, for the convenience of the more smooth conveying mechanism that falls of face rib, flitch under the slope is equipped with at the fixed flitch top in tertiary.

As a preferred scheme of the utility model, gluten stringing and signing mechanisms are symmetrically arranged on two sides of the conveying mechanism, a movable material transferring mechanism is arranged at a conveying and discharging station, and the arrangement direction of the movable material transferring mechanism is vertical to the conveying direction of the conveying mechanism; and a discharging detection sensor is arranged on the conveying and discharging station and is connected with a controller, and the controller is connected with a power part of the movable material transferring mechanism. Conveying mechanism provides the gluten strip for two gluten string label mechanisms simultaneously, removes to change the feed mechanism and snatchs the gluten strip on carrying ejection of compact station and transfer on for gluten string label mechanism respectively.

As a preferred scheme of the utility model, the moving transfer mechanism comprises a horizontal moving structure, a vertical moving structure and a clamping jaw structure; the vertical moving structure is connected with the moving part of the horizontal moving structure, the clamping jaw structure is installed and connected with the moving part of the vertical moving structure, and the clamping jaw of the clamping jaw structure corresponds to the conveying and discharging station. The horizontal migration structure adopts sharp module, and the switching of signing the feed of mechanism is signed to two gluten strings to the reciprocating motion realization in the horizontal direction in the vertical migration structure of straight line module area, and vertical migration structure drives the clamping jaw structure and is close to and keeps away from the face rib of carrying ejection of compact station, and the clamping jaw structure presss from both sides tightly and releases the face rib.

The utility model discloses a jacking structure that the echelonment distributes pushes up the gluten strip in the feed bin step by step and goes out, saves the manual work, has promoted the sanitary degree of gluten strip moreover, and the gluten strip after the jacking signs the mechanism feed for two gluten strings through carrying the module, removes to change the mechanism and snatchs the mechanism feed for gluten string in turn on carrying ejection of compact station, makes two gluten strings sign the mechanism and can move simultaneously, improves cutting efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is the assembly schematic diagram of the feeding bin and the material ejecting mechanism of the utility model.

Fig. 2 is the assembly schematic diagram of the material ejecting mechanism and the material ejecting power mechanism of the present invention.

Fig. 3 is a schematic structural view of the ejection power mechanism of the present invention.

Fig. 4 is the assembly schematic diagram of the feeding bin, the material ejecting mechanism and the conveying module of the present invention.

Fig. 5 is the utility model discloses go up feed bin, liftout mechanism, carry module, gluten cluster to sign the mechanism and remove the assembly sketch map that changes the material mechanism.

Fig. 6 is a schematic structural view of the moving material transferring mechanism of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without any creative effort belong to the protection scope of the present invention.

Example (b):

the utility model provides a gluten cutting machine automatic feeding device, as shown in figure 1, includes feed bin 1 and liftout mechanism, goes up the feed bin diapire and is equipped with the liftout mouth, liftout mechanism includes at least two-stage liftout structure, and the liftout structure at each stage parallels parallel arrangement, becomes the echelonment between the liftout structure by from top to bottom and distributes. The gluten strips in the feed bin are jacked up step by step and finally ejected out by the material ejecting structure.

Moreover, each stage of the ejector structure 2 comprises a movable ejector plate and a fixed ejector plate, the upper part of the movable ejector plate penetrates through the ejector port and is positioned in the upper storage bin, and the lower part of the movable ejector plate is positioned outside the upper storage bin; the fixed ejector plate is fixedly connected with the inner wall of the upper bin, the fixed ejector plate is parallel to the movable ejector plate, and the top of the fixed ejector plate is higher than that of the movable ejector plate; and the movable ejector plate of the next-stage ejector structure is lifted between the current fixed ejector plate and the fixed ejector plate of the next-stage ejector structure. Move the kicking board and will go up the face rib in the feed bin and follow diapire jacking to fixed kicking board top, fixed kicking board top is as putting the platform temporarily of face rib, and adjacent kicking board top initial condition that moves flushes with the top of fixed kicking board, and the gluten strip can be pushed to adjacent kicking board top of moving, and adjacent kicking board that moves is with the jacking of gluten strip to the fixed kicking board top that corresponds, and the jack-up that makes progress in proper order finally is with the ejecting feed bin of face rib.

The power source for the movable ejector plates can be that each movable ejector plate corresponds to one power source, and the movable ejector plates can also share one power source. In this embodiment, each level of liftout structure is selected to share one liftout power mechanism, as shown in fig. 3, the liftout power mechanism includes a liftout power member 4, a liftout base 5 and a liftout base plate 6, the liftout power member 4 is installed below the upper bin, a telescopic portion of the liftout power member 4 is connected with the liftout base 5, the liftout base plate 6 is arranged on the liftout base 5, the liftout base plate 6 is connected with the movable liftout plates in a one-to-one correspondence manner, and a height difference exists between the adjacent liftout base plates 6.

In addition, a three-level material ejecting structure is used in the embodiment, and the connection relationship with the material ejecting power mechanism is as shown in fig. 2, and the three-level material ejecting structure includes a first-level material ejecting structure, a second-level material ejecting structure and a third-level material ejecting structure, where the first-level material ejecting structure includes a first-level movable material ejecting plate 21 and a first-level fixed material ejecting plate 31; the secondary material ejecting structure comprises a secondary movable ejector plate 22 and a secondary fixed ejector plate 32; the three-stage material ejecting structure comprises a three-stage movable ejector plate 23 and a three-stage fixed ejector plate 33; the first-stage fixed ejector plate 31, the second-stage fixed ejector plate 32 and the third-stage fixed ejector plate 33 are respectively and fixedly connected with the inner wall of the upper storage bin; the first-stage movable ejector plate 21 moves between the bottom wall of the upper storage bin and the first-stage fixed ejector plate 31; the second-stage movable ejector plate 22 moves between the first-stage fixed ejector plate 31 and the second-stage fixed ejector plate 32, and the third-stage movable ejector plate 23 moves between the second-stage fixed ejector plate 32 and the third-stage fixed ejector plate 33.

The one-level moves the ejector plate and pushes up the gluten strip to the fixed ejector plate of one-level, and the ejector plate is moved to the second grade obtains the face muscle strip and pushes up to the fixed ejector plate of second grade on from the fixed ejector plate of one-level, and the ejector plate is moved to the tertiary obtains the face muscle strip and pushes up to the fixed ejector plate of tertiary from the fixed ejector plate of second grade on, and the face muscle strip is pushed out the feed bin from the fixed ejector plate top of tertiary.

Certainly, the ejection structure can also be provided with two stages, namely a first-stage ejection structure and a second-stage ejection structure, wherein the first-stage ejection structure comprises a first-stage movable ejector plate 21 and a first-stage fixed ejector plate 31; the secondary material ejecting structure comprises a secondary movable ejector plate 22 and a secondary fixed ejector plate 32; the first-stage fixed ejector plate 31 and the second-stage fixed ejector plate 32 are respectively and fixedly connected with the inner wall of the upper storage bin; the first-stage movable ejector plate 21 moves between the bottom wall of the upper storage bin and the first-stage fixed ejector plate 31; the secondary movable ejector plate 22 moves between the primary fixed ejector plate 31 and the secondary fixed ejector plate 32. When only setting up two-stage liftout structure, the one-level moves the flitch and pushes up the gluten strip to the fixed flitch that pushes up of one-level, and the flitch is moved to the second grade obtains the face rib strip and pushes up to the fixed flitch that pushes up of second grade on from the fixed flitch top that pushes up of one-level, and the face rib strip is pushed out the feed bin from the fixed flitch top that pushes up of second grade.

In order to facilitate the smooth falling of the dough ribs onto the conveying mechanism, an inclined blanking plate is arranged at the top of the three-stage fixed ejector plate.

In order to realize automatic conveying of the face ribs, as shown in fig. 4, a conveying mechanism 9 is arranged outside the feed bin and in the position of the discharge direction of the three-stage fixed ejector plate, the conveying mechanism is provided with a conveying feeding station and a conveying discharging station, a feeding detection sensor is arranged on the conveying feeding station and is connected with a controller, and the output end of the controller is connected with a material ejecting power part and a conveying motor of the conveying mechanism. The ejected-out flour ribs are conveyed out through the conveying mechanism. Whether gluten strips exist in a conveying and feeding station or not is detected through a feeding detection sensor, when the gluten strips exist, the controller controls the jacking power part to stop, and the conveying mechanism moves to convey the gluten strips.

In order to use the gluten strips, as shown in fig. 5, gluten stringing mechanisms 7 are symmetrically arranged on two sides of the conveying mechanism, a movable material transferring mechanism 8 is arranged at a conveying and discharging station, and the arrangement direction of the movable material transferring mechanism is vertical to the conveying direction of the conveying mechanism; the moving material transferring mechanism 8, as shown in fig. 6, includes a horizontal moving structure 81, a vertical moving structure 82 and a clamping jaw structure 83; the vertical moving structure 82 is connected with the moving part of the horizontal moving structure 81, the clamping jaw structure 83 is installed and connected with the moving part of the vertical moving structure, and the clamping jaw of the clamping jaw structure 83 corresponds to the conveying and discharging station. The horizontal moving structure adopts a linear module, the clamping jaw structure comprises a clamping jaw air cylinder and a clamping jaw, and the vertical moving structure comprises a vertical telescopic air cylinder; the vertical moving structure of straight line module area reciprocating motion realizes swabbing the switching of mechanism feed to two gluten, and vertical moving structure drives the clamping jaw structure and is close to and keeps away from the gluten strip of carrying ejection of compact station, and the clamping jaw structure presss from both sides tightly and releases the gluten strip.

And a discharging detection sensor is arranged on the conveying discharging station and is connected with a controller, and the controller is connected with a power part of the moving material transferring mechanism. Conveying mechanism provides the gluten strip for two gluten string label mechanisms simultaneously, removes to change the feed mechanism and snatchs the gluten strip on carrying ejection of compact station and transfer on for gluten string label mechanism respectively.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (10)

1. The utility model provides a gluten cutting machine automatic feeding device which characterized in that: including last feed bin (1) and liftout mechanism, go up the feed bin diapire and be equipped with the liftout mouth, liftout mechanism includes at least two-stage liftout structure, and the liftout structure at different levels parallels parallel arrangement, becomes the echelonment between the liftout structure by last under and distributes.

2. The automatic feeding device of gluten cutting machine according to claim 1, characterized in that: each stage of the ejector structure comprises a movable ejector plate and a fixed ejector plate, the upper part of the movable ejector plate penetrates through the ejector port and is positioned in the upper storage bin, and the lower part of the movable ejector plate is positioned outside the upper storage bin; the fixed ejector plate is fixedly connected with the inner wall of the upper bin, the fixed ejector plate is parallel to the movable ejector plate, and the top of the fixed ejector plate is higher than that of the movable ejector plate; and the movable ejector plate of the next-stage ejector structure is lifted between the current fixed ejector plate and the fixed ejector plate of the next-stage ejector structure.

3. The automatic feeding device of gluten cutting machine according to claim 2, characterized in that: the lower part of the movable ejector plate is connected with an ejector power mechanism.

4. The automatic feeding device of the gluten cutting machine according to claim 2, characterized in that: an ejection power unit is shared to liftout structures at all levels, ejection power unit, including liftout power part (4), liftout base (5) and liftout base plate (6), liftout power part (4) are installed in last feed bin below, and the pars contractilis of liftout power part (4) are connected with liftout base plate (5), are provided with liftout base plate (6) on liftout base plate (5), and liftout base plate (6) are connected with moving the liftout plate one-to-one, and have the difference in height between the adjacent liftout base plate (6).

5. The automatic feeding device of the gluten cutting machine according to claim 2 or 4, characterized in that: the ejection structure is provided with two stages, namely a first-stage ejection structure and a second-stage ejection structure, and the first-stage ejection structure comprises a first-stage movable ejector plate (21) and a first-stage fixed ejector plate (31); the secondary material ejecting structure comprises a secondary movable ejector plate (22) and a secondary fixed ejector plate (32); the first-stage fixed ejector plate (31) and the second-stage fixed ejector plate (32) are respectively and fixedly connected with the inner wall of the upper storage bin; the first-stage movable ejector plate (21) moves between the bottom wall of the upper storage bin and the first-stage fixed ejector plate (31); the second-stage movable ejector plate (22) moves between the first-stage fixed ejector plate (31) and the second-stage fixed ejector plate (32).

6. The gluten cutting machine automatic feeding device of claim 2 or 4, characterized in that: the material ejecting structure is provided with three stages, namely a first-stage material ejecting structure, a second-stage material ejecting structure and a third-stage material ejecting structure, wherein the first-stage material ejecting structure comprises a first-stage movable material ejecting plate (21) and a first-stage fixed material ejecting plate (31); the secondary material ejecting structure comprises a secondary movable ejector plate (22) and a secondary fixed ejector plate (32); the three-stage material ejecting structure comprises a three-stage movable material ejecting plate (23) and a three-stage fixed material ejecting plate (33); the first-stage fixed ejector plate (31), the second-stage fixed ejector plate (32) and the third-stage fixed ejector plate (33) are fixedly connected with the inner wall of the upper storage bin respectively; the first-stage movable ejector plate (21) moves between the bottom wall of the upper storage bin and the first-stage fixed ejector plate (31); the second-stage movable ejector plate (22) moves between the first-stage fixed ejector plate (31) and the second-stage fixed ejector plate (32), and the third-stage movable ejector plate (23) moves between the second-stage fixed ejector plate (32) and the third-stage fixed ejector plate (33).

7. The automatic feeding device of gluten cutting machine according to claim 6, characterized in that: the automatic material ejection device comprises a material ejection bin, a three-stage fixed ejector plate, a controller, a conveying mechanism, a feeding detection sensor, a conveying motor and a conveying motor, wherein the material ejection direction of the three-stage fixed ejector plate is arranged outside the material ejection bin, the conveying mechanism is provided with a conveying feeding station and a conveying ejection station, the conveying feeding station is provided with a feeding detection sensor, the feeding detection sensor is connected with the controller, and the output end of the controller is connected with the ejection power part and the conveying motor of the conveying mechanism.

8. The automatic feeding device of the gluten cutting machine according to claim 7, characterized in that: an inclined blanking plate is arranged at the top of the three-stage fixed ejector plate.

9. The automatic feeding device of gluten cutting machine according to claim 7, characterized in that: gluten stringing mechanisms (7) are symmetrically arranged on two sides of the conveying mechanism, a movable material transferring mechanism (8) is arranged at a conveying and discharging station, and the arrangement direction of the movable material transferring mechanism is vertical to the conveying direction of the conveying mechanism; and a discharging detection sensor is arranged on the conveying and discharging station and is connected with a controller, and the controller is connected with a power part of the movable material transferring mechanism.

10. The automatic feeding device of the gluten cutting machine according to claim 9, characterized in that: the moving material transferring mechanism (8) comprises a horizontal moving structure (81), a vertical moving structure (82) and a clamping jaw structure (83); the vertical moving structure (82) is connected with the moving part of the horizontal moving structure (81), the clamping jaw structure (83) is installed and connected with the moving part of the vertical moving structure, and the clamping jaw of the clamping jaw structure (83) corresponds to the conveying and discharging station.

Images