CN210538512U - Integral mould dismounting and locking device - Google Patents

Abstract

The utility model provides a technical scheme that its technical problem adopted is: an integral mold release locking device comprising: the biscuit mold comprises a machine frame and a biscuit mold and is characterized in that two parallel bearing arms which are oppositely arranged are arranged in the machine frame, a bearing shaft is arranged between the machine frame and the bearing arms, the machine frame is respectively and axially connected with the two bearing arms through the bearing shaft, the two bearing arms respectively swing upwards or downwards around the central line of the respectively connected bearing shaft, the machine frame is provided with a limit screw which can be loosened or tightened, the limit screw limits or does not limit the swinging of the bearing arms, when the biscuit mold is arranged in an inner cavity of the machine frame, the two bearing arms support the biscuit mold between the two bearing arms, and when the limit screw is loosened, the two bearing arms respectively swing downwards and drive the biscuit mold to move downwards; when the limiting screws are tightened, the two bearing arms respectively swing upwards and drive the biscuit mold to move upwards, when the limiting screws are static, the limiting screws limit the two bearing arms to swing, and the biscuit mold is supported by the two bearing arms to be in a stable state.

Description

Integral mould dismounting and locking device

Technical Field

The utility model belongs to biscuit machine field, especially locking device is dismantled to whole mould.

Background

The biscuit machine of prior art is mostly fixed installation to the mounting means of mould, and fixed installation generally is the installation of single pairing formula, when will maintaining the mould or when changing in the production process, because the limitation of installation condition, needs to spend a large amount of time loading and unloading, influences the efficiency of production.

Disclosure of Invention

In order to overcome the technical problem, the utility model provides a locking device is dismantled to whole mould, its structure is nimble, can effectively avoid the maintenance or take a large amount of time to load and unload when changing the mould, improves production efficiency.

The utility model provides a technical scheme that its technical problem adopted is: an integral mold release locking device comprising: the biscuit mold is characterized in that two parallel bearing arms which are oppositely arranged are arranged in the machine frame, a bearing shaft is arranged between the machine frame and the bearing arms, the machine frame is respectively and axially connected with the two bearing arms through the bearing shaft, the two bearing arms respectively swing upwards or downwards around the central line of the respectively connected bearing shaft, the machine frame is provided with a limit screw which can be loosened or tightened, the limit screw limits or does not limit the swinging of the bearing arms,

when the limiting screw is loosened, the two bearing arms respectively swing downwards and drive the biscuit mold to move downwards; when the limiting screws are tightened, the two bearing arms respectively swing upwards and drive the biscuit mold to move upwards, when the limiting screws are static, the limiting screws limit the two bearing arms to swing, and the biscuit mold is supported by the two bearing arms to be in a stable state.

The technical effects are as follows:

1. the frame and the biscuit mold are independent component bodies, the biscuit mold can be integrally installed or separated from the frame, and the independent component bodies enable the biscuit mold to avoid the disassembly and assembly of unnecessary components in the disassembly and assembly process.

2. The two bearing arms are respectively provided with a limiting screw, when the limiting screw on the right side is loosened, the bearing arm on the right side swings downwards in a counter-time needle mode around the central line of the connected bearing shaft, and when the limiting screw on the right side is tightened, the bearing arm on the right side swings upwards in a forward-time needle mode around the central line of the connected bearing shaft.

3. When the left limit screw is loosened, the left bearing arm swings downwards along the clockwise pin type around the central line of the connected bearing shaft, and when the left limit screw is tightened, the right bearing arm swings upwards along the counterclockwise pin type around the central line of the connected bearing shaft.

4. In the process of installing a frame or separating the biscuit mold, the bearing arm is lifted or the biscuit mold is lowered by adjusting the tightness of the limiting screw, the complex disassembly and assembly process is reduced, the disassembly and assembly time is shortened, and the production efficiency is improved.

Furthermore, the rack is provided with a left side plate and a right side plate, a clamping cross beam is arranged between the left side plate and the right side plate, the left end and the right end of the clamping cross beam are respectively and fixedly connected with the left side plate and the right side plate through screws, and the clamping cross beam wraps the left end, the right end and the outer side part of the bearing arm;

the left side board and the right side board are respectively provided with two bearing shafts extending from the inner side of the wallboard to the inside of the rack, the left side board and the right side board form two groups of bearing shafts with opposite levels, and the two groups of bearing shafts are respectively connected with the left end and the right end of the bearing arm in an axial manner after passing through the left end and the right end of the clamping cross beam.

Furthermore, the upper part of the bearing arm is axially connected with the bearing shaft, the inner side surface of the lower part of the bearing arm is a bearing surface which inclines towards the inner cavity of the rack from top to bottom, the back surface of the bearing surface is a vertical surface, and the limiting screw is arranged on the outer side of the vertical surface.

Furthermore, the clamping cross beam is provided with a threaded through hole which penetrates through the clamping cross beam from front to back, the screw head of the limiting screw is exposed out of the outer side of the clamping cross beam, the threaded end of the limiting screw is in threaded connection from the front part of the threaded through hole to the rear part of the threaded through hole, and the threaded end of the limiting screw penetrates through the threaded through hole and extends out of the inner side of the clamping cross beam; a plurality of threaded through holes are formed in the clamping cross beam, the threaded through holes are horizontally arranged along the clamping cross beam, and the threaded through holes are matched with the limiting screws.

The technical effects are as follows:

1. the plurality of limiting screws can promote the supporting force of the limiting screws on the bearing arms, so that the integral supporting effect on the biscuit mold is enhanced.

2. When the limiting screw is tightened, the thread of the limiting screw is not propped against the vertical surface of the bearing arm.

Furthermore, the biscuit mold is composed of a material storage device, a mold frame and a mold head from top to bottom, the whole biscuit mold is square, the lower portion of the material storage device is connected with the upper portion of the mold frame through a bolt, the lower portion of the mold frame is connected with the upper portion of the mold head through a screw, and the sections of the material storage device, the mold frame and the mold head form a dough cover channel which penetrates through the biscuit mold from top to bottom.

The technical effects are as follows:

1. after passing through the wrapper channel, the wrapper reaches a die head to be formed into a biscuit shape for the first time and enters the next procedure.

2. The die head is connected with the die frame through a screw, so that different die heads can be conveniently replaced according to different production requirements.

Furthermore, two sides of the lower part of the die frame of the biscuit die are provided with die bearing surfaces corresponding to the bearing surfaces of the two bearing arms, and the die bearing surfaces are inclined inwards from top to bottom and are symmetrically arranged by using the vertical middle line of the biscuit die.

The technical effects are as follows: the bearing surface of the bearing arm supports the mold bearing surface of the biscuit mold so as to support the whole biscuit mold.

Furthermore, a positioning clamping position is arranged at the left end of the storage device of the biscuit mold, the positioning clamping position and the storage device form a falling stage, the left end of the positioning clamping position is vertically flush with the left end of the biscuit mold, the right end of the positioning clamping position is connected with the storage device to form a stage side wall, the top of the positioning clamping position is sunken towards a wall body, and clamping grooves which are symmetrical in a splayed mode are formed by the vertical central line of the biscuit mold.

Furthermore, a left side plate and a right side plate of the rack are respectively provided with a left placing hole and a right placing hole, the left placing hole and the right placing hole are both in the shape of a C-shaped square through hole with a downward opening, the left placing hole is matched with the left end of the biscuit mold, the top of the left placing hole is provided with a downward convex positioning bayonet, and the positioning bayonet is matched with the clamping groove of the biscuit mold; the height of the right placing hole is higher than that of the left placing hole, the shape and the size of the right placing hole are matched with those of the right end of the biscuit mold, and the shape and the size of the left placing hole are matched with those of the left end of the biscuit mold.

The technical effects are as follows:

1. the right placing hole and the left placing hole play a role in limiting the displacement of the biscuit mold.

2. When the left end of biscuit mould and left arrangement hole cooperation were connected, the location screens got into left arrangement hole, and the inboard of left side board is pasted on the step lateral wall top, and the screens recess of location screens cooperates with the location bayonet socket screens in left arrangement hole, finally effectively restricts the displacement of biscuit mould.

Furthermore, the biscuit mold is placed in or not placed in the inner cavity of the rack, and the biscuit mold enters or exits the inner cavity of the rack through the right placing hole of the rack.

Furthermore, a dough cover feeding hole is formed in the upper portion of the biscuit mold, a cutting knife connected with the rack is arranged below a mold head of the biscuit mold, and a lower process conveying belt is arranged below the cutting knife.

The technical effects are as follows: after passing through the wrapper channel, the wrappers enter a die head to be primarily formed and vertically fall in a columnar shape, the thickness of biscuits is controlled by a cutting knife, the wrappers are horizontally cut, the wrappers finally form biscuit shapes, and the wrappers fall to a conveying belt of the next process.

Each of the above is further an example, and each example may be taken alone as an embodiment, or may be arbitrarily combined to form a combined embodiment on the premise of ensuring no contradiction.

Drawings

Fig. 1 is a left side view of the present invention;

fig. 2 is a left side exploded schematic view of the present invention;

fig. 3 is a rear schematic view of the present invention;

FIG. 4 is a schematic top view of the combination of the biscuit mold and the frame of the present invention;

FIG. 5 is a top view of the biscuit mold and frame assembly;

FIG. 6 is a schematic top view 2 of the biscuit mold of the present invention separated from the frame;

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below are exemplary only for the purpose of illustrating the present invention and are not to be construed as limiting the invention, but on the contrary, the embodiments of the present invention include all changes, modifications and equivalents coming within the spirit and terms of the appended claims.

As shown in fig. 1, 2 and 5, the whole mold disassembling and locking device of this embodiment includes a frame 5 and a biscuit mold 9, two parallel and oppositely disposed support arms 18 are disposed in the frame 5, a support shaft 17 is disposed between the frame 5 and the support arms 18, the frame 5 is respectively and axially connected with the two support arms 18 through the support shaft 17, the two support arms 18 respectively swing upward or downward around the central line of the support shaft 17, the frame 5 is provided with a limit screw 19 capable of being loosened or tightened, the limit screw 19 limits or does not limit the swing of the support arms 18, the biscuit mold 9 is disposed or not disposed in the inner cavity of the frame 5, when the biscuit mold 9 is disposed in the inner cavity of the frame 5, the two support arms 18 support the biscuit mold 9 between the two support arms 18, when the limit screws 19 are loosened, the two bearing arms 18 respectively swing downwards and drive the biscuit mold 9 to move downwards; when the limit screws 19 are tightened, the two bearing arms 18 respectively swing upwards and drive the biscuit mold 9 to move upwards, when the limit screws 19 are static, the limit screws 19 limit the two bearing arms 18 to swing, and the two bearing arms 18 support the biscuit mold 9 in a stable state; the frame 5 is provided with a left side plate 21.1 and a right side plate 21.2, a clamping cross beam 20 is arranged between the left side plate 21.1 and the right side plate 21.2, the left end and the right end of the clamping cross beam 20 are fixedly connected with the left side plate 21.1 and the right side plate 21.2 through screws respectively, and the clamping cross beam 20 wraps the left end, the right end and the outer side of the bearing arm 18; the left side plate 21.1 and the right side plate 21.2 are respectively provided with two bearing shafts 17 extending from the inner side of the wall plate to the inner part of the rack 5, the left side plate 21.1 and the right side plate 21.2 form two groups of horizontally opposite bearing shafts 17, and the two groups of bearing shafts 17 respectively penetrate through the left end and the right end of the clamping cross beam 20 and are in shaft connection with the left end and the right end of the bearing arm 18.

As shown in fig. 1, 2 and 3, the upper part of the supporting arm 18 of the present embodiment is axially connected with the supporting shaft 17, the inner side surface of the lower part of the supporting arm 18 is a supporting surface 18.1 inclined from top to bottom toward the inner cavity of the rack 5, the back surface of the supporting surface 18.1 is a vertical surface 18.2, and the limiting screw 19 is disposed on the outer side of the vertical surface 18.2; the clamping beam 20 is provided with a threaded through hole 20.1 which penetrates through the clamping beam 20 from front to back, the screw head of the limiting screw 19 is exposed out of the clamping beam 20, the threaded end of the limiting screw 19 is in threaded connection from the front part of the threaded through hole 20.1 to the rear part of the threaded through hole 20.1, and the threaded end of the limiting screw 19 passes through the threaded through hole 20.1 and extends out of the inner side of the clamping beam 20; the clamping beam 20 is provided with a plurality of threaded through holes 20.1, the threaded through holes 20.1 are horizontally arranged along the clamping beam 20, and the threaded through holes 20.1 are matched with the limiting screws 19; the biscuit mold 9 is composed of a material storage device 9.4, a mold frame 9.3 and a mold head 9.1 from top to bottom, the whole biscuit mold 9 is square, the lower part of the material storage device 9.4 is connected with the upper part of the mold frame 9.3 through a bolt, the lower part of the mold frame 9.3 is connected with the upper part of the mold head 9.1 through a screw, the sections of the material storage device 9.4, the mold frame 9.3 and the mold head 9.1 form a dough skin channel 9.5 which penetrates through the biscuit mold 9 from top to bottom, and the mold head 9.1 is connected with the mold frame 9.3 through a screw, so that different mold heads 9.1 can be conveniently replaced; the two sides of the lower part of the mould frame 9.3 of the biscuit mould 9 are provided with mould bearing surfaces 9.31 corresponding to the bearing surfaces 18.1 of the two bearing arms 18, and the mould bearing surfaces 9.31 are inclined inwards from top to bottom and are symmetrically arranged by the vertical middle line of the biscuit mould 9.

As shown in fig. 1, 2 and 6, the biscuit mold 9 of the present embodiment has a positioning block 9.41 at the left end of the stocker 9.4, the positioning block 9.41 and the stocker 9.4 form a falling step, the left end of the positioning block 9.41 is vertically flush with the left end of the biscuit mold 9, the right end of the positioning block 9.41 is connected with the stocker 9.4 and forms a step side wall 9.42, the top of the positioning block 9.41 is recessed toward the wall body, and the positioning grooves 9.43 are splayed and symmetrical with the vertical center line of the biscuit mold 9; a left placing hole 21.11 and a right placing hole 21.21 are respectively formed in a left side plate 21.1 and a right side plate 21.2 of the frame 5, the left placing hole 21.11 and the right placing hole 21.21 are C-shaped square through holes with downward openings, the left placing hole 21.11 is matched with the left end of the biscuit mold 9, a downward convex positioning bayonet 21.12 is arranged at the top of the left placing hole 21.11, and the positioning bayonet 21.12 is matched with a clamping groove 9.43 of the biscuit mold 9; the height of the right placing hole 21.21 is higher than that of the left placing hole 21.11, the shape and size of the right placing hole 21.21 are matched with the shape and size of the right end of the biscuit mold 9, and the shape and size of the left placing hole 21.11 are matched with the shape and size of the left end of the biscuit mold 9.

As shown in fig. 3, 4 and 5, the biscuit mold 9 of the present embodiment is placed in or not placed in the inner cavity of the frame 5, the biscuit mold 9 enters or exits the inner cavity of the frame 5 through the right placement hole 21.21 of the frame 5, and the right end and the left end of the biscuit mold 9 are both provided with a pull handle, so that the installation of the biscuit mold 9 is facilitated.

As shown in FIG. 1, there is a dough feeding hole above the biscuit mold 9, a cutter (not shown) connected to the frame 5 is arranged below the die head 9.1 of the biscuit mold 9, and a lower process conveyor (not shown) is arranged below the cutter.

When the biscuit mold 9 is installed on the machine frame 5, the limiting screws 19 are loosened, the bearing arms 18 swing downwards around the central line of the connected bearing shafts 17, the bearing surfaces 18.1 of the bearing arms 18 are in a downward state, the space of the inner cavity of the machine frame 5 is widened, the biscuit mold 9 enters from the right placing hole 21.21 of the machine frame 5, the bearing surfaces 18.1 of the bearing arms 18 support the biscuit mold 9 between the two bearing arms 18, and the biscuit mold 9 slides along the bearing arms 18 to the left placing hole 21.11;

when the left end and the right end of the biscuit mold 9 are vertically aligned with a left placing hole 21.11 and a right placing hole 21.21 of the frame 5, the limiting screw 19 is tightened to enable the bearing arm 18 to swing upwards around the central line of the connected bearing shaft 17, so that the biscuit mold 9 is driven to move upwards from the opening of the left placing hole 21.11 and the right placing hole 21.21, the top of the upper part of the right end of the biscuit mold 9 is attached to the top of the inner cavity of the right placing hole 21.21, the right placing hole 21.21 is matched with the right end of the biscuit mold 9, and the right side plate 21.2 and the right side face of the biscuit mold 9 are positioned on the same vertical plane; a positioning clamp 9.41 at the left end of the biscuit mold 9 enters the left placing hole 21.11, the step side wall 9.42 is attached to the inner side of the left side plate 21.1, and a clamp groove 9.43 of the positioning clamp 9.41 is matched with a positioning bayonet 21.12 of the left placing hole 21.11 in a clamping manner;

the limiting screw 19 is tightened to enable the supporting arm 18 to support the bottom of the biscuit mold 9, the whole biscuit mold 9 and the positioning clamp 9.41 form limiting connection with the left placing hole 21.11 and the right placing hole 21.21, and finally displacement of the biscuit mold 9 is effectively limited;

when the biscuit mold 9 is to be disassembled, the limiting screw 19 is loosened to enable the supporting arm 18 to swing downwards, the biscuit mold 9 is separated from the left placing hole 21.11 and the right placing hole 21.21, and the biscuit mold 9 exits from the inner cavity of the machine frame 5 from the right placing hole 21.21.

Claims (10)

1. An integral mold release locking device comprising: the biscuit maker comprises a machine frame (5) and a biscuit mold (9), and is characterized in that two bearing arms (18) which are parallel and oppositely arranged are arranged in the machine frame (5), a bearing shaft (17) is arranged between the machine frame (5) and the bearing arms (18), the machine frame (5) is respectively in axial connection with the two bearing arms (18) through the bearing shaft (17), the two bearing arms (18) respectively swing upwards or downwards around the central line of the respectively connected bearing shafts (17), the machine frame (5) is provided with a limit screw (19) which can be loosened or tightened, the limit screw (19) limits or does not limit the bearing arms (18) to swing,

the biscuit mould (9) is arranged in or not arranged in the inner cavity of the frame (5), when the biscuit mould (9) is arranged in the inner cavity of the frame (5), the two bearing arms (18) bear the biscuit mould (9) between the two bearing arms (18), and when the limit screw (19) is loosened, the two bearing arms (18) respectively swing downwards and drive the biscuit mould (9) to move downwards; when the limit screw (19) is tightened, the two bearing arms (18) respectively swing upwards and drive the biscuit mold (9) to move upwards, when the limit screw (19) is static, the limit screw (19) limits the two bearing arms (18) to swing, and the two bearing arms (18) support the biscuit mold (9) to be in a stable state.

2. The one-piece mold release locking device according to claim 1, wherein: the rack (5) is provided with a left side plate (21.1) and a right side plate (21.2), a clamping cross beam (20) is arranged between the left side plate (21.1) and the right side plate (21.2), the left end and the right end of the clamping cross beam (20) are fixedly connected with the left side plate (21.1) and the right side plate (21.2) through screws respectively, and the clamping cross beam (20) wraps the left end, the right end and the outer side part of the bearing arm (18);

the left side plate (21.1) and the right side plate (21.2) are respectively provided with two bearing shafts (17) extending from the inner side of the wall plate to the inner side of the rack (5), the left side plate (21.1) and the right side plate (21.2) form two groups of bearing shafts (17) with opposite levels, and the two groups of bearing shafts (17) respectively penetrate through the left end and the right end of the clamping cross beam (20) and are in shaft connection with the left end and the right end of the bearing arm (18).

3. The one-piece mold release locking device according to claim 2, wherein: the upper part of the bearing arm (18) is axially connected with the bearing shaft (17), the inner side surface of the lower part of the bearing arm (18) is a bearing surface (18.1) which inclines towards the inner cavity of the rack (5) from top to bottom, the back surface of the bearing surface (18.1) is a vertical surface (18.2), and the limiting screw (19) is arranged on the outer side of the vertical surface (18.2).

4. The one-piece mold release locking device according to claim 3, wherein: the clamping cross beam (20) is provided with a threaded through hole (20.1) which penetrates through the clamping cross beam (20) from front to back, the screw head of the limiting screw (19) is exposed out of the outer side of the clamping cross beam (20), the threaded end of the limiting screw (19) is in threaded connection from the front part of the threaded through hole (20.1) to the rear part of the threaded through hole (20.1), and the threaded end of the limiting screw (19) penetrates through the threaded through hole (20.1) and extends out of the inner side of the clamping cross beam (20).

5. The one-piece mold release locking device according to claim 1, wherein: the biscuit mold (9) is composed of a material storage device (9.4), a mold frame (9.3) and a mold head (9.1) from top to bottom, the whole biscuit mold (9) is square, the lower portion of the material storage device (9.4) is connected with the upper portion of the mold frame (9.3) through a bolt, the lower portion of the mold frame (9.3) is connected with the upper portion of the mold head (9.1) through a screw, and the sections of the material storage device (9.4), the mold frame (9.3) and the mold head (9.1) form a wrapper channel (9.5) which penetrates through the biscuit mold (9) from top to bottom.

6. The one-piece mold release locking device according to claim 5, wherein: the two sides of the lower part of the mould frame (9.3) of the biscuit mould (9) are provided with mould bearing surfaces (9.31) corresponding to the bearing surfaces (18.1) of the two bearing arms (18), and the mould bearing surfaces (9.31) are inclined inwards from top to bottom and are symmetrically arranged by the vertical middle line of the biscuit mould (9).

7. The one-piece mold release locking device according to claim 6, wherein: the left end of a stocker (9.4) of the biscuit mold (9) is provided with a positioning clamp position (9.41), the positioning clamp position (9.41) and the stocker (9.4) form a falling step, the left end of the positioning clamp position (9.41) is vertically flush with the left end of the biscuit mold (9), the right end of the positioning clamp position (9.41) is connected with the stocker (9.4) and forms a step side wall (9.42), the top of the positioning clamp position (9.41) is sunken towards the wall body, and a clamping groove (9.43) which is symmetrical in a splayed shape is formed by the vertical central line of the biscuit mold (9).

8. The one-piece mold release locking device according to claim 7, wherein: a left side plate (21.1) and a right side plate (21.2) of the rack (5) are respectively provided with a left placing hole (21.11) and a right placing hole (21.21), the left placing hole (21.11) and the right placing hole (21.21) are C-shaped square through holes with downward openings, the left placing hole (21.11) is matched with the left end of the biscuit mold (9), the top of the left placing hole (21.11) is provided with a downward-convex positioning bayonet (21.12), and the positioning bayonet (21.12) is matched with a clamping groove (9.43) of the biscuit mold (9).

9. The one-piece mold release locking device according to claim 8, wherein: the biscuit mould (9) enters or exits the inner cavity of the frame (5) through a right placing hole (21.21) of the frame (5).

10. The one-piece mold release locking device according to claim 1, wherein: a dough cover feeding hole is formed in the upper portion of the biscuit mold (9), a cutting knife connected with the rack (5) is arranged below a die head (9.1) of the biscuit mold (9), and a lower process conveying belt is arranged below the cutting knife.

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