CN218184981U - Cake cutting machine - Google Patents

Abstract

The utility model discloses a cake cutting machine, which comprises a plate cover, wherein the top of the plate cover is provided with a synchronous sliding mechanism, and the top of the synchronous sliding mechanism is provided with a sliding component; the top of the plate cover is provided with two sliding blocks, sliding rails are arranged inside the two sliding blocks, and the sliding rails are fixed with the bottom of the sliding assembly; the synchronous sliding mechanism is matched with the sliding panel to move by taking the sliding rail as a fulcrum, the synchronous movement of the sliding panel can be kept, the sliding rail is arranged to enable the two sides of the sliding assembly to be supported, the cake and the part above the sliding assembly rotate in the process, the stable effect is achieved, and the defects on the surface when the cake is made due to movement shaking are prevented.

Description

Cake cutting machine

Technical Field

The utility model relates to a cake cutting machine, concretely relates to stable cake machine horizontal slip structure.

Background

The cake is a pasta, usually sweet, and is typically made in a baked form. The cake is made of the materials mainly including flour, sweetener, adhesive, shortening and other slurry materials, and the cake is made by extruding the slurry materials into a mould when the slurry materials are mixed into the slurry materials and then baking.

Publication number CN208854691U grant announcement date 20190514 discloses a cake cutting machine, which comprises a case, wherein an operation table is arranged on the case, frames are arranged on the left side and the right side of the operation table, an upper cover is erected above the frames, a translation device is arranged on the operation table, a rotation device is arranged on the translation device, a lifting cutter is arranged above the rotation device, and the cutter belongs to a lifting cutting device;

the patent discloses that the translation driving assembly comprises a driving synchronous belt 25 which is longitudinally arranged, the driving synchronous belt 25 is driven by a section of translation motor 22, a connecting clamp 24 is fixed on the driving synchronous belt 25, and the upper end of the connecting clamp 24 is fixedly connected with the translation operation plate 21;

longitudinal guide rail assemblies 26 are further arranged on the left side and the right side of the operating platform 5, guide sliding blocks 27 capable of sliding back and forth are sleeved on the guide rail assemblies 26, and the upper parts of the guide sliding blocks 27 are fixedly connected with the translation operating plate 21;

the operation table 5 is provided with auxiliary rollers 23 and the like for assisting the forward and backward movement of the translation operation plate 21.

The aforesaid patent adopts the direction slider to support the operation of sliding, but this kind of support is in the in-service use, and single-point support is very easy sliding to and the cake cutting, translation and the rotatory in-process produce vibrations, and the cake integrality of so cutting out is not high, and is not pleasing to the eye, therefore a cake cutting machine is needed to solve above-mentioned problem urgently.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cake cutting machine to solve the above-mentioned weak point among the prior art.

In order to achieve the above object, the present invention provides the following technical solutions:

a cake cutting machine is characterized in that a synchronous sliding mechanism and a cutting mechanism are arranged at the top of a plate cover 1, a sliding assembly is arranged at the top of the synchronous sliding mechanism, and the cutting mechanism is located above the sliding assembly;

the top of the plate cover is provided with two sliding blocks, sliding rails are arranged inside the two sliding blocks, and the sliding rails are fixed with the bottom of the sliding assembly;

one side of the plate cover is provided with a first driving assembly, and the first driving assembly drives the synchronous sliding mechanism to drive the sliding assembly to move left and right by taking the sliding rail and the sliding block as fulcrums.

In another embodiment provided by the invention, the synchronous sliding mechanism comprises a first driving wheel and a sliding driven wheel, a sliding synchronous belt is rotatably connected between the first driving wheel and the sliding driven wheel, and the sliding synchronous belt is fixedly connected with a sliding connecting plate.

In another embodiment of the present invention, the driving assembly includes a right-angle speed reducer, the right-angle speed reducer is disposed on an outer wall of one side of the plate cover, a first motor is disposed at an input end of the right-angle speed reducer, and the first driving wheel is connected to an output end of the right-angle speed reducer.

In another embodiment, the sliding assembly comprises a sliding panel, and the bottom of the sliding panel is fixed with the sliding connection plate.

In another embodiment of the present invention, a second driving assembly is further disposed on the top of the sliding panel, the second driving assembly includes a second motor, and one end of an output shaft of the second motor is provided with a driving wheel.

In another embodiment provided by the invention, three small flange bearings are arranged at the bottom of the sliding panel side by side, driven wheels II are rotatably connected inside the small flange bearings on the two sides, a driven wheel III is rotatably connected inside the small flange bearing in the middle, and a driven wheel I is arranged at the bottom of the driven wheel III.

In another embodiment of the invention, a first rotating synchronous belt is arranged outside the second driving wheel, and the other end of the first rotating synchronous belt is sleeved outside the first driven wheel.

In another embodiment of the present invention, a tension seat is disposed at the bottom of the sliding panel, and a tension wheel is rotatably connected to the interior of the tension seat

In another embodiment provided by the invention, a second rotating synchronous belt is wound outside the second driven wheel, the third driven wheel and the tension wheel.

In another embodiment of the present invention, a fixing seat is disposed at the bottom of the sliding panel, and a deep groove ball bearing is disposed at the bottom of the fixing seat and located at one side of the second rotating synchronous belt.

In the technical scheme, the utility model provides a pair of cake cutting machine, (1) the synchronous glide machanism cooperation slip panel through setting up uses the slide rail to move as the plane fulcrum, compares in single-point support slip panel, and the area of contact of slide rail is bigger, more stable during the slip to can keep the synchronous motion of slip panel, the slide rail that sets up simultaneously makes the both sides of the subassembly that slides obtain supporting, has stable effect at the rotatory in-process of the part of cake and the subassembly top that slides.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

Fig. 1 is a schematic side perspective view of a cake cutting machine according to an embodiment of the present invention.

Fig. 2 is a schematic view of a forward structure provided by an embodiment of the cake cutting machine of the present invention.

Fig. 3 is a schematic view of the connection of the vibration motor provided by the cake cutting machine of the present invention.

Fig. 4 is a schematic view of a sliding block structure provided in an embodiment of the cake cutting machine of the present invention.

Fig. 5 is a schematic view of a front view structure provided by an embodiment of the cake cutting machine of the present invention.

Fig. 6 is a schematic view of a top view structure provided by an embodiment of the cake cutting machine of the present invention.

Fig. 7 is a schematic perspective view of a cake cutting machine according to an embodiment of the present invention.

Fig. 8 is a schematic side view of the cake cutting machine according to the embodiment of the present invention.

Fig. 9 is a schematic view of a two-dimensional structure provided in an embodiment of the cake cutting machine of the present invention.

Fig. 10 is a schematic diagram of a rotary synchronous belt provided in an embodiment of the utility model of a cake cutting machine.

Fig. 11 is a schematic view of a partial top view structure provided by an embodiment of the cake cutting machine of the present invention.

Description of reference numerals:

the device comprises a plate cover 1, a sliding surface moving plate 2, a sliding belt cover 3, a first motor 4, a right-angle speed reducer 5, a first driving wheel 6, a sliding synchronous belt 7, a sliding connecting plate 8, a sliding rail 9, a sliding block 10, a small flange bearing seat 11, a tensioning seat 12, a tensioning wheel 13, a second driven wheel 14, a second motor 15, a second driving wheel 16, a first driven wheel 17, a second rotating synchronous belt 18, a fixed seat 19, a deep groove ball bearing 20, a third driven wheel 21, a first rotating synchronous belt 22, a sliding driven wheel 23, a box 24, a universal wheel 25, a hood plate 26, a hood 27, a 28 switch, a 29 display screen, a vibrating motor 30, a swinging rod 31, a synchronous rod 32, a swinging arm 33, a cutter 34, a sliding groove 35, a spring 36 and a sliding block 37.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1-11, in the cake cutting machine provided in the embodiment of the present invention, a synchronous sliding mechanism and a cutting mechanism are arranged at the top of a plate cover 1, a sliding assembly is arranged at the top of the synchronous sliding mechanism, and the cutting mechanism is located above the sliding assembly; the top of the plate cover 1 is provided with two sliding blocks 10, the insides of the two sliding blocks 10 are both provided with a sliding rail 9, and the sliding rail 9 is fixed with the bottom of the sliding assembly;

one side of the plate cover 1 is provided with a first driving assembly, and the first driving assembly drives the synchronous sliding mechanism to drive the sliding assembly to move left and right by taking the sliding rail 9 and the sliding block 10 as fulcrums.

In the specific embodiment, the plate cover comprises a plate cover 1, wherein a synchronous sliding mechanism is arranged at the top of the plate cover 1, and a sliding assembly is arranged at the top of the synchronous sliding mechanism; the sliding assembly is fixedly arranged above the synchronous sliding mechanism in two fixing modes, namely, bolted connection and welding, preferably bolted connection in the application document, two sliding blocks 10 are arranged at the top of the plate cover 1 and symmetrically arranged at the top of the plate cover 1, the two sliding blocks are fixed in a bolted connection mode and are arranged in parallel, sliding rails 9 are arranged inside the two sliding blocks 10, and the sliding rails 9 are fixed with the bottom of the sliding assembly; slide rail 9 sliding connection is in the inside of slider 2, two slide rail 9 parallel arrangement, two the fixed setting in the inside of the subassembly that slides in both ends of slide rail 9, slide rail 9 sliding connection is in the inside of slider 2, one side of board cover 1 is provided with drive assembly one, and drive assembly one drive synchronous glide machanism drives the subassembly that slides and uses slide rail 9 and slider 10 to remove about as the fulcrum, and drive assembly one drives synchronous glide machanism and removes, synchronous glide machanism fixed connection's slip panel removes, and the removal of slip panel drives slide rail 9 and removes, and slide rail 9 slides in the inside of slider 2.

In this embodiment, a box body 24 is arranged at the bottom of the plate cover 1, universal wheels 25 are arranged on the outer wall of the bottom of the box body 24, the number of the universal wheels 25 is four, the four universal wheels are respectively located at four corners of the outer wall of the bottom of the box body 24, hood plates 26 are arranged at two sides of the top of the plate cover 1, the number of the hood plates 26 is two, the two hood plates 26 are arranged in parallel, a hood 27 is arranged at the top of the hood plate 26, a switch 28 and a display screen 29 are arranged on the outer wall of one side of the hood 27, and the display screen 29 is located at one side of the switch 28;

further, the cutting mechanism is located inside the hood 27, the cutting mechanism includes a vibration motor 30, one end of an output shaft of the vibration motor 30 is provided with a swing rod 31, one end of the swing rod 31 is rotatably connected with a swing arm 33, the bottom of the swing arm 33 is provided with a cutter 34, the swing arm 33 is movably connected with the bottom of the hood 27, the number of the swing arms 33 is two, the swing arms 33 are lifting cylinders, the telescopic ends of the lifting cylinders are connected with the cutters, the two swing arms 33 penetrate through the bottom of the hood 27 and extend to the upper side of the sliding assembly, the top of one swing arm 33 is provided with a synchronization rod 32, the other end of the synchronization rod 32 is connected with the other swing arm 33, so that the vibration motor 30 vibrates to drive one of the swing arms 33 to swing left and right, the cutter 34 is driven to swing to cut cakes, meanwhile, the top of the swing arm 33 is provided with the synchronization rod 32, the contraction end of the lifting cylinder is rotatably connected with the synchronization rod 32, when one of the swing arms 33 moves, the other swing arm 33 can drive the other swing arm 33 to move, the bottom of the two swing arms 33 is provided with the same cutter 34, and the existing technology is not one-by one; it should be noted that, the mode of rotating the connection is that the round pin axle rotates to be connected, perhaps the bearing rotates to be connected, preferably the round pin axle rotates to be connected in this application file, and prior art does not give unnecessary details one by one, for example use swing arm 33 and synchronizing bar 32 as an example, can be fixed in the bottom of swing arm 33 lift cylinder promptly when using and be provided with the round pin axle, peg graft inside the movable hole that synchronizing bar 32 reserved at the both ends of round pin axle, so alright form rotating-structure, prior art does not need a repeated description.

Further, the method comprises the following steps of; sliding tray 35 has been seted up to one side outer wall of hood plate 26, sliding tray 35's inside sliding connection has sliding block 37, cutter 34 and sliding block 37 sliding connection, the one end of slider is provided with the spring, one side butt of spring 36 and aircraft bonnet 27, through the slider and the spring that set up, can finely tune the position of cutter, utilize the slider to do benefit to the correction to the cutter in the removal of spout simultaneously.

In another embodiment provided by the invention, the synchronous sliding mechanism comprises a driving wheel I6 and a sliding driven wheel 23, a sliding synchronous belt 7 is rotatably connected between the driving wheel I6 and the sliding driven wheel 23, and the sliding synchronous belt 7 is fixedly connected with a sliding connecting plate 8; the fixing modes comprise two modes, namely bolt connection and welding, preferably bolt connection in the application document, the rotation of the first driving wheel 6 drives the sliding synchronous belt 7 to rotate, the sliding synchronous belt 7 rotates to drive the sliding driven wheel to rotate, so that the sliding connecting plate fixedly connected with the sliding synchronous belt 7 displaces, the first driving wheel 6 and the sliding driven wheel 23 have good fulcrum effect on the air passage, the sliding synchronous belt is given a movement stroke, the sliding connecting plate is driven to displace in the rotating process of the synchronous belt, the top of the sliding connecting plate is fixedly connected with the sliding assembly, the fixing modes comprise two modes, namely bolt connection and welding, and preferably bolt connection in the application document; the top of the sliding synchronous belt 7 is provided with a sliding belt cover 3.

In another embodiment of the invention, the driving assembly one comprises a right-angle speed reducer 5, the right-angle speed reducer 5 is arranged on the outer wall of one side of the plate cover 1, the input end of the right-angle speed reducer 5 is provided with a motor one 4, and a driving wheel one 6 is connected with the output end of the right-angle speed reducer 5; the motor 4 drives the right angle speed reducer 5 to rotate, the right angle speed reducer 5 drives the driving wheel 6 to rotate, the rotation of the driving wheel one 6 drives the rotation of the sliding synchronous belt 7, the rotation of the sliding synchronous belt 7 drives the sliding driven wheel to rotate, the sliding connecting plate is fixedly connected with the sliding synchronous belt 7 to move, the driving wheel one 6 and the sliding driven wheel 23 air passage are good in fulcrum effect, and the stroke of one motion of the sliding synchronous belt is given.

In another embodiment provided by the invention, a second driving assembly is further arranged at the top of the sliding panel 2, the second driving assembly comprises a second motor 15, and one end of an output shaft of the second motor 15 is provided with a driving wheel 2; the second driving motor 15 rotates to drive the driving wheel 2 to rotate.

In still another embodiment provided by the invention, three small flange bearings 11 are arranged at the bottom of the sliding panel side by side, outer rings of the three small flange bearings 11 are all fixed with the sliding panel 2, the fixing mode can be that three round holes are formed at the top of the sliding panel, the small flange bearings 11 are arranged inside the three round holes and are fixed by bolts, or the small flange bearings 11 can be directly fixed at the bottom of the sliding panel 2 by bolts, driven wheels 14 are rotatably connected inside the small flange bearings 11 at two sides, the driven wheels 14 are connected with inner rings of the small flange bearings 11, the driven wheels 14 can well rotate by taking the small flange bearings as fulcrums, driven wheels three 21 are rotatably connected inside the small flange bearings 11 at the middle position, the driven wheels three 21 are connected with the inner rings of the small flange bearings 11, the driven wheels three 21 can well rotate by taking the small flange bearings as the fulcrums, and driven wheels one 17 are arranged at the bottoms of the driven wheels three 21; the driven wheel III 21 is connected with the driven wheel I17 in a welding mode, the driven wheel I17 is driven to rotate by the rotation of the driven wheel III 21, and conversely, the driven wheel III is driven to rotate by the rotation of the driven wheel I.

In another embodiment provided by the present invention, a first rotating synchronous belt 22 is disposed outside the second driving wheel 16, the other end of the first rotating synchronous belt 22 is sleeved outside the first driven wheel 17, the second driving wheel 16 drives the first rotating synchronous belt 22 to rotate, the first rotating synchronous belt drives the first driven wheel to rotate, and the third driven wheel is driven to rotate by the first driven wheel.

In another embodiment of the present invention, a tension seat 12 is disposed at the bottom of the sliding panel 2, a tension wheel 13 is rotatably connected inside the tension seat 12, and the tension seat and the tension wheel play a role of tension, which are not described in detail in the prior art.

In another embodiment provided by the invention, a rotating synchronous belt two 18 is wound outside the driven wheel two 14, the driven wheel three 21 and the tension wheel 13, the rotating synchronous belt two 18 of the driven wheel two 14 rotates, the rotating synchronous belt two 18 drives the driven wheel three 21 and the tension wheel 13 to rotate, so that the driven wheel one can be driven by the driving wheel two to rotate, the driven wheel one drives the driven wheel to rotate, the driven wheel three drives the rotating synchronous belt two to rotate, the rotating synchronous belt drives the driven wheel two to rotate, a tray is arranged on the top of the small flange bearing, the size of the tray can be 8 inches, 10 inches, 16 inches and the like according to the setting of a cake to be made, 8 inches and 10 inches are preferred in the application document, as shown in fig. 2, a flat plate is arranged above the tray, and the cutter is positioned right above the flat plate.

In another embodiment of the present invention, a fixing seat 19 is disposed at the bottom of the sliding panel 2, a deep groove ball bearing 20 is disposed at the bottom of the fixing seat 19, the deep groove ball bearing 20 is located at one side of the second rotating synchronous belt 18, and the effect of the deep groove ball bearing 20 is similar to that of the tension pulley.

Example 1

A cake cutting machine comprises a plate cover 1, wherein a synchronous sliding mechanism is arranged at the top of the plate cover 1, and a sliding assembly is arranged at the top of the synchronous sliding mechanism; the sliding assembly is fixedly arranged above the synchronous sliding mechanism, the fixing modes comprise two modes, namely bolt connection and welding, preferably bolt connection in the application document, two sliding blocks 10 are arranged at the top of the plate cover 1, the two sliding blocks are symmetrically arranged at the top of the plate cover 1 and are fixed in a bolt connection mode, the two sliding blocks 1 are arranged in parallel, sliding rails 9 are arranged inside the two sliding blocks 10, and the sliding rails 9 are fixed with the bottom of the sliding assembly; slide rail 9 sliding connection is in the inside of slider 2, two slide rail 9 parallel arrangement, two the fixed setting in the inside of the subassembly that slides in both ends of slide rail 9, slide rail 9 sliding connection is in the inside of slider 2, one side of board cover 1 is provided with drive assembly one, and drive assembly one drive synchronous glide machanism drives the subassembly that slides and uses slide rail 9 and slider 10 to remove about as the fulcrum, and drive assembly one drives synchronous glide machanism and removes, synchronous glide machanism fixed connection's slip panel removes, and the removal of slip panel drives slide rail 9 and removes, and slide rail 9 slides in the inside of slider 2.

Example 2

The embodiment is further limited on the basis of embodiment 1, the synchronous sliding mechanism comprises a driving wheel I6 and a sliding driven wheel 23, a sliding synchronous belt 7 is rotatably connected between the driving wheel I6 and the sliding driven wheel 23, and the sliding synchronous belt 7 is fixedly connected with a sliding connecting plate 8; the fixing modes comprise two modes, namely bolt connection and welding, preferably bolt connection in the application document, the rotation of the first driving wheel 6 drives the sliding synchronous belt 7 to rotate, the sliding synchronous belt 7 rotates to drive the sliding driven wheel to rotate, so that the sliding connecting plate fixedly connected with the sliding synchronous belt 7 displaces, the first driving wheel 6 and the sliding driven wheel 23 have good fulcrum effect on the air passage, the sliding synchronous belt is given a movement stroke, the sliding connecting plate is driven to displace in the rotating process of the synchronous belt, the top of the sliding connecting plate is fixedly connected with the sliding assembly, the fixing modes comprise two modes, namely bolt connection and welding, and preferably bolt connection in the application document; the driving assembly I comprises a right-angle speed reducer 5, the right-angle speed reducer 5 is arranged on the outer wall of one side of the plate cover 1, a motor I4 is arranged at the input end of the right-angle speed reducer 5, and a driving wheel I6 is connected with the output end of the right-angle speed reducer 5; the first motor 4 drives the right-angle reducer 5 to rotate, the right-angle reducer 5 drives the first driving wheel 6 to rotate, the first driving wheel 6 drives the sliding synchronous belt 7 to rotate, the sliding synchronous belt 7 drives the sliding driven wheel to rotate through rotation, so that the sliding connecting plate fixedly connected with the sliding synchronous belt 7 is displaced, and the first driving wheel 6 and the sliding driven wheel 23 are well supported by an air passage to provide a movement stroke for the sliding synchronous belt; the top of the sliding panel 2 is also provided with a second driving assembly, the second driving assembly comprises a second motor 15, and one end of an output shaft of the second motor 15 is provided with a driving wheel 2; the second driving motor 15 drives the driving wheel 2 to rotate; the bottom of the sliding panel is provided with three small flange bearings 11 side by side, outer rings of the three small flange bearings 11 are fixed with the sliding panel 2, the fixing mode can be that three round holes are formed in the top of the sliding panel, the small flange bearings 11 are arranged inside the three round holes and fixed by bolts, or the small flange bearings 11 are directly fixed at the bottom of the sliding panel 2 by bolts, driven wheels 14 are rotatably connected inside the small flange bearings 11 on two sides, the driven wheels 14 are connected with inner rings of the small flange bearings 11, the driven wheels 14 can well rotate by taking the small flange bearings as fulcrums, driven wheels three 21 are rotatably connected inside the small flange bearings 11 in the middle position, the driven wheels three 21 are connected with the inner rings of the small flange bearings 11, the driven wheels three 21 can well rotate by taking the small flange bearings as the fulcrums, and driven wheels one 17 are arranged at the bottoms of the driven wheels three 21; the driven wheel III 21 is connected with the driven wheel I17 in a welding mode, the driven wheel I17 is driven to rotate by the rotation of the driven wheel III 21, and otherwise, the driven wheel III is driven to rotate by the rotation of the driven wheel I; a first rotating synchronous belt 22 is arranged outside the second driving wheel 16, the other end of the first rotating synchronous belt 22 is sleeved outside the first driven wheel 17, the second driving wheel 16 drives the first rotating synchronous belt 22 to rotate, the first rotating synchronous belt drives the first driven wheel to rotate, and the third driven wheel is driven to rotate by the first driven wheel; a tension seat 12 is arranged at the bottom of the sliding panel 2, a tension wheel 13 is rotatably connected inside the tension seat 12, and the tension seat and the tension wheel play a role in tension, which is not described in detail in the prior art; a second rotating synchronous belt 18 is wound outside the second driven wheel 14, the third driven wheel 21 and the tension wheel 13, the second rotating synchronous belt 18 rotates when the second driven wheel 14 rotates, the second rotating synchronous belt 18 drives the third driven wheel 21 and the tension wheel 13 to rotate, so that the second driven wheel is driven by the second driving wheel to rotate, the second driven wheel drives the second rotating synchronous belt to rotate, the third driven wheel drives the second driven wheel to rotate, the second rotating synchronous belt drives the second driven wheel to rotate, a tray is arranged at the top of the small flange bearing, the size of the tray can be set according to a made cake and can be 8 inches, 10 inches, 16 inches and the like, and the size of the tray is preferably 8 inches and 10 inches in the application document; the bottom of the sliding panel 2 is provided with a fixed seat 19, the bottom of the fixed seat 19 is provided with a deep groove ball bearing 20, the deep groove ball bearing 20 is positioned on one side of the second rotating synchronous belt 18, and the effect of the deep groove ball bearing 20 is similar to that of the tension pulley.

Example 3

In this embodiment, embodiment 1 is further limited, in this embodiment, a box 24 is disposed at the bottom of the plate cover 1, universal wheels 25 are disposed on the outer wall of the bottom of the box 24, the number of the universal wheels 25 is four, the four universal wheels are respectively located at four corners of the outer wall of the bottom of the box 24, hood plates 26 are disposed at two sides of the top of the plate cover 1, the number of the hood plates 26 is two, the two hood plates 26 are disposed in parallel, a hood 27 is disposed at the top of the hood plate 26, a switch 28 and a display screen 29 are disposed on the outer wall of one side of the hood 27, and the display screen 29 is located at one side of the switch 28; the cutting mechanism is located inside the hood 27 and comprises a vibration motor 30, one end of an output shaft of the vibration motor 30 is provided with a swing rod 31, one end of the swing rod 31 is rotatably connected with a swing arm 33, the bottom of the swing arm 33 is provided with a cutter 34, the swing arm 33 is movably connected with the bottom of the hood 27, the number of the swing arms 33 is two, the two swing arms 33 penetrate through the bottom of the hood 27 and extend to the upper part of the sliding assembly, the top of one swing arm 33 is provided with a synchronous rod 32, and the other end of the synchronous rod 32 is connected with the other swing arm 33, so that the vibration motor 30 vibrates to drive one swing arm 33 to swing left and right, the cutter 34 is driven to swing to cut cakes while swinging, meanwhile, the top of the swing arm 33 is provided with the synchronous rod 32, when one swing arm 33 moves, the other swing arm 33 can be driven to move through the synchronous rod 32, the bottoms of the two swing arms 33 are provided with the same cutter 34, and the prior art is not repeated; it should be noted that the rotational connection mode is pin rotational connection or bearing rotational connection, and it is preferable that the pin rotational connection is adopted in this application document, and the description of the prior art is omitted; sliding tray 35 has been seted up to one side outer wall of hood plate 26, sliding tray 35's inside sliding connection has sliding block 37, cutter 34 is connected with sliding block 37, the one end of slider is provided with the spring, one side butt of spring 36 and aircraft bonnet 27, through slider and the spring that sets up, can finely tune the position of cutter, utilize the removal of slider in the spout to do benefit to the correction to the cutter simultaneously

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (10)

1. The cake cutting machine is characterized by comprising a plate cover (1), wherein the top of the plate cover (1) is provided with a synchronous sliding mechanism and a cutting mechanism, the top of the synchronous sliding mechanism is provided with a sliding assembly, and the cutting mechanism is positioned above the sliding assembly;

the top of the plate cover (1) is provided with two sliding blocks (10), sliding rails (9) are arranged inside the two sliding blocks (10), and the sliding rails (9) are fixed with the bottom of the sliding assembly;

one side of the plate cover (1) is provided with a first driving assembly, and the first driving assembly drives the synchronous sliding mechanism to drive the sliding assembly to move left and right by taking the sliding rail (9) and the sliding block (10) as fulcrums.

2. The cake cutting machine according to claim 1, wherein the synchronous sliding mechanism comprises a first driving wheel (6) and a second sliding wheel (23), a sliding synchronous belt (7) is rotatably connected between the first driving wheel (6) and the second sliding wheel (23), and the sliding synchronous belt (7) is fixedly connected with a sliding connecting plate (8).

3. The cake cutting machine according to claim 2, wherein the first driving assembly comprises a right-angle speed reducer (5), the right-angle speed reducer (5) is arranged on the outer wall of one side of the plate cover (1), a first motor (4) is arranged at the input end of the right-angle speed reducer (5), and a first driving wheel (6) is connected with the output end of the right-angle speed reducer (5).

4. A cake cutting machine according to claim 1, wherein said gliding assembly comprises a gliding panel (2), the bottom of said gliding panel (2) being fixed with a gliding connection plate (8).

5. The cake cutting machine according to claim 4, wherein a second driving assembly is further arranged at the top of the sliding panel (2), the second driving assembly comprises a second motor (15), and a second driving wheel (16) is arranged at one end of an output shaft of the second motor (15).

6. A cake cutting machine according to claim 4, wherein the bottom of the sliding panel is provided with three small flange bearings (11) side by side, the small flange bearings (11) at two sides are rotatably connected with a second driven wheel (14), the small flange bearing (11) at the middle position is rotatably connected with a third driven wheel (21), and the bottom of the third driven wheel (21) is provided with a first driven wheel (17).

7. The cake cutting machine according to claim 5, wherein a first rotating synchronous belt (22) is arranged outside the second driving wheel (16), and the other end of the first rotating synchronous belt (22) is sleeved outside the first driven wheel (17).

8. A cake cutting machine according to claim 4, wherein a tension seat (12) is arranged at the bottom of the sliding panel (2), and a tension wheel (13) is rotatably connected inside the tension seat (12).

9. A cake cutting machine according to claim 6, wherein a second rotating synchronous belt (18) is wound outside the second driven wheel (14), the third driven wheel (21) and the tension wheel (13).

10. A cake cutting machine according to claim 4, wherein a fixed seat (19) is arranged at the bottom of the sliding panel (2), a deep groove ball bearing (20) is arranged at the bottom of the fixed seat (19), and the deep groove ball bearing (20) is positioned at one side of the second rotating synchronous belt (18).

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