CN114102686B - Sweet potato sugar cutting equipment of high efficiency production - Google Patents

Abstract

The invention relates to the technical field of sweet potato sugar, in particular to sweet potato sugar cutting equipment for high-efficiency production, which comprises a frame, a cutting assembly and a rotating assembly; the machine frame comprises a bottom supporting plate and a longitudinal bracket, the longitudinal bracket is arranged above the bottom supporting plate, the rotating assembly is arranged on the bottom supporting plate, the cutting assembly is arranged on the longitudinal bracket, and the cutting assembly is arranged right above the rotating assembly; the longitudinal support is also provided with a Y axial moving mechanism, the Y axial moving mechanism is connected with an X axial moving mechanism in a sliding way, and the cutting assembly is arranged on the longitudinal support through the X axial moving mechanism; the rotating assembly comprises a fixed support, a rotating mechanism and a cutting table, the cutting table is arranged on the rotating mechanism, the rotating mechanism is arranged on the bottom supporting plate, the cutting table is arranged below the cutting assembly and used for solving the problems that the traditional rectangular briquettes are cut into pieces to be completed manually, the potato candy needs to be manually rotated during each cutting, the operation is troublesome, automatic cutting cannot be realized, and the efficiency is low.

Description

Sweet potato sugar cutting equipment of high efficiency production

Technical Field

The invention relates to the technical field of shredded sweet potato sugar, in particular to shredded sweet potato sugar cutting equipment capable of efficiently producing.

Background

The sweet potato candy is a traditional Chinese snack in Zunyi city, is a special product produced in Guizhou Zunyi in the red revolution, is crisp and delicious, and is very popular with people. The common sweet potato slice sugar is divided into two types: one is made of fresh flower sweet potato (namely sweet potato), called fresh sweet potato slice candy; one is added with glutinous rice, and is called glutinous rice sweet potato candy, and the other is called bubble candy.

The sweet potato slice sugar is prepared by selecting fresh sweet potato, selecting high-quality glutinous rice, cleaning fresh sweet potato, peeling, cutting into blocks, cleaning glutinous rice, soaking in cold water, and grinding in a powdering machine; and steaming the diced sweet potatoes in a rice steaming machine to obtain a mixture of the sweet potatoes and water, taking out the steamed mixture of the sweet potatoes and water, immediately putting the steamed mixture of the sweet potatoes and the water together with the glutinous rice flour into a stirrer for stirring and mixing uniformly, putting the mixture after adding clear water into the rice steaming machine for steaming, putting the steamed mixture into the stirrer for stirring and foaming until the mixture is fully mixed, immediately taking out the stirred and foamed mixture, putting the stirred and foamed mixture into a box frame made of fir, putting the box frame for flattening, cooling and condensing, cutting the box frame into rectangular billets by a cutter, and shredding the rectangular billets. However, the traditional cutting into rectangular briquettes is completed manually, namely, the sweet potato sugar needs to be cut into strips each time, and then the strips of sweet potato sugar are cut into blocks, so that the sweet potato sugar needs to be manually rotated each time when being cut, the operation is troublesome, automatic cutting cannot be realized, and the efficiency is low.

Disclosure of Invention

The invention provides a sweet potato slice sugar cutting device with high efficiency production aiming at the problems existing in the prior art.

The basic scheme of the invention is as follows: a sweet potato slice sugar cutting device with high efficiency comprises a frame, a cutting assembly and a rotating assembly;

the machine frame comprises a bottom supporting plate and a longitudinal support, the longitudinal support is fixedly arranged above the bottom supporting plate, the rotating assembly is also arranged on the bottom supporting plate, the cutting assembly is arranged on the longitudinal support, and the cutting assembly is arranged right above the rotating assembly;

the longitudinal support is also provided with a Y axial moving mechanism, the Y axial moving mechanism is connected with an X axial moving mechanism in a sliding way, and the cutting assembly is arranged on the longitudinal support through the X axial moving mechanism;

the rotary assembly comprises a fixed support, a rotary mechanism and a cutting table, wherein the cutting table is arranged on the rotary mechanism through the fixed support, the rotary mechanism is arranged on a bottom supporting plate, and the cutting table is arranged below the cutting assembly.

Further, the cutting assembly comprises a mounting head, a controller, a Z-axis moving mechanism, a first cutting mechanism and a second cutting mechanism;

the controller is arranged in the mounting head and used for controlling the movement of the first cutting mechanism and the second cutting mechanism;

the left side of the mounting head is in sliding connection with the X-axis moving mechanism, the first cutting mechanism and the second cutting mechanism are respectively arranged on the right side of the mounting head through a Z-axis moving mechanism, and the first cutting mechanism and the second cutting mechanism are arranged in parallel;

the Z-axis moving mechanism comprises a Z-axis driving motor, a sliding sleeve and a screw rod, the sliding sleeve is fixedly connected with the mounting head, a through hole is formed in the sliding sleeve, an internal thread is arranged in the through hole of the sliding sleeve, the external thread of the screw rod is matched with the internal thread in the sliding sleeve, and the Z-axis driving motor drives the screw rod to rotate;

the first cutting mechanism is used for carrying out first-step cutting and scribing on the sweet potato slices, and the second cutting mechanism is used for thoroughly cutting the sweet potato slices.

Further, the first cutting mechanism comprises a first connector and a first cutting knife, the first connector is arranged at the bottom of any screw rod, the first connector is provided with a threaded hole, and the upper end of the first cutting knife is in threaded connection with the first connector.

Further, the second cutting mechanism comprises a second connector, an adjusting sleeve, a fixing knob, a hinge joint, a hinged support and a second cutting knife, wherein the second connector is arranged at the bottom of the other screw rod, the second connector is fixedly connected with the hinged support, the adjusting sleeve is hinged with the hinged support through the hinge joint, the upper end of the second cutting knife penetrates through the adjusting sleeve, and the fixing knob is used for fixing the position of the second cutting knife in the adjusting sleeve;

and the cutter head of the second cutter is smaller than the cutter head of the first cutter.

Further, the rotating mechanism comprises a rotating table, a rotating shaft, a rotating driving wheel, a rotating installation base, a rotating driving belt, a rotating driving wheel and a rotating driving motor;

the rotary motor and the rotary table are both arranged on the fixed support, the bottom of the rotary driving motor is in transmission connection with a rotary driving wheel, the rotary driving wheel is in transmission connection with a rotary driving wheel through a rotary driving belt, the rotary driving wheel is fixedly arranged on a rotary shaft, the top of the rotary shaft is fixedly connected with the rotary table, the bottom of the rotary table is connected with a rotary mounting base through a bearing, and the rotary mounting base is mounted on a bottom supporting plate.

Further, the rotating assembly further comprises a turnover mechanism; the fixed support comprises a first support and a second support, the first support is arranged on the bottom supporting plate in parallel, and the rotating mechanism is connected with the first support;

the two second brackets are arranged, the second brackets are vertically arranged with the first brackets, the bottoms of the two second brackets are respectively arranged at the two ends of the first brackets, and the two sides of the cutting table are respectively hinged with the tops of the two second brackets through a supporting rod; and any one of the supporting rods is also connected with the turnover mechanism.

Further, the turnover mechanism comprises a turnover driving motor, a turnover driving wheel, a turnover driving belt and a turnover driving wheel; the turnover driving motor is arranged on the first bracket and connected with the turnover driving wheel, the turnover driving wheel is fixedly connected with the supporting rod, and the turnover driving wheel is in transmission connection with the turnover driving wheel through a turnover driving belt;

further, the cutting table is a columniform holding table, just the holding table includes integrated into one piece's holding portion and cooling part, the top is located to the holding portion, the below is located to the cooling part, the holding portion is opened there is the storage tank for hold the sweet potato silk sugar of waiting to cut, the inside hollow cavity that is of cooling part, the cooling part outside is equipped with the inlet opening, adds cooling medium through the inlet opening to the cavity.

Further, the Y-axis moving mechanism comprises two Y-axis brackets, Y-axis sliding rails, a Y-axis sliding block and a Y-axis driving motor, wherein the two Y-axis brackets are arranged above the longitudinal brackets in parallel, each Y-axis bracket is provided with one Y-axis sliding rail, two ends of the Y-axis sliding block are in sliding connection with the Y-axis sliding rail, and the Y-axis driving motor drives the Y-axis sliding block to slide; the left end of the X-axis moving mechanism is fixedly connected with the Y-axis sliding block.

Further, the X axial moving mechanism comprises an X axial sliding support, an X axial screw rod, an X axial sliding block and an X axial driving motor, wherein a groove is formed in the X axial sliding support, the X axial screw rod is arranged in the X axial sliding support, one end of the X axial screw rod is electrically connected with the X axial driving motor, the X axial sliding block is in threaded connection with the X axial screw rod, and the X axial sliding block is fixedly connected with the mounting head.

The working principle and the advantages of the invention are as follows:

(1) Compared with the existing cutting equipment, the sweet potato sugar is required to be cut into strips at each time, then the strips of sweet potato sugar are cut into blocks, and the strips of sweet potato sugar are required to be manually rotated during cutting, the rotating mechanism is arranged, when the strips of sweet potato sugar are cut, the rotating assembly is driven to rotate, the blocks of sweet potato sugar can be continuously cut, manual rotation is not required, and the working efficiency is improved;

(2) When cutting, the whole sweet potato slices can be completely cut by the cutting mechanism under the synergistic effect of the Y axial moving mechanism and the X axial moving mechanism, and a plurality of devices are not required to work;

(3) The vertical distance of the cutting mechanism can be adjusted through the Z-axis moving mechanism, and the cutting thickness of the sweet potato slices is adjusted according to the cutting thickness of the sweet potato slices;

(4) The first cutting mechanism and the second cutting mechanism are arranged, the cutter head of the second cutting knife is smaller than that of the first cutting knife, the first cutting knife firstly performs scribing cutting on the surface of the sweet potato candy, then the second cutting knife completes thorough cutting, the sweet potato candy which is completely cut is prevented from being broken, the first cutting mechanism and the second cutting mechanism are arranged in parallel, the first cutting mechanism and the second cutting mechanism can work simultaneously, and when the first cutting knife completes the first scribing cutting, the second cutting mechanism completely cuts the first scribing in the process of moving to the second scribing cutting, so that the working efficiency is improved;

(5) The turnover mechanism is arranged, when the cutting work of the sweet potato slices is finished, the cut sweet potato slices can be poured out only by driving the turnover mechanism to turn over, and the manual pouring is not needed, so that the working efficiency is improved;

(6) The cutting table is a cylindrical containing table, and the containing table comprises an integrally formed containing part and a cooling part, friction is generated in the cutting process, friction heating is generated, partial sugar can be melted, the sweet potato sugar is adhered to the cutting table, the cooling part is arranged, cooling water is introduced into the cooling part, and the melted sugar can be rapidly cooled, so that the sweet potato sugar is prevented from being adhered to the cutting table.

Drawings

Fig. 1 is a schematic structural view (view angle one) of a sweet potato slice sugar cutting device with high efficiency production;

fig. 2 is a schematic structural view (view angle one) of a sweet potato slice sugar cutting device with high efficiency production;

fig. 3 is a schematic structural view of an X-axis moving mechanism of the sweet potato slice sugar cutting device with high efficiency production;

fig. 4 is a schematic structural view of a cutting assembly of the sweet potato slice sugar cutting device with high efficiency production;

fig. 5 is a schematic structural view of a rotating assembly of the sweet potato slice sugar cutting device with high efficiency production;

fig. 6 is a schematic diagram of a Y-axis moving mechanism of the sweet potato slice sugar cutting device with high efficiency production;

fig. 7 is a schematic structural view of a rotating mechanism of the sweet potato sugar cutting device with high efficiency production;

fig. 8 is a schematic structural view of a turnover mechanism of the sweet potato sugar cutting device with high efficiency production.

Reference numerals referred to in the drawings are:

a frame 1, a bottom support plate 101, and a longitudinal support 102;

a Y-axis moving mechanism 2, a Y-axis bracket 201, a Y-axis slide rail 202, a Y-axis slide block 203 and a Y-axis driving motor 204;

an X-axis moving mechanism 3, an X-axis sliding support 301, an X-axis screw 302, an X-axis sliding block 303 and an X-axis driving motor 304;

the cutting assembly 4, the mounting head 401, the Z-axis moving mechanism 402, the Z-axis driving motor 4021, the sliding sleeve 4022, the screw 4023, the first cutting mechanism 403, the first connecting head 4031, the first cutting knife 4032, the second cutting machine 404, the second connecting head 4041, the articulated head 4042, the articulated support 4043, the adjusting sleeve 4044, the fixed knob 4045 and the second cutting knife 4046;

a fixed bracket 5, a first bracket 501, a second bracket 502;

the rotary mechanism 6, the rotary table 601, the rotary shaft 602, the rotary driving wheel 603, the rotary driving belt 604, the rotary mounting base 605, the rotary driving motor 606 and the rotary driving wheel 607; cutting table 7, accommodation part 701, cooling part 702, and water inlet 703;

the turnover mechanism 8, the support rod 801, the turnover driving motor 802, the turnover driving wheel 803, the turnover driving belt 804 and the turnover driving wheel 805.

Detailed Description

The following is a further detailed description of the embodiments:

embodiment one:

as shown in fig. 1 to 8, the sweet potato slice sugar cutting equipment with high efficiency production comprises a frame 1, a cutting assembly 4 and a rotating assembly; the machine frame 1 comprises a bottom supporting plate 101 and a longitudinal bracket 102, wherein the longitudinal bracket 102 is fixedly arranged above the bottom supporting plate 101, a rotating assembly is also arranged on the bottom supporting plate 101, a cutting assembly 4 is arranged on the longitudinal bracket 102, and the cutting assembly 4 is arranged right above the rotating assembly;

the vertical support 102 is further provided with a Y axial moving mechanism 2, the Y axial moving mechanism 2 is connected with an X axial moving mechanism 3 in a sliding manner, the cutting assembly 4 is arranged on the vertical support 102 through the X axial moving mechanism 3, the rotating assembly comprises a fixed support 5, a rotating mechanism 6 and a cutting table 7, the cutting table 7 is arranged on the rotating mechanism 6 through the fixed support 5, the rotating mechanism 6 is arranged on the bottom supporting plate 101, and the cutting table 7 is arranged below the cutting assembly 4.

The cutting assembly 4 comprises a mounting head 401, a controller, a Z-axis moving mechanism 402, a first cutting mechanism 403 and a second cutting mechanism 404;

the controller is arranged in the mounting head 401 and used for controlling the movement of the first cutting mechanism 403 and the second cutting mechanism 404;

the left side of the mounting head 401 is in sliding connection with the X-axis moving mechanism 3, the first cutting mechanism 403 and the second cutting mechanism 404 are respectively arranged on the right side of the mounting head 401 through a Z-axis moving mechanism 402, and the first cutting mechanism 403 and the second cutting mechanism 404 are arranged in parallel;

the Z-axis moving mechanism 402 includes a Z-axis driving motor 4021, a sliding sleeve 4022 and a screw rod 4023, the sliding sleeve is fixedly connected with the mounting head 401, the sliding sleeve 4022 is provided with a through hole, the through hole of the sliding sleeve 4022 is provided with an internal thread, the external thread of the screw rod 4023 is matched with the internal thread in the sliding sleeve 4022, and the Z-axis driving motor 4021 drives the screw rod 4023 to rotate;

the first cutting mechanism 403 cuts and lines the shredded sweet potato in the first step, and the second cutting mechanism 404 cuts the shredded sweet potato thoroughly.

The Y-axis moving mechanism 2 comprises two Y-axis brackets 201, Y-axis sliding rails 202, Y-axis sliding blocks 203 and a Y-axis driving motor 204, wherein the two Y-axis brackets 201 are arranged above the longitudinal brackets 102 in parallel, each Y-axis bracket 201 is provided with one Y-axis sliding rail 202, two ends of each Y-axis sliding block 203 are in sliding connection with the Y-axis sliding rail 202, and the Y-axis driving motor 204 drives the Y-axis sliding blocks 203 to slide; the left end of the X-axis moving mechanism 3 is fixedly connected with the Y-axis sliding block 203.

The X-axis moving mechanism 3 comprises an X-axis sliding support 301, an X-axis screw 4023302, an X-axis sliding block 303 and an X-axis driving motor 304, a groove is formed in the X-axis sliding support 301, the X-axis screw 4023302 is arranged in the X-axis sliding support 301, one end of the X-axis screw 4023302 is electrically connected with the X-axis driving motor, the X-axis sliding block 303 is in threaded connection with the X-axis screw 4023302, and the X-axis sliding block 303 is fixedly connected with the mounting head 401.

The first cutting mechanism 403 includes a first connector 4031 and a first cutting knife 4032, the first connector 4031 is mounted at the bottom of any screw 4023, the first connector 4031 is provided with a threaded hole, and the upper end of the first cutting knife 4032 is in threaded connection with the first connector 4031.

The second cutting mechanism 404 comprises a second connector 4041, an adjusting sleeve 4044, a fixing knob 4045, a hinge head 4042, a hinged support 4043 and a second cutting knife 4046, wherein the second connector 4041 is arranged at the bottom of the other screw 4023, the second connector 4041 is fixedly connected with the hinged support 4043, the adjusting sleeve 4044 is hinged with the hinged support 4043 through the hinge head 4042, the upper end of the second cutting knife 4046 passes through the adjusting sleeve 4044, and the fixing knob 4045 is used for fixing the position of the second cutting knife 4046 in the adjusting sleeve 4044;

and the cutting head of the second cutting blade 4046 is smaller than the cutting head of the first cutting blade 4032.

The rotating mechanism 6 comprises a rotating table 601, a rotating shaft 602, a rotating transmission wheel 603, a rotating installation base 605, a rotating transmission belt 604, a rotating driving wheel 607 and a rotating driving motor 606;

the rotating motor and the rotating table 601 are both arranged on the fixed support 5, the bottom of the rotating driving motor 606 is in transmission connection with the rotating driving wheel 607, the rotating driving wheel 607 is in transmission connection with the rotating driving wheel 603 through the rotating transmission belt 604, the rotating driving wheel 603 is fixedly arranged on the rotating shaft 602, the top of the rotating shaft 602 is fixedly connected with the rotating table 601, the bottom of the rotating table 601 is connected with the rotating installation base 605 through a bearing, and the rotating installation base 605 is installed on the bottom supporting plate 101.

Embodiment two:

as shown in figures 1-8, the sweet potato slice sugar cutting equipment for high-efficiency production comprises a frame 1, a cutting assembly 4 and a rotating assembly; the machine frame 1 comprises a bottom supporting plate 101 and a longitudinal bracket 102, wherein the longitudinal bracket 102 is fixedly arranged above the bottom supporting plate 101, a rotating assembly is also arranged on the bottom supporting plate 101, a cutting assembly 4 is arranged on the longitudinal bracket 102, and the cutting assembly 4 is arranged right above the rotating assembly;

the longitudinal support 102 is also provided with a Y axial moving mechanism 2, the Y axial moving mechanism 2 is connected with an X axial moving mechanism 3 in a sliding way, and the cutting assembly 4 is arranged on the longitudinal support 102 through the X axial moving mechanism 3; the rotating assembly comprises a fixed support 5, a rotating mechanism 6 and a cutting table 7, wherein the cutting table 7 is arranged on the rotating mechanism 6 through the fixed support 5, the rotating mechanism 6 is arranged on a bottom supporting plate 101, and the cutting table 7 is arranged below the cutting assembly 4.

The cutting assembly 4 comprises a mounting head 401, a controller, a Z-axis moving mechanism 402, a first cutting mechanism 403 and a second cutting mechanism 404;

the controller is arranged in the mounting head 401 and used for controlling the movement of the first cutting mechanism 403 and the second cutting mechanism 404;

the left side of the mounting head 401 is in sliding connection with the X-axis moving mechanism 3, the first cutting mechanism 403 and the second cutting mechanism 404 are respectively arranged on the right side of the mounting head 401 through a Z-axis moving mechanism 402, and the first cutting mechanism 403 and the second cutting mechanism 404 are arranged in parallel;

the Z-axis moving mechanism 402 includes a Z-axis driving motor 4021, a sliding sleeve 4022 and a screw rod 4023, the sliding sleeve is fixedly connected with the mounting head 401, the sliding sleeve 4022 is provided with a through hole, the through hole of the sliding sleeve 4022 is provided with an internal thread, the external thread of the screw rod 4023 is matched with the internal thread in the sliding sleeve 4022, and the Z-axis driving motor 4021 drives the screw rod 4023 to rotate;

the first cutting mechanism 403 cuts and lines the shredded sweet potato in the first step, and the second cutting mechanism 404 cuts the shredded sweet potato thoroughly.

The Y-axis moving mechanism 2 comprises two Y-axis brackets 201, Y-axis sliding rails 202, Y-axis sliding blocks 203 and a Y-axis driving motor 204, wherein the two Y-axis brackets 201 are arranged above the longitudinal brackets 102 in parallel, each Y-axis bracket 201 is provided with one Y-axis sliding rail 202, two ends of each Y-axis sliding block 203 are in sliding connection with the Y-axis sliding rail 202, and the Y-axis driving motor 204 drives the Y-axis sliding blocks 203 to slide; the left end of the X-axis moving mechanism 3 is fixedly connected with the Y-axis sliding block 203.

The X-axis moving mechanism 3 comprises an X-axis sliding support 301, an X-axis screw 4023302, an X-axis sliding block 303 and an X-axis driving motor 304, a groove is formed in the X-axis sliding support 301, the X-axis screw 4023302 is arranged in the X-axis sliding support 301, one end of the X-axis screw 4023302 is electrically connected with the X-axis driving motor, the X-axis sliding block 303 is in threaded connection with the X-axis screw 4023302, and the X-axis sliding block 303 is fixedly connected with the mounting head 401.

The first cutting mechanism 403 includes a first connector 4031 and a first cutting knife 4032, the first connector 4031 is mounted at the bottom of any screw 4023, the first connector 4031 is provided with a threaded hole, and the upper end of the first cutting knife 4032 is in threaded connection with the first connector 4031.

The second cutting mechanism 404 comprises a second connector 4041, an adjusting sleeve 4044, a fixing knob 4045, a hinge head 4042, a hinged support 4043 and a second cutting knife 4046, wherein the second connector 4041 is arranged at the bottom of the other screw 4023, the second connector 4041 is fixedly connected with the hinged support 4043, the adjusting sleeve 4044 is hinged with the hinged support 4043 through the hinge head 4042, the upper end of the second cutting knife 4046 passes through the adjusting sleeve 4044, and the fixing knob 4045 is used for fixing the position of the second cutting knife 4046 in the adjusting sleeve 4044;

and the cutting head of the second cutting blade 4046 is smaller than the cutting head of the first cutting blade 4032.

The rotating mechanism 6 comprises a rotating table 601, a rotating shaft 602, a rotating transmission wheel 603, a rotating installation base 605, a rotating transmission belt 604, a rotating driving wheel 607 and a rotating driving motor 606;

the rotating motor and the rotating table 601 are both arranged on the fixed support 5, the bottom of the rotating driving motor 606 is in transmission connection with the rotating driving wheel 607, the rotating driving wheel 607 is in transmission connection with the rotating driving wheel 603 through the rotating transmission belt 604, the rotating driving wheel 603 is fixedly arranged on the rotating shaft 602, the top of the rotating shaft 602 is fixedly connected with the rotating table 601, the bottom of the rotating table 601 is connected with the rotating installation base 605 through a bearing, and the rotating installation base 605 is installed on the bottom supporting plate 101.

The rotating assembly also comprises a turnover mechanism 8; the fixed bracket 5 comprises a first bracket 501 and a second bracket 502, the first bracket 501 is arranged on the bottom supporting plate 101 in parallel, and the rotating mechanism 6 is connected with the first bracket 501;

the two second brackets 502 are arranged, the second brackets 502 are vertically arranged with the first brackets 501, the bottoms of the two second brackets 502 are respectively arranged at the two ends of the first brackets 501, and the two sides of the cutting table 7 are respectively hinged with the tops of the two second brackets 502 through a supporting rod 801; and any of the struts 801 is also connected to the turnover mechanism 8.

The turnover mechanism 8 comprises a turnover driving motor 802, a turnover driving wheel 803, a turnover driving belt 804 and a turnover driving wheel 805; the turnover driving motor 802 is arranged on the first bracket 501, the turnover driving motor 802 is connected with the turnover driving wheel 803, the turnover driving wheel 805 is fixedly connected with the support rod 801, and the turnover driving wheel 803 and the turnover driving wheel 805 are in transmission connection through a turnover driving belt 804;

the cutting table 7 is a cylindrical accommodating table, and the accommodating table comprises an accommodating part 701 and a cooling part 702 which are integrally formed, the accommodating part 701 is arranged above, the cooling part 702 is arranged below, the accommodating part 701 is provided with an accommodating groove for accommodating the sweet potato candy to be cut, the cooling part 702 is internally provided with a hollow cavity, the outside of the cooling part 702 is provided with a water inlet 703, and a cooling medium is added into the cavity through the water inlet 703.

The foregoing is merely an embodiment of the present invention, and a specific structure and characteristics of common knowledge in the art, which are well known in the scheme, are not described herein, so that a person of ordinary skill in the art knows all the prior art in the application day or before the priority date of the present invention, and can know all the prior art in the field, and have the capability of applying the conventional experimental means before the date, so that a person of ordinary skill in the art can complete and implement the present embodiment in combination with his own capability in the light of the present application, and some typical known structures or known methods should not be an obstacle for a person of ordinary skill in the art to implement the present application. It should be noted that modifications and improvements can be made by those skilled in the art without departing from the structure of the present invention, and these should also be considered as the scope of the present invention, which does not affect the effect of the implementation of the present invention and the utility of the patent.

Claims (7)

1. A sweet potato sugar cutting equipment of high efficiency production, its characterized in that: comprises a frame, a cutting assembly and a rotating assembly; the machine frame comprises a bottom supporting plate and a longitudinal support, the longitudinal support is fixedly arranged above the bottom supporting plate, the rotating assembly is also arranged on the bottom supporting plate, the cutting assembly is arranged on the longitudinal support, and the cutting assembly is arranged right above the rotating assembly; the longitudinal support is also provided with a Y axial moving mechanism, the Y axial moving mechanism is connected with an X axial moving mechanism in a sliding way, and the cutting assembly is arranged on the longitudinal support through the X axial moving mechanism; the rotary assembly comprises a fixed bracket, a rotary mechanism and a cutting table, the cutting table is arranged on the rotary mechanism through the fixed bracket, the rotary mechanism is arranged on the bottom supporting plate, and the cutting table is arranged below the cutting assembly;

the cutting assembly comprises a mounting head, a controller, a Z-axis moving mechanism, a first cutting mechanism and a second cutting mechanism; the controller is arranged in the mounting head and used for controlling the movement of the first cutting mechanism and the second cutting mechanism; the left side of the mounting head is in sliding connection with the X-axis moving mechanism, the first cutting mechanism and the second cutting mechanism are respectively arranged on the right side of the mounting head through a Z-axis moving mechanism, and the first cutting mechanism and the second cutting mechanism are arranged in parallel; the Z-axis moving mechanism comprises a Z-axis driving motor, a sliding sleeve and a screw rod, the sliding sleeve is fixedly connected with the mounting head, a through hole is formed in the sliding sleeve, an internal thread is arranged in the through hole of the sliding sleeve, the external thread of the screw rod is matched with the internal thread in the sliding sleeve, and the Z-axis driving motor drives the screw rod to rotate; the first cutting mechanism is used for carrying out first-step cutting and scribing on the sweet potato slices, and the second cutting mechanism is used for thoroughly cutting the sweet potato slices;

the first cutting mechanism comprises a first connector and a first cutting knife, the first connector is arranged at the bottom of any screw rod, the first connector is provided with a threaded hole, and the upper end of the first cutting knife is in threaded connection with the first connector;

the second cutting mechanism comprises a second connector, an adjusting sleeve, a fixing knob, a hinge joint, a hinged support and a second cutting knife, wherein the second connector is arranged at the bottom of the other screw rod, the second connector is fixedly connected with the hinged support, the adjusting sleeve is hinged with the hinged support through the hinge joint, the upper end of the second cutting knife passes through the adjusting sleeve, and the fixing knob is used for fixing the position of the second cutting knife in the adjusting sleeve; and the cutter head of the second cutter is smaller than the cutter head of the first cutter.

2. The sweet potato slice sugar cutting device with high efficiency production according to claim 1, which is characterized in that: the rotating mechanism comprises a rotating table, a rotating shaft, a rotating transmission wheel, a rotating installation base, a rotating transmission belt, a rotating driving wheel and a rotating driving motor; the rotary drive motor and the rotary table are both arranged on the fixed support, the bottom of the rotary drive motor is in transmission connection with a rotary driving wheel, the rotary driving wheel is in transmission connection with a rotary driving wheel through a rotary driving belt, the rotary driving wheel is fixedly arranged on a rotary shaft, the top of the rotary shaft is fixedly connected with the rotary table, the bottom of the rotary table is connected with a rotary mounting base through a bearing, and the rotary mounting base is mounted on a bottom supporting plate.

3. The sweet potato slice sugar cutting device with high efficiency production according to claim 2, which is characterized in that: the rotating assembly further comprises a turnover mechanism; the fixed support comprises a first support and a second support, the first support is arranged on the bottom supporting plate in parallel, and the rotating mechanism is connected with the first support; the two second brackets are arranged, the second brackets are vertically arranged with the first brackets, the bottoms of the two second brackets are respectively arranged at the two ends of the first brackets, and the two sides of the cutting table are respectively hinged with the tops of the two second brackets through a supporting rod; and any one of the supporting rods is also connected with the turnover mechanism.

4. The sweet potato slice sugar cutting device with high efficiency production according to claim 3, which is characterized in that: the turnover mechanism comprises a turnover driving motor, a turnover driving wheel, a turnover driving belt and a turnover driving wheel; the turnover driving motor is arranged on the first bracket and connected with the turnover driving wheel, the turnover driving wheel is fixedly connected with the supporting rod, and the turnover driving wheel is in transmission connection with the turnover driving wheel through a turnover driving belt.

5. The sweet potato slice sugar cutting equipment with high efficiency production according to claim 4 is characterized in that: the cutting table is a cylindrical containing table, the containing table comprises an integrally formed containing part and a cooling part, the containing part is arranged above the cutting table, the cooling part is arranged below the cutting table, a containing groove is formed in the containing part and used for containing sweet potato candy to be cut, a hollow cavity is formed in the cooling part, a water inlet hole is formed in the outer portion of the cooling part, and cooling medium is added into the cavity through the water inlet hole.

6. The sweet potato slice sugar cutting device with high efficiency production according to claim 5, which is characterized in that: the Y-axis moving mechanism comprises two Y-axis brackets, Y-axis sliding rails, a Y-axis sliding block and a Y-axis driving motor, wherein the two Y-axis brackets are arranged above the longitudinal brackets in parallel, each Y-axis bracket is provided with one Y-axis sliding rail, two ends of the Y-axis sliding block are in sliding connection with the Y-axis sliding rails, and the Y-axis driving motor drives the Y-axis sliding block to slide; the left end of the X-axis moving mechanism is fixedly connected with the Y-axis sliding block.

7. The sweet potato slice sugar cutting device with high efficiency production according to claim 6, which is characterized in that: the X axial moving mechanism comprises an X axial sliding support, an X axial screw rod, an X axial sliding block and an X axial driving motor, wherein a groove is formed in the X axial sliding support, the X axial screw rod is arranged in the X axial sliding support, one end of the X axial screw rod is electrically connected with the X axial driving motor, the X axial sliding block is in threaded connection with the X axial screw rod, and the X axial sliding block is fixedly connected with the mounting head.