阅读说明：本技术 一种基于刨花板加工用转运系统 (Transportation system for shaving board processing ) 是由 符连其 王金龙 于文吉 张雅慧 李长贵 何明明 祝荣先 于 2021-08-05 设计创作，主要内容包括：本发明提供一种基于刨花板加工用转运系统。所述基于刨花板加工用转运系统包括：物料输出组件,物料输出组件包括支撑架和输送滚轴,用于对压制成型后的刨花板进行物料的输出；转运组件,转运组件设置于物料输出组件的输出端。本发明提供的基于刨花板加工用转运系统具有通过将热压成型的刨花板运输至物料输出组件上,通过转运组件将物料输出组件上传输的刨花板进行旋转抬升转运,在刨花板旋转抬升转运的过程中,采用冷却组件对刨花板进行冷却处理,保障转运后刨花板处于常温状态该,以便于进一步的加工处理,转运组件将冷却处理后的刨花板转移至物料输入组件上,以便于对刨花板压制成型后的转运冷却,方便对刨花板稳定的传输至下一个精加工点位。(The invention provides a transportation system for processing a shaving board. Based on transportation system for shaving board processing includes: the material output assembly comprises a support frame and a conveying roller and is used for outputting materials to the shaving board after compression molding; the transfer assembly is arranged at the output end of the material output assembly. The transportation system for processing the shaving board has the advantages that the shaving board formed by hot pressing is transported to the material output assembly, the shaving board transported on the material output assembly is rotationally lifted and transported by the transportation assembly, the cooling assembly is used for cooling the shaving board in the rotating and lifting transportation process of the shaving board, the shaving board is guaranteed to be in a normal temperature state after transportation, further processing is facilitated, the shaving board after cooling is transferred to the material input assembly by the transportation assembly, transportation and cooling after pressing forming of the shaving board are facilitated, and the shaving board is conveniently and stably transported to the next finishing point.)

1. A transport system for particle board processing, comprising:

the material output assembly comprises a support frame and a conveying roller and is used for outputting materials to the shaving board after compression molding;

the transfer component is arranged at the output end of the material output component and comprises a fixing frame, a transfer motor, an outer barrel, a connecting rod, a supporting outer ring and lifting rods, and the surfaces of the lifting rods are distributed in gaps of the conveying rollers in a staggered manner and are used for lifting and transferring the shaving boards conveyed by the conveying rollers;

the material input assembly is arranged on the other side of the transferring assembly and used for receiving and conveying the shaving board transferred by the transferring assembly to enter the next processing procedure;

and the cooling assembly is hung on the ceiling and is arranged above the transferring assembly, and the cooling assembly is used for cooling the shaving board in the transferring process.

2. The particle board processing-based transfer system according to claim 1, wherein the surface of the conveying roller is provided with two groups of limiting outer rings, and the two groups of limiting outer rings are symmetrically distributed on the surface of the conveying roller and used for limiting the particle boards during conveying.

3. The particle board processing-based transfer system of claim 1, wherein the surface of the support outer ring is fixedly connected to the outer surface of the outer cylinder by connecting rods, and the lifting rods are provided in two sets, each set having twenty-eight rows, each row having three lifting rods arranged in parallel.

4. The particle board processing-based transfer system of claim 1, wherein the transfer motor is fixedly mounted on the fixing frame, and an output end of the transfer motor is fixedly connected with an axial end of the outer cylinder to provide a power source for rotation of the outer cylinder.

5. The particle board processing-based transfer system according to claim 1, wherein an inner support tube is fixedly connected to the inner wall of the outer cylinder;

a support shaft is fixedly connected to the shaft end of the outer cylinder;

an adjusting screw is connected to the inner surface of the supporting shaft in a threaded manner, an adjusting turntable is fixedly connected to one end of the adjusting screw, a roller is fixedly connected to the outer surface of the adjusting screw, and an arc-shaped sliding ring is fixedly connected to the outer surface of the roller;

the surface of the lifting rod is respectively in telescopic connection with the surfaces of the supporting outer ring and the outer barrel, the inner end face of the lifting rod is fixedly connected with a linkage rod, one side of the linkage rod is fixedly connected with a transmission slide block, and the other side of the linkage rod is fixedly connected with a supporting spring.

6. The particle board processing-based transfer system of claim 5, wherein the surface of the support shaft is rotatably connected to the surface of the fixing frame to provide a space for the adjustment screw to be externally adjusted.

7. The particle board processing-based transfer system of claim 5, wherein one end of the adjusting screw extends into the inner support tube, and the surface of the adjusting screw is movably connected with the inner surface of the inner support tube to provide support for the adjusting screw when the adjusting screw rotates and extends.

8. The particle board processing-based transfer system according to claim 5, wherein the surface of the linkage rod is in transmission connection with the surface of the arc-shaped slip ring through the transmission slide block, and the distance between the linkage rod and the axis is adjusted and controlled.

9. The particle board processing-based transfer system of claim 5, wherein the surface of the arcuate slip ring comprises an arcuate surface and a locating surface, the arcuate surface having an inner diameter that is the same as an outer diameter of the drum and an outer diameter that is the same as an outer diameter of the locating surface.

10. The particle board processing-based transfer system of claim 5, wherein the inner side of the outer cylinder is provided with a shrinkage groove, and one end of the support spring is fixedly connected with the inner wall of the shrinkage groove to provide a space for the shrinkage of the support spring.

Technical Field

The invention relates to the technical field of shaving board processing, in particular to a transfer system for shaving board processing.

Background

With the increasing scarcity of resources, the renewable planted wood is used as an environment-friendly green material, the production of natural wood and boards is gradually reduced in the large-area deforestation environment of forests, and a large amount of sawdust and waste boards need to be cut off when the wood boards are produced, so that the wood resources cannot be fully utilized, and the waste of a large amount of wood resources is caused.

The particle board is also called particle board, various branches, buds, small diameter wood, fast growing wood, wood chips and the like are cut into pieces with certain specifications, and the pieces are dried, mixed with sizing materials, hardening agents, waterproofing agents and the like and pressed into an artificial board under certain temperature and pressure, wherein the particles are not uniformly arranged.

In the in-process of shaving board production, need carry out the press forming to the shaving board, shaving board after the press forming needs shift to next processing equipment's input through carrying and transshipment equipment with the shaving board after the shaping, at the in-process that shifts, because shaving board itself carries a large amount of heat energy after the shaping, at the in-process that shifts, heat energy needs cool off before shifting to the position of making, and current transfer equipment adopts the conveyer belt to shift more, the conveyer belt shifts and cools off required space greatly, need consume a large amount of energy and space, the transportation of inconvenient shaving board.

Therefore, it is necessary to provide a transportation system for particle board processing to solve the above technical problems.

Disclosure of Invention

The invention provides a transportation system for processing a shaving board, which solves the problems that the shaving board is inconvenient to cool and occupies space in the traditional conveying belt transferring mode.

In order to solve the technical problem, the transfer system for processing the shaving board provided by the invention comprises: the material output assembly comprises a support frame and a conveying roller and is used for outputting materials to the shaving board after compression molding;

the transfer component is arranged at the output end of the material output component and comprises a fixing frame, a transfer motor, an outer barrel, a connecting rod, a supporting outer ring and lifting rods, and the surfaces of the lifting rods are distributed in gaps of the conveying rollers in a staggered manner and are used for lifting and transferring the shaving boards conveyed by the conveying rollers;

the material input assembly is arranged on the other side of the transferring assembly and used for receiving and conveying the shaving board transferred by the transferring assembly to enter the next processing procedure;

and the cooling assembly is hung on the ceiling and is arranged above the transferring assembly, and the cooling assembly is used for cooling the shaving board in the transferring process.

Preferably, two groups of limiting outer rings are arranged on the surface of the conveying roller, and the two groups of limiting outer rings are symmetrically distributed on the surface of the conveying roller and used for limiting the shaving boards during conveying.

Preferably, the surface of the support outer ring is fixedly connected with the outer surface of the outer cylinder through a connecting rod, two groups of lifting rods are arranged, each group comprises twenty-eight rows, and each row comprises three lifting rods distributed in parallel.

Preferably, the transfer motor is fixedly mounted on the fixing frame, and the output end of the transfer motor is fixedly connected with the shaft end of the outer cylinder, so that a power source is provided for the rotation of the outer cylinder.

Preferably, the inner wall of the outer cylinder is fixedly connected with an inner supporting tube;

a support shaft is fixedly connected to the shaft end of the outer cylinder;

an adjusting screw is connected to the inner surface of the supporting shaft in a threaded manner, an adjusting turntable is fixedly connected to one end of the adjusting screw, a roller is fixedly connected to the outer surface of the adjusting screw, and an arc-shaped sliding ring is fixedly connected to the outer surface of the roller;

the surface of the lifting rod is respectively in telescopic connection with the surfaces of the supporting outer ring and the outer barrel, the inner end face of the lifting rod is fixedly connected with a linkage rod, one side of the linkage rod is fixedly connected with a transmission slide block, and the other side of the linkage rod is fixedly connected with a supporting spring.

Preferably, the surface of the supporting shaft is rotatably connected with the surface of the fixing frame, so that a space is provided for the adjustment screw to be adjusted and controlled from the outside.

Preferably, one end of the adjusting screw rod extends into the inner supporting tube, and the surface of the adjusting screw rod is movably connected with the inner surface of the inner supporting tube to provide support for the adjusting screw rod during rotation and extension.

Preferably, the surface of the linkage rod is in transmission connection with the surface of the arc-shaped sliding ring through the transmission sliding block and is used for regulating and controlling the distance between the linkage rod and the axis.

Preferably, the surface of the arc-shaped slip ring comprises an arc-shaped surface and a positioning surface, the inner diameter of the arc-shaped surface is the same as the outer diameter of the roller, and the outer diameter of the arc-shaped surface is the same as the outer diameter of the positioning surface.

Preferably, the inner side of the outer cylinder is provided with a contraction groove, and one end of the support spring is fixedly connected with the inner wall of the contraction groove to provide a space for the contraction of the support spring.

Compared with the related art, the transportation system for processing the shaving board has the following beneficial effects that:

the invention provides a transportation system for processing a shaving board, wherein the shaving board formed by hot pressing is transported to a material output assembly, the shaving board transmitted on the material output assembly is rotationally lifted and transported by a transportation assembly, a cooling assembly is adopted to cool the shaving board in the rotational lifting and transporting process of the shaving board, the shaving board is ensured to be in a normal temperature state after transportation, so that the further processing is facilitated, the shaving board after cooling is transferred to the material input assembly by the transportation assembly, so that the transportation and cooling after shaving board press forming are facilitated, the shaving board is conveniently and stably transmitted to the next finish machining point, the whole occupied area of the transportation assembly is reduced to be far smaller than that of a long-distance conveyer belt structure, and the shaving board processing and production are more facilitated.

Drawings

FIG. 1 is a schematic structural view of a preferred embodiment of a particle board processing-based transfer system according to the present invention;

FIG. 2 is a schematic structural view of the portion of the transfer module shown in FIG. 1;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a three-dimensional view of the lift pin shown in FIG. 1;

fig. 5 is a schematic structural view of another embodiment of the cooling module shown in fig. 1.

Reference numbers in the figures:

1. the device comprises a material output assembly 11, a support frame 12, a conveying roller 13 and a limiting outer ring;

2. the device comprises a transfer component 21, a fixing frame 22, a transfer motor 23, an outer cylinder 231, an inner supporting tube 232, a contraction groove 24, a connecting rod 25, a supporting outer ring 26 and a lifting rod;

3. a material input assembly;

4. the cooling assembly 41, the fan 42, the air draft cover 43, the fixing plate 44, the drainage tube 45 and the blowing cover;

5. a support shaft;

6. the adjusting device comprises an adjusting screw rod 61, an adjusting turntable 62, a roller 63 and an arc-shaped slip ring;

7. the linkage rod 71, the transmission slide block 72 and the supporting spring;

8. a heat exchange pipe;

9. and a circulating water tank.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

Referring to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, fig. 1 is a schematic structural view of a transportation system for particle board processing according to a preferred embodiment of the present invention; FIG. 2 is a schematic structural view of the portion of the transfer module shown in FIG. 1; FIG. 3 is an enlarged view of portion A of FIG. 2; FIG. 4 is a three-dimensional view of the lift pin shown in FIG. 1; fig. 5 is a schematic structural view of another embodiment of the cooling module shown in fig. 1.

Example 1:

a transportation system for particle board processing comprises: the material output assembly 1 comprises a support frame 11 and a conveying roller 12, and is used for outputting materials to the shaving board after compression molding;

the transferring assembly 2 is arranged at the output end of the material output assembly 1, the transferring assembly 2 comprises a fixing frame 21, a transferring motor 22, an outer cylinder 23, a connecting rod 24, a supporting outer ring 25 and lifting rods 26, and the surfaces of the lifting rods 26 are distributed in gaps of the conveying rollers 12 in a staggered manner and are used for lifting and transferring the shaving boards conveyed by the conveying rollers 12;

the material input assembly 3 is arranged on the other side of the transferring assembly 2 and used for receiving and conveying the shaving board transferred by the transferring assembly 2 to enter the next processing procedure;

cooling module 4, cooling module 4 furred ceiling install in transport module 2's top for carry out cooling treatment to the shaving board of transporting in-process.

At least seventeen groups of conveying rollers 12 are arranged on one support frame 11, the shaft ends of the conveying rollers 12 are connected through synchronous belt wheels and are rotatably mounted on the support frame 11 to ensure that the conveying rollers 12 can synchronously rotate to horizontally convey the shaving board after compression molding, a gap is reserved between every two adjacent conveying rollers 12, the size of the gap is matched with the surface size of the lifting rod 26, the lifting rod 26 can stably rotate, and the operation of the lifting rod 26 and the operation of the conveying rollers 12 are not affected;

when the shaving board after the pressing forming needs to be conveyed, the lifting rod 26 is located above or below the movement range of the shaving board, so that the shaving board can be stably conveyed to the lifting range of the lifting rod 26;

when the shaving boards transported to the lifting range need to be lifted and transported, the conveying rollers 12 are preferably closed, the lifting rods 26 are adjusted in a rotating mode, so that the lifting rods 26 located below the shaving boards are lifted upwards, and the shaving boards are stably placed between two adjacent lifting rods 26 under the supporting action of the lifting rods 26 and the supporting outer ring 25 after being lifted;

during the lifting of the shaving board, when the next set of lifting rods 26 rotate to be right below the lifting range, the rotating power of the lifting rods 26 is turned off, so that the lifting rods 26 are positioned right below the conveying range of the shaving board, and a cycle is formed.

The structure of material input assembly 3 is the same with the structure of material output assembly 1 to the mode of carrying is the same, material input assembly 3 and the cooperation mode of transporting between the subassembly 2 are the same with the cooperation mode between the material output assembly 1, the difference lies in, it transports the top of material input assembly 3 to the downward rotation of shaving board to transport subassembly 2, the shaving board transports the top of material input assembly 3 after, material input assembly 3 carries the shaving board of receiving once more, so that transport the shaving board after the cooling to the processing technology of next step.

When transporting subassembly 2 and carrying out the lifting transportation to the shaving board, the cooling module 4 through the installation of top furred ceiling is to the shaving board in the transportation cooling process of blowing for the heat dissipation of shaving board transportation in-process.

The surface of the conveying roller 12 is provided with two groups of limiting outer rings 13, and the two groups of limiting outer rings 13 are symmetrically distributed on the surface of the conveying roller 12 and used for limiting the shaving boards during conveying.

The medial surface of two sets of spacing outer lane 13 is the arcwall face, conveniently corrects the shaving board in carrying, avoids the shaving board to take place the phenomenon of slope and skew at the in-process of carrying to the stability of transport is transported to the guarantee shaving board.

The surface of the support outer ring 25 is fixedly connected with the outer surface of the outer cylinder 23 through a connecting rod 24, two groups of lifting rods 26 are arranged, each group comprises twenty-eight rows, and each row comprises three lifting rods 26 which are distributed in parallel.

Two sets of lift rod 26 parallel distribution is at the surface of urceolus 23 to support the outer loop 25 through six groups and carry on spacingly and support, conveniently transport two sets of shaving boards simultaneously, increase the efficiency of transporting, and six groups support the outer loop 25 and distribute between two sets of lift rod 26, conveniently carry out stable support and spacing to the shaving board after the lifting.

The transfer motor 22 is fixedly mounted on the fixing frame 21, and the output end of the transfer motor 22 is fixedly connected with the shaft end of the outer cylinder 23, so that a power source is provided for the rotation of the outer cylinder 23.

The transfer motor 22 is a servo motor and is connected with an external power supply when in use, the transfer motor 22 can synchronously drive the outer cylinder 23 to synchronously rotate when in operation, the outer cylinder 23 synchronously drives the supporting outer ring 25 to rotate through the connecting rod 24 when rotating, the lifting rod 26 is synchronously driven to rotate when the supporting outer ring 25 rotates, and the shaving board to be transferred can be conveniently lifted from the material output assembly 1 when the lifting rod 26 rotates;

when the lifting rod 26 lifts the shaving board on the material output assembly 1 in a rotating mode, the other side of the lifting rod 26 horizontally puts the transferred shaving board on the material input assembly 3, so that the transferred shaving board can be conveyed by the material input assembly 3 conveniently.

The invention provides a transfer system for processing a shaving board, which has the following working principle:

the formed shaving board is moved to the material output assembly 1, and the shaving board is horizontally conveyed to the lifting range of the transfer assembly 2 through the material output assembly 1;

when the shaving board moves to the lifting range, the material output assembly 1 is closed, the transfer motor 22 is started, the transfer motor 22 drives the outer cylinder 23 to roll, the outer cylinder 23 drives the support outer ring 25 to rotate through the connecting rod 24 when rolling, the support outer ring 25 drives the lifting rod 26 to synchronously rotate when rotating, and the shaving board in the lifting range is driven to upwards rotate and is separated from the movement range of the shaving board when the lifting rod 26 rotates;

when the shaving boards in the lifting range are separated from the moving range, the next group of lifting rods 26 rotate to the position below the lifting range, the transfer motor 22 is turned off, and the material output assembly 1 is started again to convey the shaving boards, so that circulation is performed;

the shaving board is transported to material input component 3 and is built on the side and the shaving board is located the migration range of material input component 3 directly over, closes transportation motor 22, starts material input component 3, breaks away from the transportation scope of lifting rod 26 to the material after transporting to automatic unloading provides the space for the transportation of next shaving board, ensures the continuity of equipment operation.

Compared with the related art, the transportation system for processing the shaving board has the following beneficial effects that:

on transporting hot briquetting's shaving board to material output assembly 1, carry out rotatory lifting through transporting subassembly 2 with the shaving board of material output assembly 1 transmission and transport, at the in-process that the rotatory lifting of shaving board was transported, adopt cooling module 4 to carry out cooling treatment to the shaving board, the shaving board is in normal atmospheric temperature state this after the guarantee is transported, so that further processing, transport subassembly 2 shifts the shaving board after the cooling treatment to material input assembly 3, so that to the transportation cooling after the shaving board compression moulding, convenient transmission to next finish machining position to the shaving board is stable.

Example 2:

an inner support tube 231 is fixedly connected to the inner wall of the outer cylinder 23;

a support shaft 5 is fixedly connected to the shaft end of the outer cylinder 23;

an adjusting screw 6 is connected to the inner surface of the supporting shaft 5 in a threaded manner, an adjusting turntable 61 is fixedly connected to one end of the adjusting screw 6, a roller 62 is fixedly connected to the outer surface of the adjusting screw 6, and an arc-shaped sliding ring 63 is fixedly connected to the outer surface of the roller 62;

the surface of the lifting rod 26 is respectively connected with the surface of the outer support ring 25 and the surface of the outer cylinder 23 in a telescopic manner, the inner end surface of the lifting rod 26 is fixedly connected with a linkage rod 7, one side of the linkage rod 7 is fixedly connected with a transmission slide block 71, and the other side of the linkage rod 7 is fixedly connected with a support spring 72.

Lift pole 26 movable mounting on urceolus 23, and lift the interior terminal surface of pole 26 and be connected with gangbar 7, so that adjust the extension distance of lift pole 26 through gangbar 7, so that the adaptability when relative distance between material output component 1 or material input component 3 and the transport assembly 2 is far away when equipment fixing, provide sufficient error distance for the installation of equipment, even if the deviation appears in installation distance also can remedy through telescopic lift pole 26, the degree of difficulty of counterpointing when reducing the large-scale equipment fixing, improve equipment integral erection's convenience, guarantee shaving board lifting and equipment operation's stability.

The adjusting screw 6 is installed on the supporting shaft 5 in a threaded mode, the adjusting dial 61 is rotated to conveniently drive the adjusting screw 6 to rotate and adjust, when the adjusting screw 6 rotates forwards, the adjusting screw 6 rotates to drive the roller 62 to rotate, and when the roller 62 rotates, the arc-shaped sliding ring 63 is driven to rotate;

the surface gradually moves towards the inside of the outer cylinder 23 when the adjusting screw 6 rotates forwards, so that the arc-shaped surface of the arc-shaped sliding ring 63 is driven to move and abut against the transmission sliding block 71, the transmission sliding block 71 is pressed and then extends outwards, the linkage rod 7 is synchronously pushed to move outwards when the transmission sliding block 71 extends outwards, and the lifting rod 26 on the outer side can be synchronously pushed to extend outwards when the linkage rod 7 moves outwards, so that the working distance of the lifting rod 26 can be adjusted;

similarly, when the adjusting screw 6 is adjusted reversely, the linkage rod 7 can be reset to the initial state under the elastic force of the supporting spring 72.

The surface of the supporting shaft 5 is rotatably connected with the surface of the fixing frame 21, so that a space is provided for the adjustment and control of the adjusting screw 6 from the outside.

The support shaft 5 is directly connected with the shaft end of the outer cylinder 23, the surface of the support shaft 5 is communicated with the inside of the outer cylinder 23, and the surface of the support shaft 5 is rotatably connected with the fixed frame 21 to provide auxiliary support for the rotation adjustment of the outer cylinder 23.

One end of the adjusting screw 6 extends into the inner support tube 231, and the surface of the adjusting screw 6 is movably connected with the inner surface of the inner support tube 231 to provide support for the adjusting screw 6 during rotation and extension.

The inner end surface of the adjusting screw 6 is positioned inside the outer cylinder 23, and the inner end surface of the adjusting screw 6 extends into the inner support tube 231, so that the adjusting screw 6 is supported in an auxiliary manner, and meanwhile, the adjusting screw 6 is convenient to move stably inside the inner support tube 231 when being rotated and adjusted;

when the inner end surface of the adjusting screw 6 completely extends into the inner support tube 231, the positioning surface of the arc-shaped slip ring 63 is in contact with the surface of the transmission slide block 71, so that the stability of the lifting rod 26 in the unfolded state is guaranteed;

when the inner end surface of the adjusting screw rod 6 is reset to the initial state, the surface of the transmission slide block 71 is in contact with the surface of the roller 62, so that the lifting rod 26 is in the retracted state, thereby ensuring the stability of the lifting rod 26 during extension and reset adjustment.

The surface of the linkage rod 7 is in transmission connection with the surface of the arc-shaped sliding ring 63 through the transmission sliding block 71, and is used for regulating and controlling the distance between the linkage rod 7 and the axis.

The surface of the arc-shaped slip ring 63 comprises an arc-shaped surface and a positioning surface, the inner diameter of the arc-shaped surface is the same as the outer diameter of the roller 62, and the outer diameter of the arc-shaped surface is the same as the outer diameter of the positioning surface.

A contraction groove 232 is formed in the inner side of the outer cylinder 23, and one end of the support spring 72 is fixedly connected with the inner wall of the contraction groove 232 to provide a space for contraction of the support spring 72.

Has the advantages that:

adjust the extension distance of lifting rod 26 through gangbar 7 to material output assembly 1 or material input assembly 3 and the adaptability when transporting relative distance between the subassembly 2 and far away when equipment fixing are adjusted, provide sufficient error distance for the installation of equipment, even if the installation distance deviation appears also can lift lifting rod 26 through the telescopic and remedy, the degree of difficulty of counterpointing when reducing the large-scale equipment fixing, improve equipment integral erection's convenience, guarantee shaving board lifting and equipment operation's stability.

Further, the cooling assembly 4 includes a blower 41, an air draft cover 42, a fixing plate 43, a drainage tube 44, and an air blowing cover 45;

the fan 41 is installed in a suspended ceiling, and the input end of the fan 41 is communicated with the output end of the exhaust hood 42;

the bottom end of the air draft cover 42 is connected with an air blowing cover 45 through a fixing plate 43, the air blowing cover 45 is communicated with the output end of the fan 41 through a drainage tube 44, the air blowing cover 45 is installed on the side face of the transfer assembly 2 and used for blowing air for cooling the shaving boards in the transfer process, and air is blown to the position right above the shaving boards through the air draft cover 42 after air blowing, so that air circulation cooling of the surfaces of the shaving boards is achieved;

a heat exchange pipe 8 is arranged in the exhaust hood 42, the input end of the heat exchange pipe 8 is connected with a circulating water tank 9, the output end of the circulating water tank 9 is provided with a circulating water pump, the circulating water pump pumps cooling water in the circulating water tank 9 to the inside of the heat exchange pipe 8, and the circulating air is subjected to heat exchange and cooling through the heat exchange pipe 8, so that the blowing and cooling efficiency of the shaving board is improved;

the input of circulation tank 9 passes through the pipeline and is connected with the output of heat exchange tube 8 for the circulation at the inside heat transfer water source of heat exchange tube 8 is retrieved, and the inside of circulation tank 9 is equipped with the cooling ice-cube, and the cooling ice-cube adopts dismantled and assembled structure, conveniently carries out natural cooling to the inside water source of circulation tank 9, the quality of guarantee heat exchange tube 8 and circulated air heat transfer.

During the use only need consume the ice-cube that corresponds and can realize carrying out quick cooling to the shaving board of transporting, the cooling surface is more even, and the refrigerated quality is transported to the guarantee shaving board.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.