CN212171235U

CN212171235U - High-efficient panel forming device with cooling structure

Info

Publication number: CN212171235U
Application number: CN202020633948.1U
Authority: CN
Inventors: 叶汝谦
Original assignee: Shenzhen Anheda Plastic Products Co ltd
Current assignee: Shenzhen Anheda Plastic Products Co ltd
Priority date: 2020-04-23
Filing date: 2020-04-23
Publication date: 2020-12-18
Anticipated expiration: 2030-04-23

Abstract

The utility model provides a high-efficient panel forming device with cooling structure, its characterized in that, the device is including forming device and heat sink, forming device is including reposition of redundant personnel portion, shaping portion and more than one baffle, reposition of redundant personnel portion and shaping portion fixed connection, be provided with the shaping cavity in the shaping portion, the baffle all is detachable to be set up in the shaping cavity of shaping portion; the cooling device comprises a water storage tower, a water inlet and a water outlet are formed in the partition plate, a cooling channel is formed in the partition plate, and two ends of the cooling channel are communicated to the corresponding water inlet and the corresponding water outlet respectively. In the utility model, a plurality of semi-finished plates can be formed at the same time by one forming device, so that the production efficiency of the plates is improved; and the temperature reduction device enables the partition plate to be in a temperature reduction stage all the time.

Description

High-efficient panel forming device with cooling structure

Technical Field

The utility model belongs to the panel shaping field, in particular to a structure for panel forming device.

Background

Sheet forming is the continuous formation of a polymer melt extruded through a very wide, but small height, approximately rectangular channel. The requirement that the melt exit the outlet at the same rate is an important condition to ensure uniform thickness and smooth surface of the extruded sheet. But the discharge efficiency of the discharge hole for the existing plate forming is low, and the plate cannot be produced more efficiently in the plate forming process.

The plastic plate forming equipment comprises a first plastic extruder for extruding a middle-layer insulation plate, a second plastic extruder for extruding an upper plastic sheet layer, a third plastic extruder for extruding a lower plastic sheet layer, a first guide rod, a first unwinding device of an upper non-woven fabric layer unwinding device, a second unwinding device of a lower non-woven fabric layer unwinding device, a second guide rod and a traction device which are arranged in sequence, wherein a shaping mold is fixedly connected to the first shaping device, an insulation plate head is arranged on the first plastic extruder, and an extruded insulation plate blank is cooled and shaped through the shaping mold of the first shaping device to form a continuous insulation plate; the middle heat-insulation board is respectively bonded with the upper and lower modified plastic sheet layers, the gridding cloth or the non-woven fabric in a hot melting way; the heat insulation plate material is PS, PVC, PU, PP, PE and EVA, and the plastic sheet layer material is PVC, PP, PE and PU. However, the above-mentioned comparison document 1 cannot solve the problem of low efficiency, and cannot realize efficient sheet forming.

Disclosure of Invention

In order to solve the problem, the utility model provides a make higher high-efficient panel forming device who has a cooling structure of panel shaping efficiency.

The utility model discloses a high-efficient panel forming device with cooling structure that another aim at can last the cooling when baffle production.

In order to achieve the above object, the technical solution of the present invention is as follows.

The utility model provides a high-efficiency plate forming device with a cooling structure, which is characterized in that, the device comprises a forming device and a cooling device, wherein the forming device comprises a flow dividing part, a forming part and more than one partition plate, the flow dividing part is fixedly connected with the forming part, a forming cavity is arranged in the forming part, the partition plates are all detachably arranged in the forming cavity of the forming part, the partition board divides the molding cavity into a plurality of molding channels, a shunt channel is arranged in the shunt part, one end of the flow dividing channel penetrates through the flow dividing part to form an input port, the other end of the flow dividing channel penetrates through the flow dividing part to form a plurality of flow dividing holes corresponding to the plurality of forming channels, the plurality of the shunting holes are respectively communicated to one ends of the corresponding plurality of the forming channels, and the other ends of the plurality of the forming channels are communicated with the forming part to form a plurality of forming openings; the cooling device comprises a water storage tower, a water inlet and a water outlet are formed in the partition plate, a cooling channel is formed in the partition plate, two ends of the cooling channel are communicated to the corresponding water inlet and the corresponding water outlet respectively, the water storage tower and the water inlet in the partition plate are communicated through water pipes, and the water outlet of the partition plate is communicated with a water pipe for discharging water. Raw materials under the molten state are injected by the input port of reposition of redundant personnel passageway, the reposition of redundant personnel through reposition of redundant personnel passageway is respectively by a plurality of reposition of redundant personnel holes injection corresponding a plurality of shaping passageways in, discharge a plurality of semifinished sheet after the shaping by a plurality of shaping mouths that correspond after a plurality of shaping passageways shaping, at this in-process, can a plurality of semifinished sheet of shaping simultaneously through a forming device, make the production efficiency of panel more increase, and the use of above-mentioned detachable baffle, the dismouting of being convenient for more when the baffle damages or installs. The forming part is the prior art and has the same principle as the prior plate extruder head. And above-mentioned aqua storage tower leads to the pipe will with the water inlet with the water discharge to the cooling passageway of baffle in, for the baffle cooling, and the water pipe that the delivery port was located then will be through the water discharge behind the cooling passageway, thereby above-mentioned structure makes the heat of the baffle is taken away in the incessantly mobile replacement of water in the cooling passageway, makes the baffle be in the cooling stage always, thereby avoids appearing because of gluing the phenomenon of damaging when the too high plate side shaping that makes to press close to the baffle when producing panel.

Furthermore, the partition plate divides the molding cavity into a plurality of molding channels uniformly, and the plurality of shunting holes are the same in size.

Furthermore, the number of the partition plates is one, and the number of the forming channels and the number of the shunting holes are two; the whole Y type that is of reposition of redundant personnel passageway, baffle one end is supported and is held in the reposition of redundant personnel portion, just two reposition of redundant personnel holes of reposition of redundant personnel passageway use baffle one end as symmetry axis symmetry, the fixed part that is provided with of baffle other end, the baffle passes through the detachable setting of fixed part on the shaping portion.

Furthermore, the partition plate comprises sliding parts at the upper side and the lower side, the sliding parts of the forming cavity corresponding to the upper side and the lower side of the partition plate are respectively provided with a first sliding chute, and the sliding parts at the upper side and the lower side of the partition plate are respectively movably arranged in the first sliding chutes at the upper side and the lower side of the forming cavity; the sliding parts on the upper side and the lower side of the partition board are respectively and integrally connected with sliding blocks, the sliding blocks on the upper side and the lower side of the forming cavity are provided with second sliding grooves corresponding to the sliding blocks on the upper side and the lower side of the partition board, and the sliding blocks on the upper side and the lower side of the partition board are respectively and movably arranged in the second sliding grooves on the upper side and the lower side of the forming cavity.

Furthermore, the first sliding groove and the corresponding second sliding groove are integrally formed into a 'pin' -shaped sliding groove. This setting up of "article" style of calligraphy spout makes the baffle more stable when the installation is dismantled, can avoid the raw materials interpenetration in the different shaping passageways simultaneously.

Furthermore, the cooling structure also comprises a cooling water tower, a water pipe for discharging water is communicated into the cooling water tower at the water outlet, the cooling water tower is communicated with the water storage tower through the water pipe, and a water return pump is arranged at the water pipe between the cooling water tower and the water storage tower; a water delivery pump is arranged at a water pipe between the water storage tower and the water inlet; and a drainage pump is arranged at the water pipe between the cooling water tower and the water outlet. The water cooling tower is arranged, so that water discharged from the water outlet is cooled by the water cooling tower and then discharged to the water storage tower, the water is recycled, more resources are saved, the use is more convenient, and the water can be continuously supplied to the partition plate for cooling only by adding water once. The cooling mode of the cooling water tower is a conventional refrigeration technology; the arrangement of the water delivery pump ensures that the water delivery between the water storage tower and the water inlet is more reliable and convenient, the water is output by gravity without the water storage tower and the water pipe between the water storage tower and the water inlet all the time, and the arrangement of the water pipe between the water storage tower and the water inlet is more convenient; the setting of drain pump for the water transport between cooling tower and the delivery port is more reliable convenient, does not need the water pipe between cooling tower and the delivery port to be located the delivery port below always and relies on gravity to discharge water, makes things convenient for the setting of the water pipe between cooling tower and the water inlet more.

Furthermore, the water pipe between the water storage tower and the water inlet is fixedly arranged at the bottom end of the water storage tower, and the water pipe between the water storage tower and the cooling water tower is fixedly arranged at the top end of the water storage tower.

Furthermore, the water inlet and the water outlet are both fixedly provided with a sealing ring. The sealing ring is arranged, so that the water inlet and the water outlet are prevented from leaking at the joint of the water pipe and the water inlet and the water outlet when the water pipe is connected with the water inlet and the water outlet.

Furthermore, the water inlet and the water outlet are round holes, and the whole cooling channel is U-shaped.

The beneficial effects of the utility model reside in that, compared with the prior art, the utility model discloses in, raw materials under the molten state are injected into by the input port of reposition of redundant personnel passageway, in a plurality of shaping passageways that the reposition of redundant personnel through reposition of redundant personnel passageway is injected into the correspondence respectively by a plurality of diffluence orifice, through the semifinished sheet material after a plurality of shaping passageway shaping back discharge a plurality of shaping of corresponding, at this in-process, can a plurality of semifinished sheet materials of simultaneous shaping through a forming device for the production efficiency of panel more increases, and the use of above-mentioned detachable baffle, the dismouting of being convenient for more when the baffle damages or installs. The forming part is the prior art and has the same principle as the prior plate extruder head. And above-mentioned aqua storage tower leads to the pipe will with the water inlet with the water discharge to the cooling passageway of baffle in, for the baffle cooling, and the water pipe that the delivery port was located then will be through the water discharge behind the cooling passageway, thereby above-mentioned structure makes the heat of the baffle is taken away in the incessantly mobile replacement of water in the cooling passageway, makes the baffle be in the cooling stage always, thereby avoids appearing because of gluing the phenomenon of damaging when the too high plate side shaping that makes to press close to the baffle when producing panel.

Drawings

Fig. 1 is a schematic structural view of a forming device of a high-efficiency plate forming device with a cooling structure of the present invention.

Fig. 2 is a sectional view of the high-efficiency plate forming device with a cooling structure of the present invention.

Fig. 3 is a schematic structural diagram of the cooling device and the partition plate of the high-efficiency plate forming device with the cooling structure of the present invention.

Fig. 4 is a sectional view of the partition board of the high-efficiency board forming device with a cooling structure of the present invention.

Fig. 5 is a partially enlarged view of fig. 1 at a.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The utility model provides a high-efficiency plate forming device with a cooling structure, which is characterized in that, the device comprises a forming device 1 and a cooling device 2, wherein the forming device 1 comprises a flow dividing part 11, a forming part 12 and more than one partition plate 13, the flow dividing part 11 is fixedly connected with the forming part 12, a forming cavity 14 is arranged in the forming part 12, the partition plates 13 are all detachably arranged in the forming cavity 14 of the forming part 12, and the partition 13 divides the molding cavity 14 into a plurality of molding passages 141, a flow dividing passage 15 is provided in the flow dividing portion 11, one end of the flow dividing channel 15 penetrates the flow dividing part 11 to form an input port 151, the other end of the flow dividing channel 15 penetrates the flow dividing part 11 to form a plurality of flow dividing holes 152, the plurality of branch holes 152 are respectively penetrated to one end of the corresponding plurality of forming channels 141, the other end of the forming channel 141 penetrates the forming part 12 to form a plurality of forming openings 142; the cooling device 2 comprises a water storage tower 21, a water inlet 131 and a water outlet 132 are arranged on the partition plate 13, a cooling channel 133 is arranged in the partition plate 13, two ends of the cooling channel 133 are respectively communicated to the corresponding water inlet 131 and the corresponding water outlet 132, the water storage tower 21 and the water inlets 131 on more than one partition plate 13 are communicated through water pipes, and the water outlets 132 of the partition plate 13 are communicated with water pipes for discharging water.

Further, the partition 13 divides the molding cavity 14 into a plurality of molding passages 141 uniformly, and the plurality of branch holes 152 have the same size.

Further, the number of the partition plates 13 is one, and the number of the molding passages 141 and the number of the diversion holes 152 are two; the whole Y type that is of reposition of redundant personnel passageway 15, baffle 13 one end is supported and is held on reposition of redundant personnel portion 11, just two reposition of redundant personnel holes 152 of reposition of redundant personnel passageway 15 use baffle 13 one end as symmetry axis symmetry, baffle 13 other end is fixed and is provided with fixed part 134, baffle 13 passes through the detachable setting of fixed part 134 on shaping portion 12.

Further, the partition plate 13 includes sliding portions 135 at upper and lower sides, the forming cavity 14 is provided with first sliding grooves 143 corresponding to the sliding portions 135 at the upper and lower sides of the partition plate 13, and the sliding portions 135 at the upper and lower sides of the partition plate 13 are movably disposed in the first sliding grooves 143 at the upper and lower sides of the forming cavity 14, respectively; the sliding parts 135 on the upper and lower sides of the partition 13 are integrally connected with sliding blocks 136, the forming cavity 14 is provided with second sliding grooves 144 corresponding to the sliding blocks 136 on the upper and lower sides of the partition 13, and the sliding blocks 136 on the upper and lower sides of the partition 13 are movably arranged in the second sliding grooves 144 on the upper and lower sides of the forming cavity 14 respectively.

Further, the first slide groove 143 and the corresponding second slide groove 144 are integrally formed as a "pin" shaped slide groove.

Further, the cooling structure 2 further comprises a cooling water tower 22, a water pipe for discharging water is connected to the cooling water tower 22 at the water outlet 132, the cooling water tower 22 is connected to the water storage tower 21 through a water pipe, and a water return pump 23 is arranged at the water pipe between the cooling water tower 22 and the water storage tower 21; a water delivery pump 24 is arranged at a water pipe between the water storage tower 21 and the water inlet 131; a drainage pump 25 is arranged at the water pipe between the cooling water tower 22 and the water outlet 132.

Further, the water pipe between the water storage tower 21 and the water inlet 131 is fixedly arranged at the bottom end of the water storage tower 21, and the water pipe between the water storage tower 21 and the cooling water tower 22 is fixedly arranged at the top end of the water storage tower 21.

Further, sealing rings 137 are fixedly arranged at the water inlet 131 and the water outlet 132.

Further, the water inlet 131 and the water outlet 132 are circular holes, the cooling channel 133 is integrally U-shaped, and the cross section of the cooling channel 133 is a circular hole corresponding to the water inlet 131 and the water outlet 132.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims

1. A high-efficiency plate forming device with a cooling structure is characterized by comprising a forming device and a cooling device, the forming device comprises a flow dividing part, a forming part and more than one partition plate, the flow dividing part is fixedly connected with the forming part, the forming part is internally provided with a forming cavity, the partition plates are all detachably arranged in the forming cavity of the forming part, the partition board divides the molding cavity into a plurality of molding channels, a shunt channel is arranged in the shunt part, one end of the flow dividing channel penetrates through the flow dividing part to form an input port, the other end of the flow dividing channel penetrates through the flow dividing part to form a plurality of flow dividing holes corresponding to the plurality of forming channels, the plurality of the shunting holes are respectively communicated to one ends of the corresponding plurality of the forming channels, and the other ends of the plurality of the forming channels are communicated with the forming part to form a plurality of forming openings; the cooling device comprises a water storage tower, a water inlet and a water outlet are formed in the partition plate, a cooling channel is formed in the partition plate, two ends of the cooling channel are communicated to the corresponding water inlet and the corresponding water outlet respectively, the water storage tower and the water inlet in the partition plate are communicated through water pipes, and the water outlet of the partition plate is communicated with a water pipe for discharging water.

2. A high efficiency plate forming apparatus with a cooling structure as claimed in claim 1, wherein said partition plate divides the forming cavity into a plurality of forming channels uniformly, and said plurality of distribution holes are the same in size.

3. The efficient plate forming device with the cooling structure as claimed in claim 1, wherein the number of the partition plates is one, and the number of the forming channels and the number of the diversion holes are two; the whole Y type that is of reposition of redundant personnel passageway, baffle one end is supported and is held in the reposition of redundant personnel portion, just two reposition of redundant personnel holes of reposition of redundant personnel passageway use baffle one end as symmetry axis symmetry, the fixed part that is provided with of baffle other end, the baffle passes through the detachable setting of fixed part on the shaping portion.

4. A high-efficiency plate forming device with a cooling structure as claimed in claim 1, wherein each partition plate comprises sliding portions arranged at the upper and lower sides of the partition plate, the sliding portions of the forming cavity corresponding to the partition plates are provided with first sliding grooves, and each sliding portion is movably arranged in the corresponding first sliding groove; the sliding parts on the upper side and the lower side of the partition board are respectively and integrally connected with sliding blocks, the sliding blocks on the upper side and the lower side of the forming cavity are provided with second sliding grooves corresponding to the sliding blocks on the upper side and the lower side of the partition board, and the sliding blocks on the upper side and the lower side of the partition board are respectively and movably arranged in the second sliding grooves on the upper side and the lower side of the forming cavity.

5. A high efficiency plate forming apparatus with a cooling structure as claimed in claim 4, wherein said first chutes and corresponding second chutes are integrally formed as "pin" type chutes.

6. The efficient plate forming device with the cooling structure as claimed in claim 1, wherein the cooling structure further comprises a cooling tower, the water outlet connects a water pipe for discharging water into the cooling tower, the cooling tower is connected with the water storage tower through a water pipe, and a water return pump is arranged at the water pipe between the cooling tower and the water storage tower; a water delivery pump is arranged at a water pipe between the water storage tower and the water inlet; and a drainage pump is arranged at the water pipe between the cooling water tower and the water outlet.

7. The forming device of claim 6, wherein the water pipe between the water storage tower and the water inlet is fixedly disposed at the bottom end of the water storage tower, and the water pipe between the water storage tower and the cooling water tower is fixedly disposed at the top end of the water storage tower.

8. A high efficiency plate forming device with a cooling structure as claimed in claim 1, wherein sealing rings are fixedly disposed at the water inlet and the water outlet.

9. A high efficiency plate forming device with a temperature reducing structure as claimed in claim 1, wherein said water inlet and said water outlet are both circular holes, and said temperature reducing channel is "U" shaped as a whole.