CN211307103U

CN211307103U - Plastic product cooling device

Info

Publication number: CN211307103U
Application number: CN201921854670.4U
Authority: CN
Inventors: 谭亮
Original assignee: Huizhou Haorun Packaging Technology Co ltd
Current assignee: Huizhou Haorun Packaging Technology Co ltd
Priority date: 2019-10-31
Filing date: 2019-10-31
Publication date: 2020-08-21
Anticipated expiration: 2029-10-31

Abstract

The utility model relates to a plastics product cooling device, including transport mechanism and cooling body, through set up cooling body on transport mechanism for the whole mechanism of cooling off the product is comparatively simple and convenient, and the product just can cool off the product at the in-process of conveying promptly, and need not the manual work after the cooling again with the operation of its drying and transport, simplifies the operation flow, reduces manual operation, helps reducing manufacturing cost, and effectively improves production efficiency. Cooling body includes cooler bin, fan, suction line and air compressor machine, and the conveyer belt will have thermal product conveying to cooling space, and the cooler bin cover is established on cooling space, and the heat that the air compressor machine will blow out when blowing inwards through the fan absorbs, and then makes the heat on the product distribute out sooner, can play better cooling effect, and can effectively reduce the whole heat in the operation workshop, helps improving operating personnel's comfort level.

Description

Plastic product cooling device

Technical Field

The utility model relates to a general mechanical equipment makes technical field, in particular to plastic product cooling device.

Background

As is known to all, the temperature of the processed products is generally high, the products cannot be directly contacted by hands, and if the high-temperature products are stacked together, the heat loss cannot be caused due to the high temperature, so that the product deformation is easily caused, and the product quality is influenced.

At present, when cooling plastic products, the products are cooled mainly by means of soaking in a cooling liquid, and the plastic products are generally directly soaked in the cooling liquid, such as water, for cooling. However, the cooling method is prone to crack due to uneven heating of the plastic product, and the amount of cooling liquid required for immersion cooling is large.

In addition, after the product has been cooled down among the prior art, need adopt the manual work to carry the good product of cooling, carry out drying process afterwards, this kind of working method is wasted time and energy, and work efficiency is low.

SUMMERY OF THE UTILITY MODEL

Therefore, a cooling device for plastic products, which has a simple structure, can reduce the production cost, can effectively improve the production efficiency, and can achieve a better cooling effect, is needed to be designed.

A plastic product cooling device comprises a conveying mechanism and a cooling mechanism, wherein the cooling mechanism is arranged on the conveying mechanism,

the conveying mechanism comprises an installation frame and a conveying belt, the conveying belt is arranged on the installation frame, a product input area is arranged at the first end of the installation frame, a cooling area is arranged on the installation frame, a product output area is arranged at the second end of the installation frame, the product input area, the cooling area and the product output area are sequentially connected, and the conveying belt is located on the product input area, the cooling area and the product output area;

the cooling mechanism comprises a cooling box, a fan, an air suction pipeline and an air compressor, the cooling box is arranged on the mounting rack, the cooling box cover is arranged above the cooling area, one side surface of the cooling box close to the product output area is provided with a mounting opening, the fan is embedded in the mounting opening and used for supplying air to the cooling area when the product is conveyed to the cooling area, the air suction pipeline is arranged in the cooling box, an air inlet hole is arranged on the air suction pipeline and faces the cooling area, a gas channel is arranged in the cooling box, the gas inlet is communicated with the gas channel, the air suction pipe of the air compressor is arranged at one end of the cooling box close to the product input area, the air suction pipe of the air compressor is communicated with the air channel, and the air compressor is used for sucking air from the cooling area when the fan supplies air to the cooling area.

In one embodiment, a product transport path is provided between the cooling box and the conveyor belt for transporting product from the product input area to the product output area.

In one embodiment, an included angle is formed between the air supply direction of the fan and the plane where the conveyor belt is located, and the included angle is 30-60 degrees;

and a wind shielding soft film is arranged on one side surface of the cooling box close to the product input area.

In one embodiment, the cooling mechanism further includes a sensing device disposed at an end of the cooling box near the product input area, and the sensing device is electrically connected to the fan and the air compressor, respectively.

In one embodiment, two air suction pipes are arranged, the two air suction pipes are respectively arranged in the cooling box, and the two air suction pipes are arranged oppositely.

In one embodiment, the air suction pipeline is provided with a plurality of air inlet holes, and the air inlet holes are distributed on the air suction pipeline in a rectangular array.

In one embodiment, an arc-shaped surface is arranged on the air draft pipeline, and the air inlet holes are distributed on the arc-shaped surface at equal intervals.

In one embodiment, the cooling mechanism further includes a support frame, a first end of the support frame is disposed on the mounting frame, and the air suction pipe of the air compressor is disposed on a second end of the support frame.

In one embodiment, the cooling box comprises an outer frame body and an inner frame body, the outer frame body is sleeved outside the inner frame body, and the gas channel is arranged between the outer frame body and the inner frame body;

the air suction pipeline is arranged on the inner frame body, and the air inlet is communicated with the air channel;

the air suction pipe of the air compressor is arranged at one end, close to the product input area, of the outer frame body, and the air suction pipe of the air compressor is communicated with the air channel.

In one embodiment, the cooling mechanism includes a plurality of fans, a plurality of mounting openings are formed in one side surface of the cooling box close to the product output area at equal intervals, and the fans are embedded in the mounting openings in a one-to-one correspondence manner.

Compared with the prior art, the utility model discloses following beneficial technological effect has:

firstly, through set up on transport mechanism cooling mechanism for the whole mechanism of cooling product is comparatively simple and convenient, and the product just can be cooled off at the in-process of conveying promptly, and need not the manual work after the cooling and then with its operation of drying and transport, has simplified the operation procedure, has reduced manual operation, helps reducing manufacturing cost, and effectively improves production efficiency.

Secondly, cooling body includes cooler bin, fan, exhaust duct and air compressor machine, the conveyer belt will have thermal product conveying to the cooling space, the cooler bin covers and establishes on the cooling space, through when the fan is inside bloies the heat absorption that the air compressor machine will blow out, and then makes the heat on the product distribute out sooner, can play better cooling effect, and can effectively reduce the whole heat in the operation workshop, help improving operating personnel's comfort level.

Drawings

Fig. 1 is a schematic structural view of a cooling device for plastic products according to an embodiment of the present invention.

Fig. 2 is a schematic structural view of a plastic product cooling device according to another embodiment of the present invention.

Fig. 3 is an enlarged view of the plastic product cooling device shown in fig. 2 at a.

The drawings are for illustrative purposes only and are not to be construed as limiting the patent; for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted; the same or similar reference numerals correspond to the same or similar parts; the terms describing positional relationships in the drawings are for illustrative purposes only and are not to be construed as limiting the patent.

Detailed Description

The following detailed description of the preferred embodiments of the present invention is provided to enable those skilled in the art to better understand the advantages and features of the present invention, and to define the scope of the present invention more clearly.

Referring to fig. 1, which is a schematic structural diagram of a plastic product cooling device according to an embodiment of the present invention, a plastic product cooling device 10 includes: the cooling device comprises a conveying mechanism 100 and a cooling mechanism 200, wherein the cooling mechanism 200 is arranged on the conveying mechanism 100, and the conveying mechanism 100 is used for conveying products, namely the products are conveyed on the conveying mechanism 100 so as to convey the products to the cooling mechanism 200 for cooling operation; the cooling mechanism 200 is used for cooling the products conveyed on the conveying mechanism 100, that is, the cooling mechanism 200 performs a cooling function on the products conveyed on the conveying mechanism 100.

Referring to fig. 1, the conveying mechanism 100 includes a mounting frame 110 and a conveyor belt 120, the conveyor belt 120 is disposed on the mounting frame 110, a product input area 111 is disposed at a first end of the mounting frame 110, a cooling area 112 is disposed on the mounting frame 110, a product output area 113 is disposed at a second end of the mounting frame 110, the product input area 111, the cooling area 112 and the product output area 113 are sequentially connected, and the conveyor belt 120 is disposed on the product input area 111, the cooling area 112 and the product output area 113, that is, the conveyor belt 120 conveys products from the product input area 111 to the product output area 113, and the products on the conveyor belt 120 are cooled in the cooling area 112 and then conveyed to the product output area 113, so that the operation of conveying the conveying mechanism 100 for conveying the products is completed.

Referring to fig. 1 and 2, the cooling mechanism 200 includes a cooling box 210, a fan 220, an air exhaust duct 230, and an air compressor (not shown), the cooling box 210 is disposed on the mounting frame 110, and the cooling box 210 is covered above the cooling area 112, for example, the cooling box 210 is located right above the cooling area 112. A mounting opening 211 is formed in one side surface of the cooling box 210 close to the product output area 113, the fan 220 is embedded in the mounting opening 211, and the fan 220 is used for supplying air to the cooling area 112 when the product is conveyed to the cooling area 112, that is, the fan 220 blows air to the cooling area 112 to take away heat of the product entering the cooling area 112, so that the temperature of the product with heat is reduced. Referring to fig. 3, the air exhaust duct 230 is disposed in the cooling box 210, an air inlet hole 231 is disposed on the air exhaust duct 230, the air inlet hole 231 is disposed toward the cooling area 112, an air channel 212 is disposed in the cooling box 210, the air inlet hole 231 is communicated with the air channel 212, an air suction pipe 240 of the air compressor is disposed at an end of the cooling box 210 close to the product input area 111, the air suction pipe 240 of the air compressor is communicated with the air channel 212, the air compressor is configured to draw air from the cooling area 112 when the fan 220 sends air to the cooling area 112, it should be noted that when the fan 220 blows air to the product with heat in the cooling area 112, the air compressor is turned on, that is, the gas with heat blown by the fan 220 enters the air inlet hole 231 under the action of the air compressor, the air passes through the air exhaust duct 230, the air passage 212 and the air suction pipe 240 of the air compressor in sequence, and is then compressed and discharged by the air compressor, so that the heat blown out by the fan 220 can be reduced, and the heat on the product can be prevented from being blown away in an operation workshop, so that the temperature in the operation workshop is too high, and the operation of an operator is not facilitated.

In one embodiment, two air suction pipelines are arranged, the two air suction pipelines are respectively arranged in the cooling box, and the two air suction pipelines are arranged oppositely; for another example, the air suction pipeline is provided with a plurality of air inlets, and the air inlets are distributed on the air suction pipeline in a rectangular array; for another example, an arc-shaped surface is arranged on the air draft pipeline, and the air inlets are distributed on the arc-shaped surface at equal intervals.

Compared with the prior art, in the cooling of the plastic product, the product is cooled by means of the immersion of the cooling liquid, the plastic product is generally immersed in the cooling liquid directly, and after the product is cooled, the cooled product needs to be transported manually and then dried. The utility model discloses in pass through last setting of transport mechanism cooling mechanism for the whole mechanism of cooling off the product is comparatively simple and convenient, and the product just can cool off the product at the in-process of conveying promptly, and need not the manual work after the cooling and again with the operation of its drying and transport, has simplified the operation flow, has reduced manual operation, helps reducing manufacturing cost, and effectively improves production efficiency. Cooling body includes cooler bin, fan, exhaust duct and air compressor machine, the conveyer belt will have thermal product conveying to the cooling space, the cooler bin cover is established on the cooling space, through when the fan is inwards bloied the heat that the air compressor machine will blow out absorbs, and then makes the heat on the product distribute out sooner, can play better cooling effect, and can effectively reduce the whole heat in the operation workshop, help improving operating personnel's comfort level.

In one embodiment, referring to fig. 2, the cooling box 210 includes an outer frame 213 and an inner frame 214, the outer frame 213 is sleeved outside the inner frame 214, and the gas channel 212 is disposed between the outer frame 213 and the inner frame 214; the exhaust duct 230 is disposed on the inner frame 214, and the air inlet 231 is communicated with the air channel 212; the air suction pipe 240 of the air compressor is disposed at an end of the outer frame 213 close to the product input region 111, and the air suction pipe 240 of the air compressor is communicated with the air channel 212.

Further, referring to fig. 1, a product conveying channel 215 is disposed between the cooling box 210 and the conveyor belt 120, and the product conveying channel 215 is used for conveying the products from the product input area 111 to the product output area 113, so that the products are cooled when conveyed through the cooling area 112, that is, the conveyor belt 120 conveys the products in the product conveying channel 215, and then conveys the products sequentially through the product input area 111, the cooling area 112 and the product output area 113, during which the heat of the products is blown out in the cooling area 112, and then the products with heat are cooled.

In one embodiment, an included angle is formed between the air supply direction of the fan and the plane where the conveyor belt is located, and the included angle is 30-60 degrees; for another example, an included angle is formed between the central line of the fan and the plane where the conveyor belt is located, the degree of the included angle is 30 °, when the product is light in weight and low in temperature, the degree of the included angle is set to 30 °, that is, the blowing amount of the fan to the product is reduced, and the cooling of the product with light weight and low temperature is facilitated; as another example, the central line of fan with be provided with the contained angle between the plane at conveyer belt place, the number of degrees of contained angle is 60, when the quality of product is heavier and the temperature is higher, will the number of degrees of contained angle sets up to 60, promptly, the fan is to the volume of blowing of product increase to some extent, is favorable to being directed against the heavier and higher product cooling of temperature of quality. For another example, a wind shielding soft film is arranged on one side surface of the cooling box close to the product input area, and the wind shielding soft film is arranged in the cooling box, so that the reduction of the air volume blown out by the fan is facilitated, and the air volume blown out by the fan is fully utilized.

Furthermore, the cooling mechanism further comprises an induction device, the induction device is arranged at one end of the cooling box close to the product input area, and the induction device is electrically connected with the fan and the air compressor respectively, that is, when the conveyor belt conveys the product and just enters the cooling area, the induction device induces the product to enter, converts an induction signal into an electric signal and transmits the electric signal to the fan and the air compressor so as to start the fan to perform blowing operation and start the air compressor to perform hot air absorption operation.

Further, referring to fig. 1, the cooling mechanism 200 further includes a support frame 250, a first end of the support frame 250 is disposed on the mounting frame 110, and the air suction pipe 240 of the air compressor is disposed on a second end of the support frame 250, wherein the support frame 250 helps to fix the air suction pipe 240 of the air compressor.

In one embodiment, the cooling mechanism comprises a plurality of fans, a plurality of mounting ports are formed in one side surface of the cooling box, which is close to the product output area, at equal intervals, and the fans are embedded in the mounting ports in a one-to-one correspondence manner, so that the number of the fans is increased, heat dissipation on the product is accelerated, and cooling is facilitated; for another example, when the product to be cooled is less or the heat quantity to be dissipated is less, only one of the fans may be turned on, when the product to be cooled is more or the heat quantity to be dissipated is more, a plurality of the fans may be turned on, and when the requirement is stated, only one of the fans may be controlled by the sensing device, and the fan and the sensing device may be turned on manually.

firstly, the cooling mechanism 200 is arranged on the conveying mechanism 100, so that the whole mechanism for cooling the product is simple and convenient, namely the product can be cooled in the conveying process, and the product is not required to be dried and carried manually after being cooled, the operation flow is simplified, the manual operation is reduced, the production cost is reduced, and the production efficiency is effectively improved.

Secondly, cooling body 200 includes cooling box 210, fan 220, exhaust duct 230 and air compressor machine, conveyer belt 120 will have thermal product conveying to cooling area 112, cooling box 210 covers and establishes on cooling area 112, through when fan 220 inwards blows the heat that the air compressor machine will blow out absorbs, and then makes the heat on the product distribute out sooner, can play better cooling effect, and can effectively reduce the whole heat in the operation workshop, help improving operating personnel's comfort level.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims

1. A plastic product cooling device is characterized by comprising a conveying mechanism and a cooling mechanism, wherein the cooling mechanism is arranged on the conveying mechanism,

2. A plastic product cooling apparatus as set forth in claim 1 wherein a product transport path is provided between said cooling box and said conveyor for transporting product from said product input area to said product output area.

3. The plastic product cooling device of claim 2, wherein an included angle is provided between the air supply direction of the fan and the plane where the conveyor belt is located, and the included angle is 30-60 degrees;

4. The plastic product cooling device of claim 1, wherein the cooling mechanism further comprises a sensing device disposed on an end of the cooling box proximate the product input area, the sensing device being electrically connected to the fan and the air compressor, respectively.

5. The plastic product cooling device of claim 1, wherein there are two of said suction ducts, and wherein there are two of said suction ducts disposed in said cooling box, respectively, and wherein said two suction ducts are disposed in opposite directions.

6. The plastic product cooling device of claim 1 or 5, wherein the draft duct has a plurality of the air inlets formed therein, each of the air inlets being distributed in a rectangular array on the draft duct.

7. A device for cooling plastic products as claimed in claim 6, wherein said suction duct has an arcuate surface on which said air inlet holes are equally spaced.

8. The plastic product cooling device of claim 1, wherein the cooling mechanism further comprises a support bracket, wherein a first end of the support bracket is disposed on the mounting bracket, and wherein the suction duct of the air compressor is disposed on a second end of the support bracket.

9. The plastic product cooling device of claim 1, wherein the cooling tank comprises an outer frame and an inner frame, the outer frame is sleeved outside the inner frame, and the gas channel is arranged between the outer frame and the inner frame;

10. The plastic product cooling device of claim 1, wherein the cooling mechanism includes a plurality of said fans, a plurality of said mounting openings are equally spaced apart on a side of said cooling box adjacent to said product delivery area, and each of said fans is embedded in each of said mounting openings in a one-to-one correspondence.