CN110203494A - A kind of Feed Manufacturing radiator - Google Patents

Abstract

The present invention relates to a kind of Feed Manufacturing radiators, including heat dissipation tank, heat sink and connector, the inside of the heat dissipation tank is uniformly equipped with heat sink, heat sink is S-shaped plectane, and the material of heat sink and heat dissipation tank is copper, and the lower end of heat dissipation tank is equipped with connector, structure in the middle part of heat dissipation tank is identical as the structure in the middle part of heat sink, and heat dissipation tank is in cylindrical structure, heat sink middle part is uniformly provided with radiating groove along its circumferential direction, and the outboard sidewalls of heat sink are uniformly provided with radiating subassembly.The present invention can solve that radiating rate existing for natural heat dissipation is slow, be easy to cause feeding quality decline, the production cost increases, when machinery radiating, the problems such as machinery using flexible caused by machine work condition and work area limitation are more is poor, the function that feed rapid cooling may be implemented has the advantages that radiating rate is fast, restricting condition for use is few, mechanical adjustment strong flexibility and more fitting actual production use.

Description

A kind of Feed Manufacturing radiator

Technical field

The present invention relates to Feed Manufacturing field, in particular to a kind of Feed Manufacturing radiator.

Background technique

Feed is generally referred to as the food of agricultural or animal husbandry raising animal, and the production and processing of feed is usually to pass through raw material It mixes after crossing proportion, is in granular form using cal rolling, when feed just goes out rolling compaction machine, since feed temperature is excessively high, needed It to radiate to feed, there are many problems for feed heat dissipation under existence conditions:

Problem one: it using when heat dissipation, radiating rate is slow in splicing cylinder or packaging bag, and is easy because temperature is excessively high, humidity It is larger that quality is caused to decline；

Problem two: being paved using feed when radiating, and needs a large amount of human input and heat dissipation place, the production cost increases；

Problem three: when using machinery radiating, machine work condition and work area are limited, such as number of patent application is A kind of 2018207792185 high-efficiency feed radiator, needs to carry out feeding to it when in use, simultaneously as its work Make limited area, feed is extremely difficult to ideal heat dissipation effect by a free-falling, and the flexibility of machinery radiating is poor；

Problem four: above-mentioned patent 2018207792185, due to the limitation of its use condition and working range, so that it is very The needs that hardly possible fitting feed actual production uses.

For above-mentioned listed problem, under the conditions of the prior art, there are no preferable exploration and practice achievements therefore to have very much Necessity does further exploration and practice, above-mentioned listed to solve the problems, such as.

Summary of the invention

To solve the above-mentioned problems, the present invention uses following technical scheme, a kind of Feed Manufacturing radiator, including dissipates Hot tank, heat sink and connector, the inside of the heat dissipation tank are uniformly equipped with heat sink, and heat sink is S-shaped plectane, and heat sink Material with heat dissipation tank is copper, and the lower end of heat dissipation tank is equipped with connector, in the middle part of the structure and heat sink in the middle part of heat dissipation tank Structure is identical, and heat dissipation tank is in cylindrical structure.

It is uniformly provided with radiating groove along its circumferential direction in the middle part of the heat sink, the outboard sidewalls of heat sink are uniformly provided with scattered Hot component, and radiating subassembly is connected with radiating groove, the radiating subassembly of adjacent heat radiation slot lateral surface and medial surface is in interlock up and down Distribution, and the radiating subassembly inside and outside the same radiating groove is also in be interspersed up and down.

The radiating subassembly includes heat release hole, is that cylindrical hole is connected with radiating groove on the inside of heat release hole, heat release hole Outside is uniformly provided with irregular angling hole, and irregular angling hole is connected with heat release hole, and the irregular pore size that tilts is in from outer To the interior trend being gradually increased, the size on the outside of heat release hole is greater than the size on the inside of heat release hole, and the cylinder on the inside of heat release hole Through-hole is heeling condition；When work, heat sink can accelerate air flowing, acceleration dissipates feed by increasing work area Heat.

The connector includes tracheae, and the lower end of radiating groove is connected by connecting tube with tracheae, and heat dissipation tank and dissipate Hot plate has tracheae corresponding thereto, is connected by total branch pipe with general pipeline on the left of tracheae lower end, and each total branch pipe is right A tracheae is answered, is communicated with total air valve on the right side of general pipeline, and total air valve is mounted on the inner sidewall of connecting plate.

The connecting plate is mounted on the downside of heat dissipation tank by support plate, is uniformly provided on the right side of connecting plate inner sidewall Branch air valve, branch air valve are connected by branched pipe with tracheae, and each branched pipe corresponds to a tracheae, total branch pipe and branch The inner sidewall of pipe is equipped with air pressure valve, and the air pressure valve installation direction in total branch pipe and branched pipe on the contrary, in connecting plate from a left side to Right first is total air valve, other are branch air valve, and each branch air valve is corresponding with tracheae by branched pipe, is led in connecting plate It crosses the mode being slidably matched and is connected with and connect clamp fastly, connect clamp fastly and match with the size of total air valve and branch air valve (37), and is fast It connects clamp and is connected by hose with asepwirator pump；When work, connector can according to actual needs to single heat sink or Conversion is adjusted in total radiator, improves the flexibility that the radiator uses.

The beneficial effects of the present invention are:

One, the present invention is provided with heat sink, and heat dissipation tank is divided into multi-section point by heat sink, while heat sink is S-shaped plectane, The contact area of heat dissipation tank and heat sink and feed is increased effectively, that is, increases its work area；

Two, the present invention is provided with radiating subassembly, the setting of the shape, arrangement mode and irregular angling hole of radiating subassembly, Not only the work area of radiating subassembly had been increased, but also has accelerated the flow velocity of air in radiating subassembly working range, to improve heat dissipation Speed；

Three, the present invention is provided with connector, and connector can adjust entire radiator work according to the needs of use, still Single heat sink or heat dissipation tank work, using flexible are strong；

Four, feed only need to be accessed heat dissipation tank by the present invention, and heat dissipation tank storage space is big, and mountable idler wheel flexibly moves, So that the radiator is more bonded the needs that feed actual production uses.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is overall structure diagram of the invention；

Fig. 2 is the sectional view of Fig. 1 of the present invention；

Fig. 3 is the A of Fig. 2 of the present invention to partial enlargement diagram；

Fig. 4 is bottom view of the invention.

Specific embodiment

Below with reference to the accompanying drawings the embodiment of the present invention is illustrated.In the process, for ensure illustrate definition and Convenience, we may the width to lines in diagram or constituent element the mark exaggerated of size.

In addition, term hereinafter is defined based on the function in the present invention, it can be according to the intention of user, fortune user Or convention and difference.Therefore, these terms are defined based on the full content of this specification.

As shown in Figures 1 to 4, a kind of Feed Manufacturing radiator, including heat dissipation tank 1, heat sink 2 and connector 3, institute The inside for stating heat dissipation tank 1 is uniformly equipped with heat sink 2, and heat sink 2 is S-shaped plectane, and the material of heat sink 2 and heat dissipation tank 1 is equal For copper, the lower end of heat dissipation tank 1 is equipped with connector 3, and the structure at 1 middle part of heat dissipation tank is identical as the structure at 2 middle part of heat sink, and dissipates Hot tank 1 is in cylindrical structure.

2 middle part of heat sink is uniformly provided with radiating groove 21 along its circumferential direction, and the outboard sidewalls of heat sink 2 are uniformly set There is radiating subassembly 22, and radiating subassembly 22 is connected with radiating groove 21, the heat dissipation group of 21 lateral surface of adjacent heat radiation slot and medial surface Part 22 is in be interspersed up and down, and the radiating subassembly 22 inside and outside the same radiating groove 21 is also in be interspersed up and down.

The radiating subassembly 22 includes heat release hole 22-1, is cylindrical hole and 21 phase of radiating groove on the inside of heat release hole 22-1 Connection, the outside heat release hole 22-1 are uniformly provided with irregular angling hole 22-2, and irregular angling hole 22-2 and heat release hole 22-1 phase Connection, irregular angling hole 22-2 size are in the trend being gradually increased from outside to inside, and the size on the outside of heat release hole 22-1, which is greater than, to be dissipated Size on the inside of hot hole 22-1, and the cylindrical hole on the inside of heat release hole 22-1 is heeling condition；When work, asepwirator pump passes through company Fitting 3 drives air flowing in radiating groove 21, due to the S-shaped plectane of heat sink 2, in radiating subassembly 22 on the outside of heat release hole 22-1 Size is larger, and radiating subassembly 22 is interspersed, and so as to increase radiating subassembly 22 to the work area of feed, accelerates to feeding The heat dissipation of material, secondly as irregular angling hole 22-2 size is in the trend being gradually increased from outside to inside, so as to accelerate to dissipate The flow velocity of air, further speeds up the heat dissipation to feed in hot 22 working range of component.

The connector 3 includes tracheae 31, and the lower end of radiating groove 21 is connected by connecting tube with tracheae 31, and is radiated Case 1 and heat sink 2 have tracheae 31 corresponding thereto, are connected by total branch pipe 32 with general pipeline 33 on the left of 31 lower end of tracheae, and Each total branch pipe 32 corresponds to a tracheae 31, is communicated with total air valve 34 on the right side of general pipeline 33, and total air valve 34 is mounted on connection The inner sidewall of plate 35.

The connecting plate 35 is mounted on the downside of heat dissipation tank 1, the right side of 35 inner sidewall of connecting plate by support plate 36 It is uniformly provided with branch air valve 37, branch air valve 37 is connected by branched pipe 38 with tracheae 31, and each branched pipe 38 corresponding one The inner sidewall of a tracheae 31, total branch pipe 32 and branched pipe 38 is equipped with air pressure valve, and total branch pipe 32 and the air pressure in branched pipe 38 Valve installation direction on the contrary, in connecting plate 35 from left to right first be total air valve 34, other are branch air valve 37, and each branch gas Valve 37 is corresponding with tracheae 31 by branched pipe 38, is connected with by way of being slidably matched in connecting plate 35 and connects clamp 39 fastly, Clamp 39 is connect fastly to match with the size of total air valve 34 and branch air valve 37, and is connect clamp 39 fastly and be connected by hose with asepwirator pump It is logical；When work, under the action of air pressure valve, smooth heat dissipation of the asepwirator pump to feed has been ensured, since heat dissipation tank 1 is in cylindrical drum, Feed radiating rate inside heat dissipation tank 1 will necessarily be slower than the feed radiating rate of periphery, when the feed cooling of 1 periphery of heat dissipation tank To after suitable temperature, it can be worked by adjusting single heat sink 2, that is, slide and connect clamp 39 and the card of branch air valve 37 fastly It connects, at this point, asepwirator pump drives single heat sink 2 to work, the flowing velocity of 2 inner air of heat sink can be accelerated, thus further The speed air flow in 22 working range of radiating subassembly is accelerated, is achieved the purpose that feed rapid cooling, using same Work is adjusted to other single heat sinks 2 in method, can be according to actually making so that the radiator using flexible is stronger Conversion is adjusted in the needs of used time.

Increase work area: asepwirator pump drives air flowing in radiating groove 21 by connector 3, since heat sink 2 is S-shaped Plectane, the size in radiating subassembly 22 on the outside of heat release hole 22-1 is larger, and radiating subassembly 22 is interspersed, scattered so as to increase Hot component 22 accelerates the heat dissipation to feed to the work area of feed；

Accelerate air flowing: since irregular angling hole 22-2 size is in the trend being gradually increased from outside to inside, so as to The flow velocity for enough accelerating air in 22 working range of radiating subassembly, further speeds up the heat dissipation to feed；

It adjusts reason: under the action of air pressure valve, smooth heat dissipation of the asepwirator pump to feed has been ensured, since heat dissipation tank 1 is in Cylindrical drum, the feed radiating rate inside heat dissipation tank 1 will necessarily be slower than the feed radiating rate of periphery, when 1 periphery of heat dissipation tank After feed cools to suitable temperature, it can be worked by adjusting single heat sink 2；

Regulating step: sliding connects clamp 39 fastly and branch air valve 37 is clamped, at this point, asepwirator pump drives single heat sink 2 to work, It can accelerate the flowing velocity of 2 inner air of heat sink, to further speed up the air stream in 22 working range of radiating subassembly Dynamic speed, achievees the purpose that feed rapid cooling；

Overall flexibility: work is adjusted to other single heat sinks 2 using same method, so that the radiator Using flexible is stronger, conversion can be adjusted according to needs in actual use.

Workflow in summary realizes the function of feed rapid cooling, solves the existing heat dissipation speed of natural heat dissipation Degree is slow, be easy to cause feeding quality decline, the production cost increases, when machinery radiating, machine work condition and work area limitation The problems such as machinery using flexible caused by more is poor, has reached purpose.

The embodiment that the present invention only refers to drawing illustration is illustrated, it is believed that has related fields basic The personnel of knowledge can carry out the other embodiments of diversified deformation and peer-level based on this.

Claims (8)

1. a kind of Feed Manufacturing radiator, including heat dissipation tank (1), heat sink (2) and connector (3), it is characterised in that: institute The inside for stating heat dissipation tank (1) is uniformly equipped with heat sink (2), and the lower end of heat dissipation tank (1) is equipped with connector (3)；Wherein:

It is uniformly provided with radiating groove (21) in the middle part of the heat sink (2) along its circumferential direction, the outboard sidewalls of heat sink (2) are uniform Equipped with radiating subassembly (22), and radiating subassembly (22) is connected with radiating groove (21)；

The radiating subassembly (22) includes heat release hole (22-1), is cylindrical hole and radiating groove on the inside of heat release hole (22-1) (21) be connected, be uniformly provided with irregular angling hole (22-2) on the outside of heat release hole (22-1), and irregular angling hole (22-2) with Heat release hole (22-1) is connected, and the size on the outside of heat release hole (22-1) is greater than the size on the inside of heat release hole (22-1), and heat release hole Cylindrical hole on the inside of (22-1) is heeling condition；

The connector (3) includes tracheae (31), and the lower end of radiating groove (21) is connected by connecting tube with tracheae (31), and Heat dissipation tank (1) and heat sink (2) have tracheae (31) corresponding thereto, by total branch pipe (32) and total on the left of tracheae (31) lower end Pipe (33) is connected, and each total branch pipe (32) corresponds to a tracheae (31), is communicated with total air valve on the right side of general pipeline (33) (34), and total air valve (34) is mounted on the inner sidewalls of connecting plate (35)；

The connecting plate (35) is mounted on the downside of heat dissipation tank (1) by support plate (36), connecting plate (35) inner sidewall Right side is uniformly provided with branch air valve (37), and branch air valve (37) is connected by branched pipe (38) with tracheae (31), and each branch It manages (38) and all corresponds to a tracheae (31).

2. a kind of Feed Manufacturing radiator according to claim 1, it is characterised in that: the adjacent heat radiation slot (21) The radiating subassembly (22) of lateral surface and medial surface in being interspersed up and down, and the heat dissipation group inside and outside the same radiating groove (21) Part (22) is also in be interspersed up and down.

3. a kind of Feed Manufacturing radiator according to claim 1, it is characterised in that: in the connecting plate (35) It is connected with by way of being slidably matched and connects clamp (39) fastly, connect the ruler of clamp (39) Yu total air valve (34) and branch air valve (37) fastly It is very little to match, and connect clamp (39) fastly and be connected by hose with asepwirator pump.

4. a kind of Feed Manufacturing radiator according to claim 1, it is characterised in that: in the connecting plate (35) from Left-to-right first be total air valve (34), other be branch air valve (37), and each branch air valve (37) by branched pipe (38) with Tracheae (31) is corresponding.

5. a kind of Feed Manufacturing radiator according to claim 1, it is characterised in that: total branch pipe (32) with The inner sidewall of branched pipe (38) is equipped with air pressure valve, and total branch pipe (32) and the air pressure valve installation direction phase in branched pipe (38) Instead.

6. a kind of Feed Manufacturing radiator according to claim 1, it is characterised in that: in the middle part of the heat dissipation tank (1) Structure it is identical as the structure in the middle part of heat sink (2), and heat dissipation tank (1) be in cylindrical structure.

7. a kind of Feed Manufacturing radiator according to claim 1, it is characterised in that: the heat sink (2) is S Shape plectane, and the material of heat sink (2) and heat dissipation tank (1) is copper.

8. a kind of Feed Manufacturing radiator according to claim 1, it is characterised in that: the irregular angling hole (22-2) size is in the trend being gradually increased from outside to inside.