CN106017179A - Work method for hydraulic heat exchange system with impact-resistance energy accumulation radiator - Google Patents

Abstract

The invention relates to a work method for a hydraulic heat exchange system with an impact-resistance energy accumulation radiator. The work method is characterized in that the hydraulic heat exchange system with the impact-resistance energy accumulation radiator comprises an equipment heating source, a radiator and a liquid storage box of which oil ways are connected cyclically in series; a radiating draught fan is arranged on one side of the radiator which is the impact-resistance energy accumulation radiator; the radiator comprises a radiator body and an energy accumulation pipe; the radiator body comprises a first liquid collecting groove and a second liquid collecting groove which are vertically arranged in the left-right direction; multiple branch liquid flowing grooves which are transversely arranged are connected between the first liquid collecting groove and the second liquid collecting groove; the energy accumulation pipe is of a pipe type structure with the bottom opened and the rest part closed; and an opening in the bottom of the energy accumulation pipe communicates with the first liquid collecting groove and the second liquid collecting groove. The work method has the beneficial effects that reliability is high, damage is not likely to happen, and the stable running of the system is ensured.

Description

The method of work of the hydraulic pressure heat-exchange system with protecting against shock accumulation of energy radiator

Technical field

The present invention relates to the method for work of the hydraulic pressure heat-exchange system of a kind of band protecting against shock accumulation of energy radiator.

Background technology

It is known that oil temperature in hydraulic system optimum temperature is between 35 ~ 55 degrees Celsius, once temperature increases to over 60 degrees Celsius, the system of hydraulic system will significantly decline, and equipment fault constantly occurs, cause the stability degradation of equipment, it is impossible to ensure that machinery equipment is properly functioning.Season the most in full summer, high oil temperature, even can cause machinery equipment to be usually in stopped status.

Therefore the stability of hydraulic pressure heat-exchange system directly influences the duty of machinery equipment, when fluid pressure is excessive in traditional hydraulic pressure heat-exchange system, directly results in heat exchanger that pressure is excessive causes damage to radiator.General radiator is the capacity having a fixed proportion at the collecting tank of radiator, and fluid has the biggest resistance by radiator heat-dissipation channel interior.Its liquid storage amount is less, not buffering, running into the temperature difference is big, low temperature environment, flow uneven, have certain viscosity liquid, under the fluid situations that has impulsive force, the pressure of radiator heat-dissipation channel interior increases the most therewith, especially in the case of having impulsive force and the bigger fluid of ratio of viscosities, owing to fluid is at the resistance of channel interior, make fluid can not run through inside radiator passage, being allowed to pressure increase, exceed the highest operating pressure of radiator, radiator is easy to damage, scrap.

Summary of the invention

It is an object of the invention to overcome above-mentioned deficiency, it is provided that a kind of reliability is high, is hardly damaged, it is ensured that the method for work of the hydraulic pressure heat-exchange system of the band protecting against shock accumulation of energy radiator of system stable operation.

The object of the present invention is achieved like this:

A kind of method of work of the hydraulic pressure heat-exchange system of band protecting against shock accumulation of energy radiator, it is characterized in that the hydraulic pressure heat-exchange system of band protecting against shock accumulation of energy radiator includes the equipment heating source that oil circulation is connected, radiator and reserving liquid tank, the side of described radiator is provided with cooling fan, described radiator is protecting against shock accumulation of energy radiator, described radiator includes radiator body and accumulation of energy pipe, described radiator body includes the first collecting tank of being vertically arranged of left and right and the second collecting tank, the many shunting liquid baths having lateral arrangement are connected between first collecting tank and the second collecting tank, described accumulation of energy pipe is the tubular structure that bottom opening remainder is closed, the bottom opening of accumulation of energy pipe and the first collecting tank and the second collecting tank connect；

Equipment heating source initial operating stage, temperature of liquid is relatively low, cooling fan does not starts, liquid is entered in the first collecting tank of protecting against shock accumulation of energy radiator by inlet, the shunting liquid bath internal resistance of protecting against shock accumulation of energy radiator is less under normal circumstances or non-resistance, then, in liquid is introduced into the first collecting tank, then dispelling the heat during shunting liquid bath, enter back into the second collecting tank, finally leave protecting against shock accumulation of energy radiator from liquid outlet；When the shunting liquid bath internal resistance of protecting against shock accumulation of energy radiator is bigger, owing to the pressure in now accumulation of energy pipe is less, enter in accumulation of energy pipe with regard to some liquid, along with liquid is in the rising of accumulation of energy intraluminal fluid position, air in compress energy storage pipe, pressure in accumulation of energy pipe is also raised, pressure in final accumulation of energy pipe reaches equal with the pressure at inlet, now the liquid velocity at inlet slows down, pressure at inlet reduces the most therewith, along with the pressure at inlet reduces, enter the liquid in accumulation of energy pipe owing to pressure is higher than at inlet, return in the first collecting tank, then dispelling the heat during shunting liquid bath, enter back into the second collecting tank, finally leave protecting against shock accumulation of energy radiator from liquid outlet；

After a period of time is run in equipment heating source, temperature sensor detects that temperature is higher than 60 degrees Celsius and then starts cooling fan.

The bottom side of described first collecting tank and the second collecting tank is provided with sewage draining exit.

One, when accumulation of energy pipe is built-in:

When the inlet of protecting against shock accumulation of energy radiator and liquid outlet are positioned at the top of the first collecting tank and the second collecting tank, accumulation of energy pipe is installed on the first collecting tank and the inside of the second collecting tank；

When the inlet of protecting against shock accumulation of energy radiator and liquid outlet are positioned at the side of the first collecting tank and the second collecting tank, accumulation of energy pipe is installed on the first collecting tank and the inside of the second collecting tank, if the height of accumulation of energy pipe is higher than inlet and the height of liquid outlet, then without doing other process, if the height of accumulation of energy pipe is less than inlet and the height of liquid outlet, then the top at accumulation of energy pipe installs distributing damper additional, and the shunting liquid bath of corresponding to inlet and liquid outlet height and position is separated by distributing damper；

Two, when accumulation of energy pipe is external:

The connector of the bottom opening of accumulation of energy pipe and the bottom side of the first collecting tank and the second collecting tank is threaded, and the top of described accumulation of energy pipe is fixing with the installation limit employing bolt of the first collecting tank and the top side of the second collecting tank to be connected.

Compared with prior art, the invention has the beneficial effects as follows:

It is high that the present invention has reliability, is hardly damaged, it is ensured that the advantage of system stable operation.

Accompanying drawing explanation

Fig. 1 is the front view of the embodiment one of radiator.

Fig. 2 is the side view of the embodiment one of radiator.

Fig. 3 is the explosive view of Fig. 2.

Fig. 4 is the three-dimensional semi-cutaway of the embodiment one of radiator.

Fig. 5 is the first collecting tank schematic internal view of the embodiment one of radiator.

Fig. 6 is the front view of the embodiment two of radiator.

Fig. 7 is the side view of the embodiment two of radiator.

Fig. 8 is the explosive view of Fig. 6.

Fig. 9 is the three-dimensional semi-cutaway of the embodiment two of radiator.

Figure 10 is the first collecting tank schematic internal view of the embodiment two of radiator.

Figure 11 is the front view of the embodiment three of radiator.

Figure 12 is the side view of the embodiment three of radiator.

Figure 13 is the explosive view of Figure 12.

Figure 14 is the three-dimensional semi-cutaway of the embodiment three of radiator.

Figure 15 is the first collecting tank schematic internal view of the embodiment three of radiator.

Figure 16 is the front view of the embodiment four of radiator.

Figure 17 is the side view of the embodiment four of radiator.

Figure 18 is the explosive view of Figure 16.

Figure 19 is the three-dimensional semi-cutaway of the embodiment four of radiator.

Figure 20 is the first collecting tank schematic internal view of the embodiment four of radiator.

Figure 21 is the structural representation of the present invention.

Wherein:

Equipment heating source 1

Reserving liquid tank 2

Radiator 5, accumulation of energy pipe the 500, first collecting tank the 501, second collecting tank 502, shunting liquid bath 503, sewage draining exit 504, sewage draining exit bolt 505, sewage draining exit sealing gasket 506, distributing damper 507

Cooling fan 9.

Detailed description of the invention

Seeing Fig. 1 ~ Figure 21, the hydraulic pressure heat-exchange system of a kind of band protecting against shock accumulation of energy radiator that the present invention relates to, it includes equipment heating source 1, radiator 5 and the reserving liquid tank 2 that oil circulation is connected, and the side of described radiator 5 is provided with cooling fan 9.On oil circuit or on reserving liquid tank 2, temperature sensor is set.

Described radiator 5 is protecting against shock accumulation of energy radiator, described radiator 5 includes radiator body and accumulation of energy pipe 500, described radiator body includes the first collecting tank 501 and the second collecting tank 502 that left and right is vertically arranged, the many shunting liquid baths 503 having lateral arrangement are connected between first collecting tank 501 and the second collecting tank 502, the tubular structure that described accumulation of energy pipe 500 is closed for bottom opening remainder, the bottom opening of accumulation of energy pipe 500 and the first collecting tank 501 and the second collecting tank 502 connect, the bottom side of described first collecting tank 501 and the second collecting tank 502 is provided with sewage draining exit 504, sewage draining exit bolt 505 and sewage draining exit sealing gasket 506 is used to block when sewage draining exit 504 does not uses.

Embodiment one,

Accumulation of energy pipe is built-in, and when the inlet of protecting against shock accumulation of energy radiator and liquid outlet are positioned at the top of the first collecting tank 501 and the second collecting tank 502, accumulation of energy pipe 500 is installed on the first collecting tank 501 and inside of the second collecting tank 502.

Embodiment two,

Accumulation of energy pipe is built-in, when the inlet of protecting against shock accumulation of energy radiator and liquid outlet are positioned at the side of the first collecting tank 501 and the second collecting tank 502, accumulation of energy pipe 500 is installed on the first collecting tank 501 and inside of the second collecting tank 502, if the height of accumulation of energy pipe 500 is higher than inlet and the height of liquid outlet, then without doing other process, if the height of accumulation of energy pipe 500 is less than inlet and the height of liquid outlet, then need to install distributing damper 507 additional at the top of accumulation of energy pipe 500, the shunting liquid bath 503 of corresponding to inlet and liquid outlet height and position is separated by distributing damper 507, the directly impact avoiding liquid enters shunting liquid bath 503.

Embodiment three,

Accumulation of energy pipe is external, and the inlet of protecting against shock accumulation of energy radiator and liquid outlet are positioned at the first collecting tank 501 and top of the second collecting tank 502.The connector of the bottom opening of described accumulation of energy pipe 500 and the bottom side of the first collecting tank 501 and the second collecting tank 502 is threaded, the top of described accumulation of energy pipe 500 is fixing with the installation limit employing bolt of the first collecting tank 501 and the top side of the second collecting tank 502 to be connected, it is simple to dismounting.Owing to the accumulation of energy pipe 500 of protecting against shock accumulation of energy radiator is arranged at the first collecting tank 501 and outside of the second collecting tank 502 so that different capabilities, various different accumulation of energy pipe can be selected by fluid flow and the difference of impulsive force.

Embodiment four,

Accumulation of energy pipe is external, and the inlet of protecting against shock accumulation of energy radiator and liquid outlet are positioned at the first collecting tank 501 and side of the second collecting tank 502.

A kind of method of work of the hydraulic pressure heat-exchange system of band protecting against shock accumulation of energy radiator:

Equipment heating source initial operating stage, temperature of liquid is relatively low, cooling fan does not starts, liquid is entered in the first collecting tank of protecting against shock accumulation of energy radiator by inlet, the shunting liquid bath internal resistance of protecting against shock accumulation of energy radiator is less under normal circumstances or non-resistance, then, in liquid is introduced into the first collecting tank, then dispelling the heat during shunting liquid bath, enter back into the second collecting tank, finally leave protecting against shock accumulation of energy radiator from liquid outlet；When the shunting liquid bath internal resistance of protecting against shock accumulation of energy radiator is bigger, owing to the pressure in now accumulation of energy pipe is less, enter in accumulation of energy pipe with regard to some liquid, along with liquid is in the rising of accumulation of energy intraluminal fluid position, air in compress energy storage pipe, pressure in accumulation of energy pipe is also raised, pressure in final accumulation of energy pipe reaches equal with the pressure at inlet, now the liquid velocity at inlet slows down, pressure at inlet reduces the most therewith, along with the pressure at inlet reduces, enter the liquid in accumulation of energy pipe owing to pressure is higher than at inlet, return in the first collecting tank, then dispelling the heat during shunting liquid bath, enter back into the second collecting tank, finally leave protecting against shock accumulation of energy radiator from liquid outlet.

Because the mobility of air is good, substantially not having hysteresis quality, in protecting against shock accumulation of energy radiator, air runs into the moment of impulsive force, the most immediately compression and action, and this action completed in moment, will not have hysteresis quality and use fatigue as mechanical damping.

After a period of time is run in equipment heating source, temperature sensor detects that temperature is higher than 60 degrees Celsius and then starts cooling fan.

Claims (3)

1. the method for work of the hydraulic pressure heat-exchange system of a band protecting against shock accumulation of energy radiator, it is characterized in that the hydraulic pressure heat-exchange system of band protecting against shock accumulation of energy radiator includes the equipment heating source that oil circulation is connected, radiator and reserving liquid tank, the side of described radiator is provided with cooling fan, described radiator is protecting against shock accumulation of energy radiator, described radiator includes radiator body and accumulation of energy pipe, described radiator body includes the first collecting tank of being vertically arranged of left and right and the second collecting tank, the many shunting liquid baths having lateral arrangement are connected between first collecting tank and the second collecting tank, described accumulation of energy pipe is the tubular structure that bottom opening remainder is closed, the bottom opening of accumulation of energy pipe and the first collecting tank and the second collecting tank connect；

Equipment heating source initial operating stage, temperature of liquid is relatively low, cooling fan does not starts, liquid is entered in the first collecting tank of protecting against shock accumulation of energy radiator by inlet, the shunting liquid bath internal resistance of protecting against shock accumulation of energy radiator is less under normal circumstances or non-resistance, then, in liquid is introduced into the first collecting tank, then dispelling the heat during shunting liquid bath, enter back into the second collecting tank, finally leave protecting against shock accumulation of energy radiator from liquid outlet；When the shunting liquid bath internal resistance of protecting against shock accumulation of energy radiator is bigger, owing to the pressure in now accumulation of energy pipe is less, enter in accumulation of energy pipe with regard to some liquid, along with liquid is in the rising of accumulation of energy intraluminal fluid position, air in compress energy storage pipe, pressure in accumulation of energy pipe is also raised, pressure in final accumulation of energy pipe reaches equal with the pressure at inlet, now the liquid velocity at inlet slows down, pressure at inlet reduces the most therewith, along with the pressure at inlet reduces, enter the liquid in accumulation of energy pipe owing to pressure is higher than at inlet, return in the first collecting tank, then dispelling the heat during shunting liquid bath, enter back into the second collecting tank, finally leave protecting against shock accumulation of energy radiator from liquid outlet；

After a period of time is run in equipment heating source, temperature sensor detects that temperature is higher than 60 degrees Celsius and then starts cooling fan.

The method of work of the hydraulic pressure heat-exchange system of a kind of band protecting against shock accumulation of energy radiator the most according to claim 1, it is characterised in that the bottom side of described first collecting tank and the second collecting tank is provided with sewage draining exit.

The method of work of the hydraulic pressure heat-exchange system of a kind of band protecting against shock accumulation of energy radiator the most according to claim 1, it is characterised in that:

One, when accumulation of energy pipe is built-in:

When the inlet of protecting against shock accumulation of energy radiator and liquid outlet are positioned at the top of the first collecting tank and the second collecting tank, accumulation of energy pipe is installed on the first collecting tank and the inside of the second collecting tank；

When the inlet of protecting against shock accumulation of energy radiator and liquid outlet are positioned at the side of the first collecting tank and the second collecting tank, accumulation of energy pipe is installed on the first collecting tank and the inside of the second collecting tank, if the height of accumulation of energy pipe is higher than inlet and the height of liquid outlet, then without doing other process, if the height of accumulation of energy pipe is less than inlet and the height of liquid outlet, then the top at accumulation of energy pipe installs distributing damper additional, and the shunting liquid bath of corresponding to inlet and liquid outlet height and position is separated by distributing damper；

Two, when accumulation of energy pipe is external:

The connector of the bottom opening of accumulation of energy pipe and the bottom side of the first collecting tank and the second collecting tank is threaded, and the top of described accumulation of energy pipe is fixing with the installation limit employing bolt of the first collecting tank and the top side of the second collecting tank to be connected.