SU1721291A1 - Positive-displacement pneumatic and hydraulic pump - Google Patents

Abstract

The invention allows to expand the field of application and reduce the dimensions of a volumetric pneumatic-hydraulic drive pump. In case 1, which has rigid walls, there is a movable end wall 2. The discharge and suction pipes 3 and 4 have corresponding valves 5 and 6 located on the fixed wall 9, the working cavity is formed by bellows 8 and walls 2 and 9. Concentric to bellows 8 is installed bellows 10 to form an airtight cavity 11 between them. The drive cavity 12 is also sealed and partially filled with an easily evaporating liquid 13 and its gas or gas and its sorbent. It is advisable to use the pump for an automatic water lift, where there are significant fluctuations in air flow during the day. 2 Il.

Description

The invention relates to pumping engineering and relates to pumps in which the conversion of the energy of a change in ambient temperature over time into the mechanical energy of a water rise can be used.

The purpose of the invention is to expand the scope and reduce the size of the pump.

Figure 1 shows the pump when sucking pumped liquid, a longitudinal section; figure 2 - the same, when forcing.

Volumetric pneumohydraulic pump contains placed in case 1, having rigid walls, movable end wall 2, pressure 3 and suction pipe 4 with corresponding valves 5 and 6. Working cavity 7 is formed by bellows 8, movable end wall 2 and wall 9 of case 1. Concentric to the bellows 8 is installed bellows TO with the formation between them a sealed cavity 11. The drive cavity 12 is also performed

sealed and partially filled with volatile liquid 13 and its gas or gas and its sorbent.

The rigid walls of the housing 1 are not common with the cavity 7 and the cavity 11 are heat-conducting.

Volumetric wave pump works as follows.

When the temperature of the medium in which the pump is located, for example air, decreases, heat from liquid 13 is removed through the walls of housing 1 to the external environment and its temperature decreases. As the temperature of the liquid 13 decreases, for example liquid ammonia or ammonia gas and water, filling the housing. 1, the gas pressure in it decreases. As a result, under the pressure of the gas in the cavity 11, with an increase in its volume, the volume of the working cavity 7 increases, the valve 6 opens and the pumped liquid flows from the pipe 4 into the cavity 7. At the same time, the valve 6 under the pressure of the liquid in the injection

four

hO

l

ho Oh

the pipeline 3 is closed and blocks its leakage from the pipeline 3 into the cavity 7.

When the air temperature increases, for example, to the temperature at which the liquid 13 is heated through the walls of the housing 1. the pressure in cavity 12 increases. Under the action of this pressure, the cavity 11 is compressed, the gas in it is respectively compressed, the working cavity 7 is simultaneously compressed, the pumped liquid through valve 5 with the valve b closed is pushed out into the pipeline 3 and is supplied to the consumer. With a periodic change in time of air temperature, the described processes repeat.

In this case, the balance for equilibrium conditions

Рз (Ы2) Р1Й 1 + Р20 2,0)

where (01 is the area of the movable wall of the working cavity 7;

(ui is the area of the movable wall of the cavity 11;

Pi is the pressure in the working cavity 7;

Ra - pressure in the cavity 11;

Рз - pressure in the cavity 12.

The proposed pump is advisable to use for an automatic water lift, where significant fluctuations in air temperature are observed during periods of day and night.

Claims (1)

Claims of the invention A volumetric pneumohydraulic pump comprising a movable end wall housed in a housing with rigid walls, pressure and suction pipes with corresponding valves located on the fixed wall of the housing and mounted on the movable end wall and the fixed wall of the housing concentrically mounted bellows forming inside and between them, hermetic cavities, and a drive cavity filled with a drive body, characterized in that, in order to expand domain application and reduce the size, the housing wall formed thermally conductive and form a sealed cavity filled legkoispa p decoupling its gas and liquid or gas and the sorbent, AND # Fig1 13 2