Washing machine with a low number of nozzles

Abstract

A washing machine (1) for washing animal cages and/or other equipment or accessories used in animal facilities and/or in research laboratories, comprising a washing chamber (2); a plurality of rods (3) arranged inside the washing chamber (2) and designed for spraying a fluid on a load to be washed, each rod (3) comprising a plurality of nozzles (4) for the inlet of said fluid in said washing chamber (2); pumping means associated with the rods (3) to feed the fluid to the nozzles (4); the machine 1 comprises a maximum of six of such rods (3).

Claims

1. A washing machine for washing animal cages or other equipment or laboratory accessories comprising: a washing chamber having an internal volume of at least six cubic meters; two arrays of three rods arranged inside the washing chamber on opposing sidewalls of the washing chamber and positioned to spray a fluid on a load to be washed located in the washing chamber, each of the rods having a respective axis of major extension defining a longitudinal direction around which each of the rods is rotatable, wherein each of the rods comprises: a plurality of nozzles for the inlet of the fluid in the washing chamber; and a pumping apparatus associated with each of the rods to feed the fluid to the plurality of nozzles; and a movement device for each of the two arrays of three rods, the movement device configured to rotate each of the rods about the respective major extension axis, wherein the movement device comprises: a linear actuator adapted to be reciprocated along an operating direction perpendicular to the longitudinal direction defined by the respective major extension axis of each of the rods and lying in a plane parallel to the sidewall; and a cylinder affixed to the washing chamber and comprising a stem that crosses a wall of the washing chamber perpendicular to the side wall the three rods are disposed on and is connected at one end to a corresponding end of the linear actuator, wherein the stem defines the operating direction of the linear actuator, wherein the movement device further comprises three transmission elements each operatively associated with the linear actuator and a respective rod, wherein each transmission element comprises a first arm, transversally arranged with respect to the respective rod and having a first end and a second end, the first arm being coupled with the respective rod at the first end of the first arm and defining a hinge at the second end of the first arm, and wherein each of the transmission elements further comprises a second arm having a first end and a second end, the second arm being coupled with the linear actuator at the first end of the second arm and with the hinge at the second end of the second arm.

2. The washing machine according to claim 1, wherein each of the rods is rotatable about the major extension axis according to an arc having a width between 100 and 180.

3. The washing machine according to claim 2, wherein the width of the arc is 120.

4. The washing machine according to claim 1, wherein each of the three rods in the two arrays of rods are disposed in a horizontal arrangement within the washing chamber with each of the three rods located parallel to each other in the arrays.

5. The washing machine according to claim 1, wherein each of the three rods in the two arrays of rods are disposed in a vertical arrangement within the washing chamber with each of the three rods located parallel to each other in the arrays.

6. The washing machine according to claim 1, wherein the plurality of nozzles are configured to expel the fluid at least at a pressure of 2.5 bar.

7. The washing machine according to claim 1, wherein each nozzle of the plurality of nozzles is of the flat-jet cone type having an opening angle of 60.

8. The washing machine according to claim 1, wherein each nozzle of the plurality of nozzles has a flow rate of at least 17.85 liters per minute.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Further features and advantages of the present invention will be more apparent in the following indicative and consequently non-limitative description of a preferred, but not exclusive, embodiment example of a washing machine for laboratory equipment as shown in the accompanying drawings, in which:

(2) FIG. 1 is a perspective view of a washing machine according to the present invention with some parts removed to show others better;

(3) FIGS. 2 and 3 are perspective views of respective parts of the machine in FIG. 1.

DETAILED DESCRIPTION

(4) With reference to FIGS. 1-3, reference numeral 1 indicates a washing machine for washing laboratory equipment or accessories according to the present invention. The machine 1 comprises a washing chamber 2. As shown in particular in FIG. 1, the washing chamber 2 defines an internal volume adapted to house the load to be washed, such a volume is approximately 6-8 cubic meters.

(5) More in detail, the chamber 2 defines a quadrangular internal volume and is defined by four side walls 2a, a floor 2b and a roof 2c opposite to the floor 2b. The chamber 2 is provided to house the racks supporting the load to be washed (not shown), hereinafter named load. Such a load, during the operation of the machine 1, is firstly sprayed with a washing fluid and, during a later step, with a rinsing fluid. The washing and rinsing fluids are known in themselves, and therefore will not be described further in the present description.

(6) A collecting vessel (not shown) is placed under the floor 2b of the chamber 2, so as to collect the fluids let out from the chamber itself which fall onto the floor. Openings (not shown) in the floor 2b allow the mentioned fluids to go from the chamber 2 to the vessel.

(7) The machine 1 further comprises one or more tanks for preparing the washing water (not shown). Such tanks are connected to the washing chamber 2 by pipes (also not shown) provided with centrifuge pumps for hydraulic movement.

(8) More in detail, the machine 1 comprises a plurality of rods 3 placed within the washing chamber 2. In particular, the rods 3 are configured for spraying washing fluid and/or rinsing fluid on the load. Such rods 3 each comprise a plurality of nozzles 4 capable of spraying water onto the load to wash it.

(9) The function of the nozzles 4 is to let washing fluid and/or rinsing fluid into the chamber 2. Preferably, the function of some nozzles 4 is to spray the washing fluid into the chamber 2 directly onto the load, while the function of others is to spray the rinsing fluid. According to one embodiment of the present invention, each rod 3 comprises at least fourteen washing nozzles 4.

(10) In detail, again in the machine configuration illustrated here by way of non-limitative example of the present invention, the washing nozzles 4 expel the fluid at least at a pressure of 2.5 bar. In one embodiment, such nozzles 4 are of the flat jet cone jet type with opening angle of at least 60.

(11) Advantageously, providing a fewer washing nozzles 4 in total with an oversized nozzle with respect to the prior art improves the TTI (Theoretical Total Impact, which is an index of washing efficiency of the machine 1) by nearly 50%.

(12) To provide some numeric data, the fluid flow rate for each nozzle 4 on the machine according to the present invention is equal to 17.85 l/min, the pump specifications being equal with respect to a machine with eight rods of the type known in the prior art, which had a flow rate of 11.7 l/min for each nozzle.

(13) It is apparent that a higher flow rate ultimately translates into a higher force impact of the fluid on the load to be washed.

(14) As shown, for example in FIG. 1, the machine 1 comprises six rods 3 of the type described above. Such rods 3 are preferably arranged on two of the side walls 2a opposite to each other. In other words, the machine 1 comprises two arrays 10 of rods 3. Each array 10 comprises three respective rods 3, each array 10 being placed on a respective side wall 2a of the chamber 2.

(15) It is worth noting that the rods 3 are arranged horizontally and parallel to each other in the embodiment shown in the accompanying figures. In an alternative embodiment (not shown), the rods 3 can be arranged vertically, again parallel to each other.

(16) Pumping means (not shown) are associated with the rods 3 so as to feed the fluids to the nozzles 4. By way of example, such pumping means may comprise a 5.5 kW centrifuge pump. The pumping means will not be described further because they are known in themselves to a person skilled in art.

(17) With reference in particular to FIG. 1, each rod 3 has a major development axis A. Furthermore, each rod 3 can rotate about the major development axis A to vary the direction of the jet at the outlet of the nozzle 4, so as to strike all of the load. In particular, the rod 3 has an end pair 3a, arranged along the major development axis A and opposite to each other. Each rod 3 is thus hinged to the chamber 2 at the two ends 3a thereof and rotatable about axis A by an arc having width comprised between 100 and 180, preferably equal to 120. This rotation arc allows an optimal spraying of the load with three rods.

(18) In order to obtain such a rotation, the machine 1 further comprises moving means 5 of the rods 3 preferably configured to rotate each of the rods 3 about the respective major development axis A.

(19) In detail and with reference to FIGS. 2 and 3, the moving means 5 comprise a linear actuator 9, moveable along an operating direction B. Such a linear actuator 9 is preferably transversal and even more preferably perpendicular to the rods 3. Consequently, in the embodiment shown in the accompanying figures, the operating direction B is substantially perpendicular to the floor 2b and to the roof 2c of the washing chamber 2. In other alternative embodiments (not shown), the operating direction B may be different, e.g. horizontal. With reference in particular to the details in FIGS. 2 and 3, it is worth noting that a linear actuator 9 is present for each array 10 of rods 3.

(20) More in detail, the linear actuator 9 comprises a pneumatic cylinder 11, fixed to the chamber 2, in particular above the roof 2c. The cylinder 11 comprises a stem 11a which crosses the roof 2c of the chamber 2. The movement of the cylinder 11 and, in particular, of the stem 11 a defines the mentioned operating direction B of the linear actuator 9.

(21) The linear actuator 9 comprises a bar 12, preferably made starting from a stainless steel plate. The bar 12 is connected to the cylinder 11, in particular the stem 11a. In particular, such a bar 12 is arranged along the operating direction B of the linear actuator 9. Such a bar 12 is sliding along the operating direction B with reciprocating motion. In particular, the bar is fixed to one of the side walls 2a of the chamber 2 by a plurality of guides 13 made of plastic material with a low friction coefficient. Such guides 13 are made with parallelepiped shaped blocks, and are provided with lids 13a fixed by means of four screws 13b to allow the rapid assembly of the bar 12.

(22) The handling means 5 further comprise transmission members 6 operatively associated with the linear actuator 9 and to the rods 3. In particular, respective transmission elements 6 are associated with each linear actuator 9. In further detail, the transmission elements 6 connect the bar 12 to a respective rod 3. In other words, three groups of transmission elements 6, one for each rod 3 actuated by the bar 12, are associated with each bar 12.

(23) In detail, the transmission elements 6 comprise a first arm 7, arranged transversally with respect to the rod 3. Such a first arm 7 has a first 7a and a second end 7b. Such a first arm 7 is, in particular, connected to the rod 3 at the first end 7a, thus defining a hinge C at the second end 7b.

(24) More in detail, the first end 7a of the first arm 7 has a hole 14 in which the rod 3 is integrally inserted. In particular, the shape and size of the hole 14 are complementary to a cross section of the rod 3.

(25) The transmission elements 6 further comprise a second arm 8. The second arm 8 also has a first 8a and a second end 8b. Such a second arm 8 is connected to the linear actuator 9 at the first end 8a. More in particular, the second arm 8 is hinged to the bar 12 at the first end 8a. Furthermore, the arm 8 is connected to the hinge C at the second end 8b.

(26) In detail, the second arm 8 is a curved lever connecting rod, in particular circumference sector shaped, made of stainless steel, which has the function of transforming the linear movement of the bar 12 into the rotary movement of the rod 3.

(27) In use, the washing fluid is aspirated from the tank mentioned above and is thus sent to the rods 3. Such a fluid is ejected from the nozzles 4 and, after having struck the load, falls into the vessel. The washing fluid may thus be extracted from the vessel and returned to the washing tank.

(28) The moving means 5, and in particular the cylinder 11, are actuated during the operation of the machine 1. Consequently, the rods 3 of each array 10 are moved simultaneously and, in particular, are rotated about the major development axis A according to the arc described above.

(29) Having thus described the basic concept of the invention, it will be rather apparent to those skilled in the art that the foregoing detailed disclosure is intended to be presented by way of example only, and is not limiting. Various alterations, improvements, and modifications will occur and are intended to those skilled in the art, though not expressly stated herein. These alterations, improvements, and modifications are intended to be suggested hereby, and are within the spirit and scope of the invention. Accordingly, the invention is limited only by the following claims and equivalents thereto