VIBRATING TONGS WITH AN ADAPTABLE CLAMPING FORCE FOR FRUIT HARVESTING

Abstract

The invention relates to vibrating tongs, including two opposing jaws in which the closing or opening movements are achieved through one or several hydraulic jacks, referred to as clamping jacks. These tongs are especially remarkable in that the oil intake chamber or pressure chamber of the clamping jacks that control the closing motion of the jaw or jaws, is linked to a mechanism fitted to detect any pressure rise inside the chamber that occurs when the tong jaws come into contact with the trunk of a tree. Blocking devices are controlled by the detection mechanism, and any increase in the pressure of the jaws on the trunk is opposed as soon as such a pressure rise occurs in the oil intake chamber.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

The aforementioned goals, characteristics and advantages and still other ones, shall become more obvious from the description given below and from attached drawings.

FIG. 1 is a schematic view of a first execution method of the vibrating tongs according to the invention, shown in an open position.

FIG. 2 is an identical schematic view of FIG. 1 that shows the tongs in a clamping position on a trunk.

FIG. 3 shows a schematic view of a more precise hydraulic schematic of this execution method of FIG. 1.

FIG. 4 is a schematic view of a second execution method of these vibrating tongs.

FIG. 5 is a schematic view of a third execution method of the invention.

The drawings describe interesting, although by no means limiting, execution methods of the vibrating tongs according to the invention.

DETAILED DESCRIPTION OF THE INVENTION

In the presentation below, the components that perform identical functions in all of the three described methods of execution are designated by the same references.

According to FIGS. 1 through 3, the vibrating tongs classically consist of two opposing jaws 1 and 2 mounted with a pivoting feature on a fixed support 10, around axes 3 and 4, respectively. The free ends of these jaws 1 and 2 are equipped with rubber pads or linings, respectively 5 and 6.

Pivoting of jaws 1 and 2, in a closed position, is accomplished by clamping jacks 11 and 12, respectively, which work by pulling and connecting to said jaws by one or several cables 7 and 8 and winding, for example, on the cylindrical housing 13 that contains the vibrator.

The tongs are opened by means of a hydraulic jack 14, referred to as opening jack hereafter in this presentation. This jack is connected, through its opposite ends and by means of hinges, with jaws 1 and 2 of the tongs, at a reduced articulation distance of the latter on tongs support 10.

Reference 20 designates overall the electro-slide valve providing for the operation of closing jacks 11, 12 and opening jack 14 of the tongs.

According to the invention, the oil intake chamber of pressure chamber 15A of clamping jacks 11 and 12 that controls the closing movement of jaws 1 and/or 2 is linked to a device 16 fitted to detect any rise of oil pressure inside said chamber that occurs when cushions 4, 5 of jaws 1, 2 of the tongs come into contact with trunk T of a tree. The vibrating tongs consist, additionally, of blocking devices 9, 17 controlled by said detection device and counteracting any increase in pressure of said jaws on the trunk as soon as such a rise in pressure is detected in the oil intake chamber or pressure chamber 15A.

According to an advantageous execution method, the device 16 for detecting pressure rise and control of blocking devices 9, 17 is adjustable, so as to allow control of said blocking devices based on different pressures predetermined by the operator.

According to the execution method of FIGS. 1 and 3, said device for detecting and controlling consists of an adjustable pressure switch 16, whereas the blocking means consists of a single-stage hydraulic jack 9 installed between jaws 1 and 2, by means of its opposite ends and through joints 18, preferably at a reduced distance from pads 5 and 6 fitted on the ends of the latter (i.e. jaws). The activation of blocking jack 9 is operated with a tight closing valve 17, electrically driven by pressure switch 16, with this tight sealing valve consisting of a tight pilot-operated poppet valve.

According to this execution method, clamping jacks 11 and 12 operate by pulling, and the increase in oil pressure is detected on the rod side, in pressure chambers 15A of said jacks, which are connected to the slide valve 20 controlling the opening and closing of jaws 1 and 2, and communicating with pressure switch 16.

One understands that when the tong jaws come into contact with trunk T, the pressure in chambers 15A of clamping jacks 11 and 12 increases to compress rubber pads 5 and 6. This rise in pressure is detected by pressure switch 16 that then electrically controls the tight pilot-operated poppet valve 17 to close oil outlet 19 of jack 9. As a result, the clamping force will be applied on said jack 9 and not on the tree bark.

To open the tongs, the oil pressure must be transmitted to the opening jack 14 and the poppet valve reset to the passing direction (FIG. 1) so as to make sure that the blocking jack 9 is always full of oil.

According to this execution method, the vibrating tongs consist of two moving jaws 1 and 2, but it is understood that the arrangements described above may also be applied to vibrating tongs consisting of one single moving jaw, with the other jaw remaining stationary.

According to the execution method displayed in FIG. 4, the closing of jaws 1 and 2 of the vibrating tongs is achieved through a single clamping jack 11 operating also by pulling. This jack is connected, by means of its ends and through joints 18, to jaws 1 and 2, at a reduced distance from the end portions of said jaws equipped with pads 5 and 6.

In this case, the pressure information is taken in the oil intake chamber 15A on the rod side of the clamping jack 11 to control pressure switch 16 that electrically controls a tight closing valve 17 so that, for example, a tight pilot-operated poppet valve, which closes oil outlet 19 of discharge chamber 15B, i.e. from the bottom side of the clamping jack when an increase in pressure is detected in pressure chamber 15A by the rod side of said clamping jack. The return travel of rod 11A inside the body of the latter is blocked, and a limitation of the clamping pressure on tree trunk T is obtained in this manner.

According to the execution method shown in FIG. 5, the closing of jaws 1 and 2 of the vibrating tongs is achieved through two clamping jacks 11 and 12 which work by pushing.

In this case, the pressure information is taken on the bottom side 15B of clamping jacks 11 and 12 to control a pressure switch 16 that electrically controls a tight closing valve 17, so that, for example, a tight pilot-operated poppet valve that closes oil outlet 19 on the rod side 15A of said jacks when an increase in pressure is detected in pressure chamber 15B, by the bottom side of said clamping jacks. The outward travel of rod 11A, 12A of said jacks is blocked, and a limitation of the clamping force applied by jaws 1 and 2 on tree trunk T is thereby achieved.

Claims

1. Vibrating tongs with adaptable clamping force for fruit harvesting, the tongs comprising: two jaws, at least one jaw being mobile;a plurality of hydraulic jacks attached to the jaws or the at least one mobile jaw, the jacks engaging the jaws to achieve clamping or closing and unclamping or opening movements;a vibrator communicating vibrations to the jaws;an oil intake chamber within the jacks by a means to detect any pressure increase inside said oil intake chamber when the jaws contact a trunk of a tree; andblocking devices being controlled by said means to detect and opposing any pressure increase of the jaws on said trunk, when an increase in pressure occurs in said oil intake chamber.

2. The vibrating tongs, according to claim 1, wherein said means to detect is adjustable, controlling of said blocking devices being based on different predetermined pressures.

3. The vibrating tongs, according to claim 1, wherein said means to detect is comprised of a pressure switch or pressure sensor.

4. The vibrating tongs, according to claim 1, wherein said blocking devices include a tight closing valve.

5. The vibrating tongs, according to claim 1, wherein the jacks operate by pulling, said means to detect being in communication with a rod side of the jacks.

6. The vibrating tongs, according to claim 1, wherein each blocking device is comprised of a hydraulic blocking jack installed between the jaws.

7. The vibrating tongs, according to claim 6, wherein each hydraulic blocking jack is a single-stage jack, having an outlet connected to a tight closing valve and being comprised of a tight pilot-operated poppet valve, controlled by a pressure switch connecting to said oil intake chamber of the jacks.

8. The vibrating tongs, according to claim 5, wherein said means are comprised an adjustable pressure switch, electrically controlling a tight closing valve, said tight closing valve being a tight pilot-operated poppet valve closing an oil outlet on a bottom side of the jacks.

9. The vibrating tongs, according to claim 1, the jacks operating by pushing, said means to detect being connected to a bottom side of the jacks.

10. The vibrating tongs, according to claim 9, wherein said bottom side connects to a pressure switch, electrically controlling a closing valve, said closing valve being comprised of a poppet valve closing an oil outlet on the rod side of the jacks.