FR2723020A1 - REMOTE CONTROL SANDING MACHINE - Google Patents

Abstract

The sand blasting machine includes a container (1) holding the sand, with an output orifice (2) at the bottom, the orifice being controlled by a valve (3). A compressed air input is controlled in sync. with the operation of the valve. A sand blasting lance (6) is connected to the output orifice by a coupling (5). Within th machine there is an automatic control regulating the flow of sand. This is connected to a pointer (8) cooperating with the side walls (7) in order to vary the diameter of the sand passage. This pointer (8) is hinged to the centre (10a) of the v-shaped lever (10). One end of the lever assembly is linked to a control screw (11) whilst the other end is connected to a double action control jack (17).

Description

REMOTE CONTROL SANDING MACHINE

  The present invention relates to a sandblasting machine comprising a tank containing sand, provided with a loading mouth in its upper part and an outlet mouth equipped with a valve in its lower part, a controlled compressed air inlet. in synchronism with said valve, a sandblasting lance connected to the outlet mouth by a fitting, and means for controlling sand and air supply circuits

compressed.

  Known mobile sandblasting machines, used in particular for sanding building facades, boat hulls, vehicle bodies, generally have a capacity of 50 to 500 kg of sand and depending on the size of the site must be refilled with bags 50 kg sand poured manually into the machine tank. On the other hand, they require the presence of two operators, one of which is generally placed high on a scaffolding and carrying out sandblasting using the sandblasting lance.

  equipped with a safety handle, for example of the "man-" type

  dead ", and the other remaining permanently near the machine to, on the one hand, act manually on the outlet valve of the tank in order to regulate the sand flow according to the needs of the first operator, and on the other hand, replenish the machine with sand. In addition, these machines commonly encounter problems of jamming at the outlet valve, generally in the connection between the valve and the sandblasting lance. These problems of jamming come from the quality of the sand , differences in the diameter of the grains of sand and the humidity in the air. In this case, the second operator must dismantle the connection between this outlet valve and the sand lance and unblock it manually. wasted time as well

  wasted sand and compressed air.

  European publication No. 218 869 describes a sandblasting machine equipped with a flow control device comprising a worm screw located between the sand outlet valve and the sandblasting lance. This machine apparently not being used concretely on construction sites, we can assume that the flow control system is subject to significant wear problems,

  in particular due to abrasion under pressure operated by sand.

  There are also some sandblasting machines equipped with a remote control with the possibility of adjusting the sand flow, this control being directly usable by the operator carrying out the sanding. However, these machines not being equipped with an automatic uncorking device, the presence of a second

operator is still required.

  The present invention proposes to overcome the drawbacks mentioned above by providing a remote controlled sandblasting machine. In addition, and thanks to the means used, this machine can offer a working capacity, that is to say an autonomy in sand, much greater than that of current machines,

  which considerably increases its profitability.

  This object is achieved by a sandblasting machine as defined in the preamble and characterized in that it includes means for adjusting the sand flow rate and means for automatic uncorking,

  these means being arranged in said connector.

  According to a preferred embodiment, the flow adjustment means comprise at least one movable element cooperating with a fixed element to vary the diameter of the passage of the sand and a

  device for controlling this mobile element.

  The fixed element may comprise two opposite flanges, arranged symmetrically with respect to the axis of the outlet mouth, these flanges being of trapezoidal section, and arranged to define between them a zone of narrowing followed by a zone of relaxation

corresponding to passage of sand.

  The movable element advantageously comprises a needle arranged in the axis of the outlet mouth, this needle being provided with a conical head housed in said expansion zone, and a rod mounted

  sliding way in said fitting.

  Preferably, the control device comprises an electric or pneumatic motor controlled by an inverter relay and arranged to move an endless screw in translation parallel to the axis of the outlet mouth, and a first arm of a lever arranged to transmit moving the screw to said needle. This first arm of the lever is advantageously connected on the one hand to the needle by a first articulation and on the other hand to the worm by a

second joint.

  In the preferred embodiment, the unblocking means comprise at least said movable element arranged to release the expansion zone and a device for controlling the unclogging acting on

this moving element.

  The unclogging control device may comprise at least one double-acting cylinder provided with a rod arranged to move in translation parallel to the axis of the outlet orifice, a second arm of the lever arranged to transmit the displacement of

  the needle rod, and means for actuating said cylinder.

  The second arm of the lever is advantageously connected on the one hand to a needle by said first articulation and on the other hand to the rod of the

  cylinder by a third articulation.

  Preferably, the unblocking means further comprise a pneumatic circuit controlled by a solenoid valve or a pneumatic valve and arranged to send compressed air between the

  outlet mouth and narrowing area.

  The means for supplying said jack may comprise a pneumatic control circuit controlled by a two-way solenoid valve, arranged to automatically put the needle in the unclogging position as soon as the machine stops and in the adjustment position.

from the start of the machine.

  The solenoid valve is advantageously arranged to simultaneously supply said cylinder and the sand valve by means of a cylinder with

double effect.

  In the preferred embodiment of the invention, the control buttons of the actuating means are centralized in a housing

remote control.

  The present invention and its advantages will appear better in the

  following description of an exemplary embodiment, with reference to

  attached drawings, in which: - Figure 1 is a partial schematic view in axial section of the sandblasting machine according to the invention, and Figure 2 is a schematic view illustrating the different

  electrical and pneumatic machine control circuits.

  With reference to FIG. 1, only the lower part of the sandblasting machine is shown, illustrating the device for adjusting the sand flow rate and the automatic unblocking device. The machine comprises a tank 1 filled with sand provided with an outlet mouth 2 equipped with a valve 3, hereinafter called sand valve, which is generally a butterfly type valve and which is mounted between two protective flanges 4 against abrasion. The control of this sand valve by means of a double-acting cylinder

will be described later.

  Downstream of this sand valve are provided the flow adjustment and automatic uncapping devices, housed in an inverted 5-T connection coupled on the one hand to the outlet mouth 2

  of the tank and on the other hand to a sandblasting lance 6.

  The flow adjustment device comprises two opposite flanges 7 arranged symmetrically with respect to the axis of the outlet mouth 2, of trapezoidal section, defining between them a narrowing zone 7a followed by an expansion zone 7b of the sand flow , a needle 8 provided with a rod 8a and a conical head 8b, located in the axis of the outlet mouth 2. This conical head 8b being housed in said expansion zone 7b, thus defining the passage diameter of the sand. The rod 8a of the needle is sliding in a bearing 9 provided at the low point of the connector 5. The outer end of this rod is articulated in the middle part of a lever 10 in the form of V at point lOa. The first end 10b of this lever 10 is articulated to an endless screw 11, movable in translation along its axis, which is parallel to the axis of the outlet mouth 2 and therefore parallel to that of the needle 8. Its movement of translation is controlled by an electric motor 12, a speed reduction gear 13 and a nut 14 movable in rotation provided in a fixed frame 15 and cooperating with said screw 11. This device makes it possible to adjust the flow of sand. Indeed, the rotation of the motor 12 in one direction or the other causes a rectilinear displacement of the screw 11 upwards or downwards, making the lever 10 pivot around its second end 10c, thus generating a rectilinear displacement of the needle 8 in the same direction as that of the screw. Thus, the passage diameter of the sand can be increased or reduced, thereby increasing or reducing its flow. This motor 12 can be easily controlled remotely by the operator performing the sanding. The automatic uncorking device uses, in part, the adjustment device described above. The second end 10c of the lever 10 is articulated to the rod 16 of a double-acting cylinder 17. The latter is mounted on the fixed frame 15. This assembly makes it possible to automatically unblock the sand passage area. In fact, during sanding, the jack 17 is in the high position and does not act on the lever 10 or on the needle 8. When the sanding stops, the jack 17 moves to the low position, causing rotation of the lever around its first end lob, which lowers the needle 8 in the low position, thus freeing the passage of sand, and at the same time any blocks of agglomerated sand. This cylinder 17 is controlled automatically, as we will see more

far.

  FIG. 2 schematically represents the various circuits listed below: - a pneumatic circuit for pressurizing the sand tank 1, - a pneumatic circuit for creating the sand / air mixture intended for sandblasting, - a pneumatic dusting circuit, a pneumatic unclogging circuit, a pneumatic circuit for controlling the unclogging cylinder 17 and the cylinder associated with the sand valve 3,

  - an electrical control circuit.

  The pneumatic circuits are supplied by a compressor (not shown). A pressure relief valve 18 supplies the four

first circuits.

  The pneumatic circuit for pressurizing the sand tank 1 comprises a first pipe 19, pressurized as soon as the compressor valve opens, which sends the compressed air to the upper part of the tank 1, triggering the closure automatic loading mouth 20 of the tank by means of a cone safety device 21. Under the effect of the pressure build-up in the tank 1, this cone 21 automatically closes the mouth 20 via a seal 22. The tank 1 is thus pressurized to facilitate the exit of the sand through the outlet mouth 2 located in its lower part. This pipe 19 includes a non-return valve 23 to keep the tank under pressure, and a drain 24 to depressurize it at the end of work. The pneumatic circuit intended to create the sand / air mixture used for sandblasting comprises a second pipe 25 which sends, through the opening of a valve 26, hereinafter called the air valve, the compressed air in the connection 5 between the outlet mouth 2 and the sandblasting lance 6. This air valve 26 is directly coupled to the latter by its control axis (not shown) and controlled at the same time as the sand valve 3. This pipe 25 is protected by a non-return valve 27 avoiding the risks of

  deterioration of the upstream circuit by sand.

  The pneumatic dedusting circuit comprises a third pipe 28, placed as a bypass on the second and thus short-circuiting the air valve 26. It comprises a solenoid valve 29 and makes it possible to supply air to the sandblasting lance 6 to carry out dedusting . The pneumatic unclogging circuit has a fourth pipe 30, equipped with a solenoid valve 31, which sends air between the sand valve 3 and the needle 8 thus allowing the unclogging of

this zone.

  The pneumatic control circuit 32 of the unblocking jack 17 and of the jack 33 associated with the sand valve 3, draws the compressed air upstream of the pressure reducer 18. The aim is to generate sufficient pressure for actuating the jacks 17, 33. This circuit 32 is supplied with air as soon as the compressor valve opens. he

  includes an electrical contact pressure gauge 34, a check valve

  return 35, a reserve of compressed air 36 and a solenoid valve 37 actuated by a coil 38 and a return spring 39. This solenoid valve 37 simultaneously supplies the drain cylinder 17 and the cylinder 33 of the sand valve 3. The reserve of 'air 36 is a safety device which supplies the solenoid valve 37 in the event of a break in the air supply, following a compressor failure or a pipe break. The electrical control circuit 40 supplied with low voltage by a 12 or 24 V battery 41, includes a fuse 42, an emergency stop button 43 placed on the sandblasting machine, a command

  remote placed on the sandblasting lance called handle "man-

  dead "44. In this way, during use, the operator must maintain manual pressure on this handle. This electrical circuit 40 also includes the coil 38 of the solenoid valve 37 and an earth connection 45. In order to '' avoid the risks of energizing while the pneumatic circuits are not supplied with compressed air, this electrical circuit 40 passes through the electrical contact pressure gauge 34 of the pneumatic control circuit 32, which does not allow the closing of the electrical circuit 40 that if the latter is powered

in the air.

  The electric motor 12 of the flow control device is supplied by a remote controlled electric change-over relay (not shown). It is interesting to note that all the electrical controls are centralized in a remote control unit (not

  shown) carried by the operator carrying out the sanding.

  When the sandblasting machine is started, the compressor valve is open, tank 1 is automatically put under

  pressure and the pneumatic control circuit 32 is supplied.

  The operator ready to sand activates his "dead man" handle 44 energizing the electric circuit 40, which actuates the solenoid valve 37 supplying the jacks 17, 33 via circuit B. The needle 8 then moves to the high adjusted position of work and the

  sand valve 3 opens, simultaneously opening air valve 26.

  Sandblasting can be done. At any time, the operator can adjust the sand flow by controlling, from its housing, the rotation in one direction or the other of the adjustment motor 12. During a sanding stop, when the operator releases his "dead man" handle 44, the electric circuit 40 opens and the solenoid valve 37 which is no longer supplied returns to its rest position by its return spring 39, thus supplying the jacks 17, 33 via circuit A The needle 8 then moves to the low rest position and the valve

  sand 3 closes, simultaneously closing the air valve 26.

  The operator can then actuate, from its housing, the drain solenoid valve 31, cleaning the passage between the sand valve 3 and the needle 8, then the dedusting solenoid valve 29 if it wishes to clean its environment and its surface. job. Upon restart, the needle 8 automatically returns to its last working position, delivering the same flow of sand. There is no disruption.

  This description clearly shows that the blasting machine according to

  the invention achieves the objects mentioned. It is equipped with

  security features which makes it even more reliable to use.

  In particular, in the event of a break in the air circuit, the air reserve 36 supplies the jacks 17, 33 to close the sand valve 3 and put the needle 8 in the low rest position, that is to say - say in

unclogging position.

  By design, this sandblasting machine allows a single person to work on a site, safely and with maximum efficiency. It is easily transportable by a truck and can be used as a stationary or mobile. Its large sand storage capacity allows it to load loose sand allowing significant savings compared to 50 kg sandbags. The set of all these parameters increases

  considerably the profitability of such a machine.

  The present invention is not limited to the embodiment described but extends to any modification and variant obvious to those skilled in the art. All electrical controls can by

  example be replaced by pneumatic controls.

Claims (13)

Claims   1. Remote control sandblasting machine comprising a tank (1) containing sand, provided with a loading mouth (20) in its upper part and an outlet mouth (2) equipped with a valve (3 ) in its lower part, a compressed air inlet (25) controlled in synchronism with said valve (3), a sandblasting lance (6) connected to the outlet mouth (2) by a fitting (5), and means for controlling circuits for supplying sand and compressed air, characterized in that it comprises means for adjusting the flow of sand and unclogging means   automatic, these means being arranged in said connector (5).   2. Sandblasting machine according to claim 1, characterized in that the flow adjustment means comprise at least one movable element cooperating with a fixed element to vary the diameter of passage of the sand and a device for controlling this movable element. 3. Sandblasting machine according to claim 2, characterized in that the fixed element comprises two opposite flanges (7), arranged symmetrically with respect to the axis of the outlet mouth (2), these flanges being of trapezoidal section, and arranged to define between them a narrowing zone (7a) followed by a relaxation zone   (7b) corresponding to the passage of sand.   4. Sandblasting machine according to claims 2 and 3, characterized   in that the movable element comprises a needle (8) disposed in the axis of the outlet mouth (2), this needle being provided with a conical head (8b) housed in said expansion zone (7b), and a   rod (8a) slidably mounted in said fitting (5).   5. Sandblasting machine according to claim 2, characterized in that the control device comprises an electric or pneumatic motor (12) controlled by an inverter relay and arranged to move a worm (11) in translation parallel to the axis of the outlet mouth (2), and a first arm of a lever (10) arranged   for transmitting the movement of the screw (11) to said needle (8).   6. Sandblasting machine according to claim 5, characterized in that the first arm of the lever (10) is connected on the one hand to needle (8) by a first articulation (10a) and on the other hand to the screw without   end (11) by a second articulation (lob).   7. Sandblasting machine according to claim 1, characterized in that the unblocking means comprise at least said movable element arranged to release the expansion zone (7b) and a device   of the uncorking control acting on this mobile element.   8. Sandblasting machine according to claim 7, characterized in that the uncorking control device comprises at least one double-acting cylinder (17) provided with a rod (16) arranged to move in translation parallel to the axis of the outlet orifice (2), a second arm of the lever (10) arranged to transmit the displacement of the rod (16) with needle (8), and means actuating said cylinder (17).   9. Sandblasting machine according to claim 8, characterized in that the second arm of the lever (10) is connected on the one hand to needle (8) by said first articulation (10a) and on the other hand to the rod   (16) of the jack by a third articulation (10c).   10. Sandblasting machine according to claim 7, characterized in that the unblocking means further comprise a pneumatic circuit (30) controlled by a solenoid valve or a pneumatic valve (31) and arranged to send compressed air between the   outlet mouth (2) and the narrowing zone (7a).   11. Sandblasting machine according to claim 8, characterized in that the means for feeding said jack (17) comprise a pneumatic control circuit (32) controlled by a two-way solenoid valve (37), arranged to automatically set the needle (8) in the unclogging position as soon as the machine stops and in the   adjustment as soon as the machine starts.   12. Sandblasting machine according to claim 11, characterized in that the solenoid valve (37) is arranged to simultaneously supply said cylinder (17) and the sand valve (3) by means of a cylinder (33) to double effect.   13. Sandblasting machine according to any one of claims   previous, characterized in that the control buttons of the actuating means are centralized in a control box remotely.