The present invention relates to an improvement in a means that avoids dripping of a liquid material arising on a tip portion of a nozzle when a discharge of the liquid material is stopped, in a sealer gun that discharges a liquid material of a coating agent or a filler from a discharge aperture of a nozzle of a tip of a discharge cylinder.
A discharge device for a liquid material in a form of a so-called sealer gun, which is used for coating/filling work of coating or filling a liquid material, such as a coating agent or a filler, into or onto a gap or a space of a structure, is configured such that, as shown in
According to the sealer gun A, when a discharge of a liquid material is stopped by releasing the grip member 4, a dripping phenomenon arises that the liquid material sticks and remains onto the tip portion of the nozzle 10 in a state of hanging like an icicle.
When a discharge of a liquid material is stopped, if the liquid material sticking and remaining as a drip on the tip of the nozzle 10 is left, as it is exposed to outside air, it can be denatured to a liquid material with properties unable to be normally used when performing coating work or filling work next time, therefore, it is treated by wiping out and discarding from the tip of the nozzle 10 immediately after when a discharge is stopped.
The sealer gun has a problem that workability of coating/filling work is inefficient due to the work of wiping out dripping each time when stopping discharge of a liquid material, and a problem that discard of dripping results in a loss of a liquid material.
It is thought that the dripping that a liquid material sticks and remains like hanging from the tip portion of the nozzle when a discharge of a liquid material is stopped cannot be shut off clearly because a liquid material of a coating agent or a filler has viscous properties and high adhesion and cohesiveness; and because a liquid material is pressurized and then sent and supplied into the discharge cylinder, the liquid material inside the discharge cylinder is pushed out with a remaining pressure on the liquid material in the discharge cylinder 1 when discharge is stopped by closing the valve mechanism 2.
As a countermeasure to this, a considerable means can be such that, as shown in
However, among these means, in the former case, when a discharge of a liquid material is stopped, as depicted by a dot and dash line in
It is thought that this is caused by pulling back like hoisting up the liquid material that has been already discharged out from the tip aperture 10a of the nozzle 10, with adhesion and cohesiveness originated by viscous properties of the liquid material.
Moreover, also in the latter case, when a discharge of a liquid material is stopped, a phenomenon that a liquid material sticks and remains in a dripping state like an icicle hanging from the tip portion of the nozzle 10 occurs. In the latter case, although a discharged liquid material is shut off by the sandwiching plates 11 at an outer side position of the tube tip of the nozzle 10, a liquid material that has been already discharged via an opposed space between the sandwiching plates, as depicted by a dot and dash line in
It is aimed to ensure that a sealer gun that discharges a liquid material of a coating agent/a filler from a nozzle on its tip is prevented from producing dripping that arises as a liquid material drips from the tip of the nozzle and remains when a discharge of the liquid material is stopped.
As a means for solving the problem described above, proposed is a dripping prevention apparatus in a sealer gun characterized in that a base side of a body in a cylindrical shape of which tip side is equipped with a discharge cylinder configured to discharge a liquid material, a holding unit is provided, and a grip member capable to be gripped together with the holding unit is axially supported so as to pivot to a position along the holding unit by gripping and to pivot to a position separate from the holding unit with a resilient spring by releasing a grip, an inside of the body accommodates therein a valve mechanism configured to control disconnection and establishment of communication between an introduction pipe side and a tip side of the discharge cylinder, and operation of opening valve and closing valve of the valve mechanism is interlocked to pivoting motion of the grip member so as to open a valve resulting from pivoting of the grip member by gripping, and to stop a discharge of a liquid material from a tip aperture of a nozzle of a tip of the discharge cylinder by closing the valve resulting from resilient pivoting of the grip member by releasing a grip, wherein a pump that includes a cylinder and a piston fitting in the cylinder in a manner capable to move in and out freely is assembled onto the body, an operation rod interlocked with the piston of the pump and the grip member are interlocked via an interlock mechanism so as to perform pump operation of suction and discharge by moving in and out the piston caused by resilient pivoting of the grip member, and a suction-discharge aperture of the pump is positioned in an internal space of the nozzle on the tip side of the discharge cylinder, and when a discharge of a liquid material is stopped by releasing the grip member, a negative or positive pressure is to be introduced into an inside of the nozzle caused by pump operation resulting from resilient pivoting of the grip member.
Moreover, in addition to this, proposed as a second means is a dripping prevention apparatus in a sealer gun characterized in that on a base side of a body in a cylindrical shape of which tip side is equipped with a discharge cylinder configured to discharge a liquid material, a holding unit is provided, and a grip member capable to be gripped together with the holding unit is axially supported so as to pivot to a position along the holding unit by gripping and to pivot to a position separate from the holding unit with a resilient spring by releasing a grip, an inside of the body accommodates therein a valve mechanism configured to control disconnection and establishment of communication between an introduction pipe side and a tip side of the discharge cylinder, and operation of opening valve and closing valve of the valve mechanism is interlocked to pivoting motion of the grip member so as to open a valve resulting from pivoting of the grip member by gripping, and to close the valve resulting from resilient pivoting of the grip member by releasing a grip, wherein a pump that includes a cylinder and a piston fitting in the cylinder in a manner capable to move in and out freely is assembled onto the body, the pump is interlocked to the grip member via an interlock mechanism so as to perform discharge operation by pushing the piston caused by pivoting when gripping the grip member, and to perform suction operation by pulling the piston caused by resilient pivoting of the grip member when releasing a grip on the grip member, and a suction-discharge aperture of the pump is positioned in an internal space of the nozzle on the tip side of the discharge cylinder, and when a discharge of a liquid material from a tip aperture of the nozzle is stopped by releasing a grip on the grip member, a negative pressure is to be introduced into the nozzle caused by suction operation by the pump resulting from resilient pivoting of the grip member;
moreover, in addition to this, proposed as a third means is a dripping prevention apparatus in a sealer gun characterized in that on a base side of a body in a cylindrical shape of which tip side is equipped with a discharge cylinder configured to discharge a liquid material, a holding unit is provided, and a grip member capable to be gripped together with the holding unit is axially supported so as to pivot to a position along the holding unit by gripping and to pivot to a position separate from the holding unit with a resilient spring by releasing a grip, an inside of the body accommodates therein a valve mechanism configured to control disconnection and establishment of communication between an introduction pipe side and a tip side of the discharge cylinder, and operation of opening valve and closing valve of the valve mechanism is interlocked to pivoting motion of the grip member so as to open a valve resulting from pivoting of the grip member by gripping, and to close the valve resulting from resilient pivoting of the grip member by releasing a grip, wherein a pump that includes a cylinder and a piston fitting in the cylinder in a manner capable to move in and out freely is assembled onto the body, the pump is interlocked to the grip member via an interlock mechanism so as to perform suction operation by pulling the piston caused by pivoting when gripping the grim member, and to perform discharge operation by pushing the piston caused by resilient pivoting of the grip member when releasing a grip on the grip member, and a suction-discharge aperture of the pump is positioned in an internal space of the nozzle on the tip side of the discharge cylinder, and when a discharge of a liquid material is stopped by releasing a grip on the grip member, a positive pressure is to be introduced into the nozzle caused by discharge operation by the pump resulting from resilient pivoting of the grip member;
moreover, in addition to this, proposed as a fourth means is a dripping prevention apparatus in a sealer gun, wherein the pump according to the third means that includes the cylinder provided on the body and the piston fitting in the cylinder in a manner capable to move in and out freely is supported and assembled onto the body by arranging an axial line in parallel to the discharge cylinder on an underside of an outer circumference of the body, the piston of the pump is interlocked to the grip member via an interlock mechanism arranged on an underside of the discharge cylinder, and the suction-discharge aperture of the pump is positioned in the internal space of the nozzle on the tip side of the discharge cylinder;
moreover, in addition to this, proposed as a fifth means is a dripping prevention apparatus in a sealer gun, wherein the pump according to the second means that includes the cylinder provided on the body and the piston fitting in the cylinder in a manner capable to move in and out freely is supported and assembled onto the discharge cylinder by arranging an axial in parallel to the discharge cylinder on an upper side of an outer circumference of the body, the piston of the pump is interlocked to the grip member via an interlock mechanism arranged on an upper side of the discharge cylinder, and the suction-discharge aperture of the pump is positioned in the internal space of the nozzle on the tip side of the discharge cylinder;
moreover, in addition to this, proposed as a sixth means is a dripping prevention apparatus in a sealer gun, wherein a tip side of a connecting pipe that connects the suction-discharge aperture of the pump according to the first means to the internal space of the nozzle on the tip side of the discharge cylinder is formed in a pipe shape, and is coaxially fit and inserted into the nozzle, and a tip aperture is communicated into the nozzle;
moreover, in addition to this, proposed as a seventh means is a dripping prevention apparatus in a sealer gun, wherein a pressure regulator is assembled onto the tip side of the discharge cylinder according to the first means, the pressure regulator is connected to a pipe line of a connecting pipe connected to the suction-discharge aperture of the pump, and the connecting pipe is communicated to the internal space of the nozzle of the tip of the discharge cylinder;
moreover, in addition to this, proposed as an eighth means is a dripping prevention apparatus in a sealer gun, wherein the pump according to the first means that includes the cylinder provided on the body and the piston fitting in the cylinder in a manner capable to move in and out freely is coaxially arranged inside the discharge cylinder, an outer circumferential side of the cylinder of the pump is fixed onto an inner circumferential side of the discharge cylinder and assembled to inside the discharge cylinder, and the suction-discharge aperture of the pump is opened to the internal space of the nozzle;
moreover, in addition to this, proposed as a ninth means is a dripping prevention apparatus in the sealer gun, wherein onto the operation rod according to the first means interlocked with the piston of the pump that includes the cylinder provided on the body and the piston fitting in the cylinder in a manner capable to move in and out freely, a spring configured to give force so as to operate the piston in a direction of pushing in is assembled so as to be compressed by operation of the operation rod to move in a direction of pulling out by gripping the grip member via the interlock mechanism, and when releasing a grip on the grip member, the grip member is configured to pivot resiliently or to move resiliently caused by a spring pressure of the spring;
moreover, in addition to this, proposed as a tenth means is a dripping prevention apparatus in the sealer gun, wherein onto the operation rod according to the first means interlocked with the piston of the pump that includes the cylinder provided on the body and the piston fitting in the cylinder in a manner capable to move in and out freely, a spring configured to give force so as to operate the piston in a direction of pulling out is assembled so as to be compressed by operation of the operation rod to move in a direction of pushing in by gripping the grip member via the interlock mechanism, and when releasing a grip on the grip member, the grip member is configured to pivot resiliently or to move resiliently caused by a spring pressure of the spring that is compressed;
moreover, in addition to this, proposed as an eleventh means is a dripping prevention apparatus in the sealer gun, wherein the pump according to the first means that includes the cylinder provided on the body and the piston fitting in the cylinder in a manner capable to move in and out freely is coaxially arranged inside the discharge cylinder, a flow path for a liquid material is formed between the cylinder of the pump and an inner circumferential surface of the discharge cylinder, and assembled to inside the body, the suction-discharge aperture of the pump is opened to a space inside the nozzle, the operation rod interlocked with the piston is interlocked to the grip member via the interlock mechanism arranged and provided on an outer circumferential side of the discharge cylinder so as to cause the piston to perform operation of suction and discharge by pivoting by gripping the grip member and by resilient pivoting, a valve mechanism configured to disconnect and to establish communication between the flow path of a liquid material and an introduction pipe by motion of moving into and out from the cylinder is built in the piston, and the valve mechanism controls disconnection and establishment of communication between the introduction pipe and the tip side of the discharge cylinder; and
moreover, in addition to this, proposed as a twelfth means is a dripping prevention apparatus in a sealer gun, wherein an aperture diameter d1 of a tip aperture formed on a tip of the nozzle on the tip side of the discharge cylinder according to the first embodiment is formed and provided as an aperture diameter smaller than an inner diameter of the nozzle, and the aperture diameter d1 of the tip aperture of the nozzle is formed and provided so as to establish relation d1≦d2 between the aperture diameter d1 of the tip aperture and an aperture diameter d2 of the suction-discharge aperture of the pump that is opened to the internal space of the nozzle.
According to embodiments of the present invention, during a coating work and/or a filling work of a liquid material by a sealer gun, when a grip on a grip member is released, the grip member is resiliently operated by a resilient spring, a valve mechanism is closed by the resilient operation and communication between a nozzle and an introduction pipe is shut off, and a discharge of the liquid material from the nozzle is stopped; a pump provided on a discharge cylinder operates in an interlocked manner with resilient operation of the grip member, and performs pump operation; and a suction pressure or a discharge pressure resulting from the pump operation is introduced into the nozzle on a tip side of the discharge cylinder, and acts; so that a drip of the liquid material, arising by sticking on and hanging from a tip portion of the nozzle when a discharge of the liquid material is stopped by releasing a grip on the grip member, can be sucked into a cylinder of the pump or blown away from a tube tip of the nozzle, with the suction pressure or the discharge pressure introduced into the nozzle, and is vanished from the tip portion of the nozzle; therefore a dripping phenomenon can be securely prevented.
Embodiments according to the present invention will be described below in detail with reference to the accompany drawings with respect to each embodiment.
In the figure, A denotes the whole of a sealer gun; 1 denotes a discharge cylinder; 10 denotes a nozzle that is provided on the tip side of the discharge cylinder 1; and 2 denotes a valve mechanism that is integrated inside the discharge cylinder 1, and accommodated in a main body a that is formed in a cylindrical shape having an enlarged diameter and connected to the base side of the discharge cylinder 1. 3 denotes a holding unit that is provided in a continuously integrated manner to the main body a connected to the base side of the discharge cylinder 1 of the sealer gun A; 4 denotes a grip member that is connected to the base side of the discharge cylinder 1 of the sealer gun A along the holding unit 3, and axially supported from the main body a; P denotes a pump P that includes a cylinder 50 and a piston 51 that are provided to the discharge cylinder 1 of the sealer gun A; and 6 denotes an interlock mechanism that interlocks the piston 51 of the pump P and the grip member 4 described above.
The sealer gun A is an ordinary sealer gun configured such that the base side of the discharge cylinder 1 provided with the nozzle 10 on the tip side is connected to an inside space of the main body that is formed in a cylindrical shape having a larger diameter than the discharge cylinder 1; the inside space of the main body a is connected to an introduction pipe 30 configured to introduce a liquid material of a coating agent/a filler, the main body a accommodates therein the valve mechanism 2 that is configured to shut off and to establish communication between the introduction pipe 30 and the nozzle 10 of the tip of the discharge cylinder 1, and the main body a is provided with the holding unit 3 that is formed in a continuously integrated manner; the grip member 4 is axially supported to the main body a with a spindle 40 along the holding unit 3; the grip member 4 is interlocked to the valve mechanism 2 accommodated in the main body a described above via an interlock means such that the valve mechanism 2 turns open upon gripping the grip member 4 together with the holding unit 3 and then letting it pivot or move to a position in a state along the holding unit 3, and the valve mechanism 2 turns closed upon releasing a grip on the grip member 4 and letting the grip member 4 resiliently operate by a resilient spring (not shown) to an open position separate from the holding unit 3; and accordingly, when gripping the grip member 4, a liquid material that is sent and supplied into the discharge cylinder 1 via the introduction pipe 30 by being pressurized is forced to discharge from the nozzle 10 on the tip side of the discharge cylinder 1; and when releasing the grip member 4, communication between the introduction pipe 30 and the nozzle 10 on the tip side of the discharge cylinder 1 is shut off, and a discharge of the liquid material from the nozzle 10 is stopped; so that its configuration is not different from that of a conventional sealer gun shown in
The pump P is a pump of an ordinary cylinder type that includes the cylinder 50 and the piston 51 that fits in the cylinder 50 in a manner capable to move in and out freely by sliding, discharges air inside the cylinder 50 from a suction-discharge pipe 5a provided in a cylindrical shape on the tip side of the cylinder 50 as the piston 51 is pushed into the cylinder 50, and sucks air from the suction-discharge pipe 5a into the cylinder 50 as the piston 51 is pulled out; and it is arranged in parallel with the discharge cylinder 1 of the sealer gun A, in an attitude such that the suction-discharge pipe 5a on the tip side is positioned forward and the piston 51 on the base side projects rearward; and the cylinder 50 is assembled onto the discharge cylinder 1 supported by a mounting member 52. The suction-discharge pipe 5a on the tip side of the cylinder 50 is connected via a connecting pipe 53 to a communication aperture O that is open and provided to a tube wall of the nozzle 10 connected to the tip of the discharge cylinder 1 of the sealer gun A, and it is configured to apply a negative pressure or a positive pressure into the nozzle 10 by pump operation owing to forward-rearward motion of the piston 51 with respect to the cylinder 50.
The interlock mechanism 6 is a mechanism that interlocks the piston 51 and the grip member 4 so as to perform pump operation of suction-discharge by the pump P in a synchronized manner with the pivoting operation of the grip member 4 described above; includes an operating rod 61 that is coupled to the base side of the piston 51 and moves forward and rearward in parallel with the discharge cylinder 1 by being guided by a guide cylinder 60 assembled and supported on the base side of the discharge cylinder 1 with the mounting member 52, an interlock rod 63 that is coupled to the operating rod 61 via a joint spindle 62, a first link rod 64 of which tip side is connected to the interlock rod 63 in a state that tilting-pivoting is allowed owing to a long hole, and a second link rod 66 of which the base side is connected via a long hole to an interlock spindle 65 provided on the base side of the first link rod 64 and the base side is coupled to the grip member 4 in an integrated manner; and is configured such that when the grip member 4 pivots to the position along the holding unit 3 as shown in
The pump P according to the embodiment is set such that when it is in a state that the grip member 4 is gripped, owing to the interlock mechanism 6, the piston 51 occupies a position at which the piston 51 is pulled out, and when releasing a grip on the grip member 4, the piston 51 is pushed in resulting from operation of resilient pivoting of the grip member 4 and discharge operation is performed.
Accordingly, if a discharge of a liquid material is stopped by releasing the grip member 4, the pump P blows air into the nozzle 10 of the tip of the discharge cylinder 1, blows away from the nozzle 10 a liquid material sticking to and hanging from the nozzle 10 with a blowing-out pressurized air flow, and eliminates dripping of the liquid material sticking and remaining on the tip of the nozzle 10.
In the figure, A denotes the whole of a sealer gun; 1 denotes a discharge cylinder of the sealer gun A; 10 denotes a nozzle that is provided on the tip side of the discharge cylinder 1; a denotes a main body that is formed in a hollow cylindrical shape and is connected to the base side of the discharge cylinder 1; 2 denotes a valve mechanism that is accommodated in the main body a; 3 denotes a holding unit that is provided continuously to the main body a; 30 denotes an introduction pipe that is provided so as to introduce a liquid material into the discharge cylinder 1; 4 denotes a grip member that is axially supported from the main body a along the holding unit 3 so as to pivot forward and rearward around a joint spindle 40 as a pivot; P denotes a pump that is arranged in parallel onto the outer side of the discharge cylinder 1 of the sealer gun A and is assembled onto the outer side of the discharge cylinder 1 with the mounting member 52; and 6 denotes an interlock mechanism that interlocks the pump P and the grip member 4 of the sealer gun A.
These are configured similarly to those according to the first embodiment described above; the pump P is an ordinary pump that includes the cylinder 50 and the piston 51 that fits in the cylinder 50 in a manner capable to move in and out freely; the tip side of a suction-discharge pipe 500 formed and provided on the tip side of the cylinder 50 is connected via the connecting pipe 53 to the communication aperture O that is open and provided to a tube wall of the nozzle 10 of the tip of the discharge cylinder 1; and the interlock mechanism 6 includes the operating rod 61 that is coupled to the base side of the piston 51 of the pump P, the first link rod 64 that is interlocked to the operating rod 61 via the interlock rod 63, and the second link rod 66 that is provided in an integrated manner with the grip member 4 and is interlocked to the first link rod 64 via the interlock spindle 65.
However, when causing the pump P to perform pump operation owing to operation of resilient pivoting of the grip member 4, according to the first embodiment described above, it is configured to perform discharge operation, in contrast, according to this embodiment, it is configured to perform suction operation, therefore the second link rod 66 of the interlock mechanism 6 configured to be mounted and provided by being coupled in an integrated manner with the grip member 4 is mounted and provided onto the grip member 4 in a form such that an upper portion beyond the joint spindle 40 of the grip member 4 is projected from the upper side of the main body a so as to extend upward.
Furthermore, the pump P and the interlock mechanism 6 are configured such that the both are arranged on the upper side of the discharge cylinder 1, and are mounted and supported to the discharge cylinder 1 with the mounting member 52, accordingly, it is configured such that a motion of the second link rod 66 coupled to and supported by the grip member 4 when releasing a grip on the grip member 4 is to be a motion of pivoting rearward, the piston 51 of the pump P is moved in a direction of pulling it out via the interlock mechanism 6, and suction operation is given to the pump P.
Accordingly, the sealer gun according to the embodiment is configured such that when a discharge of a liquid material is stopped by releasing the grip member 4, the pump P performs suction operation, draws into the cylinder 50 a dripping liquid material arising on the tip side of the nozzle 10 of the discharge cylinder 1, and eliminates dripping arising on the tip of the nozzle 10.
Precisely, it is similar to the one according to the first and second embodiments described above with respect to aspects that the pump P is assembled on the outer side of the discharge cylinder 1 with the mounting member 52, the suction-discharge pipe 5a on the tip side of the cylinder 50 is connected to the connecting pipe 53, and the connecting pipe 53 is connected to the nozzle 10; however, it is an example that the tip side of the connecting pipe 53 is connected to a nozzle mounting unit 100, as shown in
The connection-communication means between the connecting pipe 53 and the nozzle 10 according to the embodiment shows an example that it is applied the sealer gun A that is set so as to perform suction operation as pump operation of the pump P resulting from resilient pivoting of the grip member 4 when a discharge of a liquid material is stopped by releasing a grip on the grip member 4; however, even if it is applied to a sealer gun of which the interlock mechanism 6 is changed so as to perform discharge operation by pushing out the operating rod 61 caused by operation of resilient pivoting of the grip member 4, similarly to the first embodiment, there is no difference in functions and actions.
In the figure, the reference numeral 7 denotes the pressure regulator, which uses a speed controller that is commercially available. The pressure regulator 7 is arranged on an opposite side of the discharge cylinder 1 against the cylinder 50 of the pump P and assembled onto the nozzle mounting unit 100 of the discharge cylinder 1; the connecting pipe 53 connected to the suction-discharge pipe 500 of the cylinder 50 is extended across an internal space of the nozzle mounting unit 100, and is connected to the pressure regulator 7; an opening k is opened in a region positioned in the nozzle mounting unit 100 and at some midpoint in the connecting pipe 53; and the opening k is made to face the base side of a discharge pipe 530 that is fit and inserted by being coaxially positioned in the internal space of the nozzle 10; so that a discharge pressure or a suction pressure of the pump P regulated by the pressure regulator 7 can act on both of the internal space of the nozzle mounting unit 100 and the discharge pipe 530.
According to this unit, a pressure of air acting on the inside of the nozzle 10 by operation of the pump P can be regulated to a desired pressure by the pressure regulator 7.
In the figure, 1 denotes a discharge cylinder that is formed in a barrel shape and equipped with the nozzle 10 on the tip side. The discharge cylinder 1 is assembled and supported onto the main body a in an integrated manner, by fitting the outer circumferential side of a cylinder wall of the discharge cylinder 1 to the inner circumferential side of an shank barrel unit a′ that is formed and provided on the upper end side of the main body a that is separately shaped. It is connected and communicated to the introduction pipe 30 that is enfolded inside the main body a via a communication aperture 80 that is opened and provided in a region opposite to the inner circumferential surface of the shank barrel unit a′ described above on the cylinder wall of the discharge cylinder 1, and is configured so as to discharge from the nozzle 10 on the tip side a liquid material that is introduced from the introduction pipe 30 via the communication aperture 80.
2 denotes a valve mechanism that controls open and close of communication to the nozzle 10 of the tip of the discharge cylinder 1 of the introduction pipe 30. The valve mechanism 2 is a valve mechanism that is arranged to the main body a on the forward side of the holding unit 3 and axially supported with the joint spindle 40; that is configured to operate to open in a synchronized manner with pivoting when pivoting the grip member 4 to a position along the holding unit 3 as shown in
The valve mechanism 2 is configured such that, as shown in
The valve shank 8 is provided with the operating rod 61 that is accommodated movably in the axial direction of the discharge cylinder 1 in a rear extended portion of the discharge cylinder 1, by mounting it on the rear end side in a continuously integrated manner; the operating rod 61 is interlocked with the grip member 4 via the interlock mechanism 6 that includes a link rod 67 provided onto the upper portion beyond the joint spindle 40 of the grip member 4 by being coupled in an integrated manner, and a joint spindle 68 that connects a projected end of the link rod 67 to the operating rod 61; and the operating rod 61 is provided with a spring b configured to give a force in a direction of pulling rearward by arranging it and letting it act between a spring strike plate 69 provided at the rear end of the operating rod 61 and a spring strike plate 70 fixed and provided on the inner surface side of the discharge cylinder 1; when gripping the grip member 4, the link rod 67 pivots forward with respect to the joint spindle 40, thereby pushing the valve shank 8 forward against a given force of the spring b, so that the valve openings 85 occupy an open position facing to the valve seat 82; when releasing a grip on the grip member 4, a resilient force of the spring b that is pushed and compressed as described above moves rearward the operating rod 61 and the valve shank 8 coupled to this, resulting in a close state that the valve opening 85 provided on the valve shank 8 occupy position off the valve seat 82; and at that time, the grip member 4 is caused to pivot resiliently to an open position separate from the holding unit 3 owing to a resilient force of the spring b described above by using the spring b as a resilient spring.
P denotes a pump that is attached and provided onto the discharge cylinder 1 in order to apply a positive pressure or a negative pressure into the nozzle 10 when a discharge of a liquid material from the nozzle 10 of the tip of the discharge cylinder 1 is stopped by releasing a grip on the grip member 4 and operating the valve mechanism 2 to close by a motion of resilient pivoting of the grip member 4, and which is an ordinary pump including the cylinder 50 and the piston 51; according to the embodiment, the cylinder 50 is arranged in the center portion on the tip side inside the discharge cylinder 1 coaxially with the discharge cylinder 1, its outer circumferential surface is fit and attached with a flow-path holding member 9 in a cylindrical shape that includes flow paths 90 for a liquid material penetrating forward and rearward as shown in
The forward end side of the inner circumferential surface of the flow-path holding member 9 in a cylindrical shape forming the cylinder 50 is fit and attached with a diameter-expanded base portion of the suction-discharge pipe 500; the tip side of the suction-discharge pipe 500 is plunged into the nozzle 10 of the discharge cylinder 1; and the tip aperture is opened in a region near the tip in the internal space of the nozzle 10; so that the pump P is integrated inside the discharge cylinder 1.
When the sealer gun A according to the embodiment is brought into a state shown in
If releasing a grip on the grip member 4 from this state, the operating rod 61 moves rearward caused by a resilient force of the spring b that has been compressed, and the valve shank 8 moves together with this, accordingly the valve opening 85 becomes off the position facing to the valve seat 82 and is closed, so that the valve mechanism 2 is closed, thereby shutting off inflow of the liquid material into the discharge cylinder 1, and stopping a discharge of the liquid material from the tip aperture 10a of the tip of the discharge cylinder 1.
At that time, as the piston 51 formed on the tip side of the valve shank 8 moves rearward together with the valve shank 8 that moves rearward by a resilient force of the spring b, it operates so as to be pulled out from the cylinder 50, and causes the pump P to operate suction, so that a resultant suction pressure is caused to act inside the nozzle 10 of the tip of the discharge cylinder 1. Owing to this suction pressure, dripping of a liquid material that arises by sticking on and hanging from the tip of the nozzle 10 upon stopping a discharge of the liquid material is pulled into the cylinder 50 via the nozzle 10, and such dripping is eliminated from areas around the tip portion of the nozzle 10.
The sealer gun of a built-in pump type according to the embodiment is configured such that when releasing the grip member 4, the pump P performs suction operation; however, if it is configured such that the operating direction of the operating rod 61 when gripping and pivoting the grip member 4 is reversed to this example, the spring b is to be pulled and extended when operating the operating rod 61, and the pump P is to perform discharge operation by resilient pivoting when releasing the grip member 4, a positive pressure by the pump P acts on the inside of the nozzle 10 upon stopping a discharge of a liquid material, so that dripping is eliminated by blowing it away with air.
Except that configurations of a region of the tip aperture 10a of the nozzle 10 on the tip side of the discharge cylinder 1 and a region of the suction-discharge aperture of the pump P positioned in the internal space of the nozzle 10 are modified from that according to the fifth embodiment described above, the other configurations are basically not different from those according to the fifth embodiment.
Specifically explaining with reference to the drawings, as shown in
The pump P including the piston 51 and the cylinder 50 integrated in the discharge cylinder 1 is equipped with the piston 51 by being assembled in an integrated manner onto the forward end side of the valve shank 8 of the valve mechanism 2 described above, and is equipped on the forward end side of the discharge cylinder 1 with the cylinder 50 by forming the flow paths 90 inside a cylinder wall material, and forming a cylinder from the inner circumferential surface of the flow-path holding member 9 of which inner circumferential surface is shaped in an integrated manner to be a sleeve for guiding the valve shank 8, so that the pump P that performs pump operation by reciprocating the piston 51 together with operation of pivoting or moving of the grip member 4 by gripping and releasing the grip member 4 is integrated in the discharge cylinder 1, and furthermore, the suction-discharge pipe 500 that forms the bore d2 of the suction-discharge aperture of the pump P at the tip aperture is deeply plunged into the inside of the nozzle 10, and the bore d2 of the suction-discharge aperture of its tip is positioned directly in front of the bore d1 of the tip aperture of the nozzle 10.
However, the nozzle 10 of the tip of the discharge cylinder 1 is provided on its tip portion with a head in a shuttering board shape that blocks an open aperture at the tip; the tip aperture 10a that has the bore d1 smaller than the inner diameter of the nozzle 10 is opened and provided to the head; and also is opened and provided such that the bore d1 of the tip aperture 10a opened and provided satisfies relation of d≦d2, with respect to the bore d2 of the suction-discharge aperture of the tip aperture of the suction-discharge pipe 5a of the pump P positioned inside the nozzle 10.
Accordingly, when by releasing a grip on the grip member 4 and operating the valve mechanism 2 to close with a resilient force of the spring b, a discharge of the sealer S is stopped, the piston 51 of the pump P moves backward with a resilient force of the spring b in a synchronized manner with this, and performs suction operation to the pump P, so that a strong negative internal pressure is generated in a region close to the bore d1 of the tip aperture in the internal space of the nozzle 10, then caused by the internal pressure, as depicted by a dot and dash line in
In contrast to the embodiment described above, this embodiment is an example configured such that as a configuration of the valve mechanism 2 is made simple, leakage of a sealer (a coating agent of a liquid material) via the valve mechanism 2 when closing the valve by releasing a grip on the grip member 4 is reduced; and when the piston 51 of the pump P performs moving in-and-out operation with respect to the cylinder 50, and the volume of the internal space of the cylinder 50 is expanded and contracted, a volume difference is increased, so that a suction quantity of a sealer when the valve is closed is increased.
According to the embodiment, where a projection t in an axial shape is provided in the center region of the end surface of the forward end side of the piston 51 formed and provided on the forward end of the valve shank 8 configured to be fit and inserted into the cylinder 50 that is formed of the inner wall surface of the flow-path holding member 9, and an empty room u in an axial hole shape into which the projection t is to be fit and inserted tightly is formed and provided on the base side of the suction-discharge pipe 5a; when the piston 51 is pushed into the cylinder 50, the projection t tightly fills up to the empty room u on the base side of the suction-discharge pipe 5a; and when the cylinder 50 is pulled while the valve is closed, the internal volume of the cylinder 50 is expanded up to the empty room u in an axial hole shape; accordingly, a suction effect on a sealer is improved.
Moreover, the flow paths 90 formed and provided inside the flow-path holding member 9 are provided only on the upper circumferential side of the flow-path holding member 9 as shown in
Number | Date | Country | Kind |
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2010-055494 | Mar 2010 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2011/055160 | 2/28/2011 | WO | 00 | 4/23/2013 |