RU2039341C1 - Device for volumetric metering of viscous liquids - Google Patents

Abstract

FIELD: liquid materials metering. SUBSTANCE: device has resilient sleeve pressed over by metering rollers, and mechanism for regulating doses; the latter is made in form of cylindrical base. Metering rollers are disposed in longitudinal grooves for radial displacement along the grooves. Several pairs of disks are mounted for rotation one relatively another; the disks are mounted at both edges of the base at the same axis with the base. Grooves of the disks cross in form of a cross in each pair; axial protrusions of metering rollers are mounted at the points of crossing. Mutual disposition of the disks defines amount of glue pressed out when the glue flows along the resilient sleeve. EFFECT: improved precision. 4 dwg

Description

 The invention relates to devices for dispensing viscous liquid materials, mainly adhesives, and applying them to the surface of products and can be used in mechanical engineering, instrumentation and other industries.

 A known dispenser of liquid materials containing a consumable container, dispensing an elastic tube and two cutters mounted on a two-arm lever connected to the rod of the pneumatic cylinder. The design of the dispenser is very complex, and the glue is ejected explosively under the action of the compressed walls, which does not allow its use for applying glue to the surface of a small area.

 It is also known a device for volumetric dosing of thick pasty solutions containing a flexible sleeve, pinched by metering rollers, and a dose-adjusting mechanism made in the form of a curved tire with an adjusting screw. The filler is applied to the surface of the reinforced concrete product in large enough portions and the change in the dose by the position of the spring tire provides in this case the necessary dosage accuracy.

 However, for dosing very small portions of glue-like liquids, the indicated dose adjustment mechanism does not provide the necessary dosage accuracy.

 In the proposed device, the problem of controlling very small doses of viscous liquid is solved due to the fact that the dispensing mechanism is made in the form of metering rollers mounted in grooves of the cylindrical base of the dispenser parallel to its axis, with the possibility of radial movement. The axis of the metering rollers are installed in the grooves of the discs mounted on the axis of the base of the dispenser with the possibility of rotation relative to each other. The axes are fixed due to the fact that the grooves of the disks forming a pair intersect crosswise.

 In FIG. 1 shows a general view of a device for volumetric dosing of a viscous liquid; in FIG. 2 phases of the dosing process; in FIG. 3 a, b, adjusting and fixing discs; in FIG. 4 a, b base of the dispenser assembly.

 A device for volumetric dosing of viscous liquids contains a container 1 for glue, an elastic tube 2, which is contacted by metering rollers 3 located in the grooves 4 of the cylindrical base 5 of the dispenser. On the axis on both sides of the base 5 are mounted fixing 7 and adjusting 8 discs, a ratchet wheel 9 and a vertical bar 10 with a dog 11. The bar 10 is connected by a stop 12 to a fixed stand 13. The axis 6 is pivotally connected to the housing 14 mounted on the carriage 15, on which secured the rocker mechanism 16, connected by a crank 17 with an electric drive 17 (not shown). The metering rollers 3 have protruding axes 18, which enter into the radial grooves 19 of the fixing discs 7 and into the inclined (chamfered) grooves 20 of the regulating discs 8. On the opposite side of the rollers 3 with the elastic tube 2 is contacted the contact stop plate 21 of elastic material, and the lower end the tube 2 is located above the surface A, on which a viscous liquid (adhesive) is applied.

 The device operates as follows.

 From the tank 1, glue flows by gravity through the tube 2 to the base of the dispenser 5. The crank 17, acting on the rocker mechanism 16, moves the carriage 15 and the dispenser housing 14 rigidly connected to it by the amount of the required stroke of the carriage 15, as a result of which the vertical bar 10 rotates the ratchet wheel 9 and at the same time the base 5 of the dispenser. Thus, the rollers 3 are brought into contact with the tube 2 (see Fig. 2), and when the base 5 is rotated, a certain dose of glue flowing through the tube 2 is cut off, which through the lower hole of the tube 2 enters the lubricated surface A. When the backstage 16 the dog 11 slips over the tooth of the ratchet wheel 9 and the bar 10 returns to its original position. The metering rollers 3 and the next dose of glue at this time are stationary until the start of the next cycle.

 The dose of glue is determined by the distance "a" between adjacent rollers 3, which depends on the radial distance of the axes 18 of the rollers 3 from the axis 6 of the base 5. Therefore, the rollers 3 are mounted with the possibility of their radial movement in the grooves 4, which is carried out as follows. As mentioned above, the axes 18 of the rollers 3 are inserted first into the radial grooves 19 of the disks 7 adjacent to the ends of the base 5 and mounted motionless relative to it, and then into the grooves 20 of the disks 8 adjacent to the disks 7, but mounted to rotate around axis 6. When the disk 8 rotates, the axes 18 move in the grooves 19 and 20, decreasing or increasing the immersion depth of the rollers 3 in the grooves 4. This also decreases or increases the distance between adjacent rollers 18. Thus, the relative position of the disks 7 and 8 determines the dose of glue, which can be pressed when the glue flows through the tube 2. Since the displacement of the rollers 3 can be arbitrarily small, the glue dose can be adjusted with great accuracy, which is extremely important when gluing very small or narrow parts or when it is necessary to meter with great accuracy components of the adhesive mixture.

Claims (1)

 A DEVICE FOR VOLUME DOSING OF VISCOUS LIQUIDS, comprising a flexible sleeve pinched by metering rollers and a dose control mechanism, characterized in that the dose control mechanism is made in the form of a cylindrical base, in the longitudinal grooves of which metering rollers are arranged for radial movement, and from both ends of the base on one axis with it, a pair of disks with grooves is installed with the possibility of rotation of the disks of the pair relative to each other, moreover, the grooves of disks in each pair intersect crosswise, and in at the intersection of the grooves, the axial protrusions of the rollers are installed.

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