CN205274591U - Quantitative material feeding unit of preparation manometer - Google Patents

Abstract

The utility model relates to a conveyor field, the utility model discloses a quantitative material feeding unit of preparation manometer, comprising a supporting bar, bracing piece one end is articulated fixed, the other end articulates there is the connecting rod, the relative one side with the connecting rod of bracing piece offsets and is equipped with the cam, it has the arc to articulate on the connecting rod, the arc other end articulates in the backup pad, backup pad sliding connection is on the base station, be connected with the elastic component under the backup pad, the elastic component other end is fixed on the base station, it is equipped with the actuating lever to offset on the arc, the actuating lever middle part is articulated fixed, the actuating lever keeps away from that one side of arc is articulated to have a push rod, one side that the actuating lever was kept away from to the push rod is equipped with the feeder hopper, be connected with the expeller on the push rod, expeller sliding connection is in the feeder hopper, the feeder hopper export is established on the hopper wall with the relative one side of expeller, this patent application is anticipated is providing the quantitative material feeding unit of preparation manometer that can quantitatively transport the raw materials to there is the problem that can not quantitatively transport the raw materials in it to solve current conveyer.

Description

Make manometric quantitative material feeder

Technical field

The utility model relates to e Foerderanlage field, has been specifically related to a kind of manometric quantitative material feeder of making.

Background technology

It is sensor that tensimeter refers to taking elastic element, measures and indicates the instrument higher than environmental stress, and application is very general, and it is almost throughout all industrial flows and scientific research field. It is seen everywhere in fields such as heat distribution pipe network, oil gas transmission, water and air supply system, vehicle maintenance maintenance factory shops, especially in industrial stokehold and commercial measurement process, there is due to the elastic sensing element of mechanical compression table very high physical strength and the characteristic such as convenient for production so that mechanical compression table obtains applying more and more widely.

It is well known that tensimeter can be used for the pressure of the fluid such as measurement gas or liquid and be widely used in industrial. Present tensimeter is generally made up of base, watchcase, Ba Dunguan, pointer, instruction panel, movement and transparent face shield, described watchcase is arranged on the upper surface neighboring place of base, the inner chamber that this watchcase and base surround is provided with can with the fluid input portion of fluid communication, fluid input portion is fixedly mounted on base, described fluid input portion is connected with one end of Ba Dunguan, the pause the other end of pipe of described bar connects movement, and described movement connects pointer.

When assembling the tensimeter of said structure, need by e Foerderanlage, raw material is transported to processing stations respectively, and existing e Foerderanlage, general direct use driven by motor belt pulley, belt pulley is arranged in haul cylinder, belt pulley drives belt movement, belt transport raw material, enter on belt by hopper raw material, raw material continuous print is transported to processing stations, and processing stations needs to capture part material, then complete assembling, and then the tensimeter assembled is transported to next verification operation.

It is transported to processing stations continuously, a large amount of parts will be made to be transported on processing stations, and processing stations can not be instant raw material has all been assembled, if transporting too many raw material, part material will be made to cross processing stations, directly it is transported to next verification operation, and avoid this kind of problem to occur, e Foerderanlage is just needed to transport raw material quantitatively, above-mentioned existing e Foerderanlage, it is intended to reach the object of quantitatively transport, just must control motor frequently to open and stop, not only increase the operating time, reduce efficiency, also motor will be produced huge infringement.

Practical novel content

The utility model is intended to provide a kind of manometric quantitative material feeder of making that can quantitatively transport raw material.

The manometric quantitative material feeder of making in this scheme, comprise support bar, support bar one end is hinged fixing, the other end is hinged with connecting rod, support bar and connecting rod opposite side offset and are provided with cam, connecting rod is hinged with arc plate, the arc plate the other end is on the supporting plate hinged, elasticity part it is connected with under back up pad, the elasticity part the other end is fixed, arc plate offsets and is provided with driving stem, in the middle part of driving stem hinged fixing, driving stem is hinged with slide block away from the side of arc plate, driving stem is provided with hopper away from the side of arc plate, it is provided with below hopper and rotates bucket, the side rotating bucket is provided with baffle plate, rotate and bucket is connected with gear, gears meshing has tooth bar, slide block is slidably connected on tooth bar.

Know-why and the useful effect of this scheme be: time initial, the base face support bar of cam offsets, rotate cam, cam will turn to convex surface and support bar offsets, in the process rotated, cam drive support bar upwards swings, support bar drivening rod upwards swings, one end that connecting rod drives arc plate to be connected with connecting rod upwards swings, because the arc plate the other end is fixed in back up pad, and being connected with elasticity part under back up pad, the elasticity part the other end is fixed, so the arc plate the other end will move downward, arc plate will become skewed.

Arc plate offsets and is provided with driving stem, driving driving stem is swung by arc plate near the direction of arc plate, band movable slider is moved downward by the other end of driving stem, slide block slides on tooth bar, and driving tooth bar to move downward, rack drives gear rotates, and gear driven rotates bucket and rotates, the outlet of hopper is closed by the baffle plate rotated on bucket, and stopping is transported by raw material.

Cam continues to rotate, and cam will turn to base face and support bar offsets, in the process of rotation, promotion back up pad, due to the elastic force of self, is upwards moved by elasticity part, and back up pad will drive arc sheet reset, drivening rod is moved downward by arc sheet reset, and connecting rod moves downward and resetted by drive support bar.

Arc sheet reset also can drive driving stem to reset, band movable slider is resetted by driving stem, slide block drives tooth bar to reset, rack drives reset gear, gear driven rotates bucket and resets, rotating bucket to be again connected with hopper, part material will enter into through hopper outlet and rotate bucket, and enter into subsequent processing by rotating bucket; Cam is rotated further, and the convex surface of cam will offset with support bar again, thus rotation bucket can be made again to rotate a station, and baffle plate will block again the outlet of hopper, and raw material stops transporting again, so circulates; Thus with making rotation bucket interval by a certain amount of feedstock delivery to processing stations, reach the object quantitatively transporting raw material.

Further, driving stem and the arc plate place of offseting are arc. Arc contacts with arc, can reduce and rub between driving stem and arc plate, thus reduce and damage between the two, extends driving stem and arc plate work-ing life.

Further, back up pad upper spline is connected with sliding bar, and the sliding bar the other end is fixed. On the supporting plate, in lower slip process, sliding bar plays the effect of guiding and supported plate, and what make that back up pad moves is more stable.

Further, arc plate and the driving stem place of offseting are provided with smooth plate. The setting of smooth plate, further reduces and rubs between driving stem and arc plate, thus reduce further and damage between the two, extends driving stem and arc plate work-ing life further.

Further, cam is connected with motor. Starting motor, cam starts constantly to rotate, and rotation bucket can be made back and forth to move, and enters into processing stations with making raw material interval, thus achieves automatic production.

Accompanying drawing explanation

Fig. 1 is the structural representation that the utility model embodiment makes manometric quantitative material feeder.

Embodiment

Below by embodiment, the utility model is described in further detail:

Reference numeral in Figure of description comprises: cam 1, support bar 2, connecting rod 3, smooth plate 4, arc plate 5, spring 6, sliding bar 7, driving stem 8, slide block 9, chute 10, tooth bar 11, gear 12, hopper 13, rotation bucket 14, baffle plate 15.

Embodiment is substantially as shown in Figure 1: make manometric quantitative material feeder, comprise support bar 2, support bar 2 left end is hinged fixing, right-hand member is hinged with connecting rod 3, support bar 2 and connecting rod 3 hinged place offset and are provided with cam 1, connecting rod 3 is hinged with arc plate 5, arc plate 5 left end is on the supporting plate hinged, spring 6 it is connected with under back up pad, it is provided with the sliding bar 7 with back up pad spline joint in the middle of spring 6, the lower end of sliding bar 7 and spring 6 is fixed, arc plate 5 is provided with smooth plate 4, smooth plate 4 offsets and is provided with driving stem 8, driving stem 8 and smooth plate 4 place of offseting are arc, in the middle part of driving stem 8 hinged fixing, driving stem 8 left end is hinged with slide block 9, hopper 13 it is provided with on the left of driving stem 8, it is provided with below hopper 13 and rotates bucket 14, the left side rotating bucket 14 is provided with baffle plate 15, rotate and bucket 14 is connected with gear 12, gear 12 is engaged with tooth bar 11, tooth bar 11 has chute 10, slide block 9 is slidably connected in chute 10.

Time initial, the base face support bar 2 of cam 1 offsets, start motor, cam 1 rotates, cam 1 will turn to convex surface and support bar 2 and connecting rod 3 hinged place and offset, in the process rotated, cam 1 drives support bar 2 upwards to swing, support bar 2 drivening rod 3 upwards swings, one end that connecting rod 3 drives arc plate 5 to be connected with connecting rod 3 upwards swings, because arc plate 5 the other end is fixed in back up pad 2, and back up pad is connected with spring 6 spring 6 the other end for 2 times and fixes, so arc plate 5 the other end will move downward, arc plate 5 will become skewed.

Arc plate 5 is provided with smooth plate 4, smooth plate 4 offsets and is provided with driving stem 8, driving driving stem 8 is swung near the direction of arc plate 5 by arc plate 5 on smooth plate 4, band movable slider 9 is moved downward by the other end of driving stem 8, and slide block 9 slides on tooth bar 11, and drives tooth bar 11 to move downward, tooth bar 11 driven gear 12 rotates, gear 12 drives and rotates bucket 14 rotation, and the outlet of hopper 13 is closed by the baffle plate 15 rotated on bucket 14, and stopping is transported by raw material.

Cam 1 continues to rotate, cam 1 will turn to base face and support bar 2 offsets, in the process rotated, spring 6 is due to the elastic force of self, back up pad will be promoted to left movement, drive arc plate 5 is resetted by back up pad, and arc plate 5 resets and moved right by drivening rod 3, and connecting rod 3 moves right and resetted by drive support bar 2; Arc plate 5 resets and driving stem 8 also can be driven to reset, band movable slider 9 is resetted by driving stem, slide block 9 drives tooth bar 11 to reset, tooth bar 11 driven gear 12 resets, gear 12 drives and rotates bucket 14 reset, rotating bucket 14 to be again connected with hopper 13, part material will enter into through hopper 13 outlet and rotate bucket 14, and enter into subsequent processing by rotating bucket 14; Cam 1 is rotated further, and the convex surface of cam 1 will offset with support bar 2 again, thus rotation bucket 14 can be made again to rotate a station, and baffle plate 15 will block the outlet of hopper 13 again, and raw material stops transporting again, so circulates; Motor operates always, it also avoid the injury stopping being caused by motor owing to frequently opening.

Above-described is only embodiment of the present utility model, and in scheme, the general knowledge such as known concrete structure and characteristic does not do too much description at this. Should be understood that; for a person skilled in the art, under the prerequisite not departing from the utility model structure, it is also possible to make some distortion and improvement; these also should be considered as protection domain of the present utility model, and these all can not affect effect and the practical applicability that the utility model is implemented. The protection domain that this application claims should be as the criterion with the content of its claim, and the embodiment in specification sheets etc. record the content that may be used for explaining claim.

Claims (5)

1. make manometric quantitative material feeder, it is characterized in that, comprise support bar, support bar one end is hinged fixing, the other end is hinged with connecting rod, support bar and connecting rod opposite side offset and are provided with cam, connecting rod is hinged with arc plate, the arc plate the other end is on the supporting plate hinged, elasticity part it is connected with under back up pad, the elasticity part the other end is fixed, arc plate offsets and is provided with driving stem, in the middle part of driving stem hinged fixing, driving stem is hinged with slide block away from the side of arc plate, driving stem is provided with hopper away from the side of arc plate, it is provided with below hopper and rotates bucket, the side rotating bucket is provided with baffle plate, rotate and bucket is connected with gear, gears meshing has tooth bar, slide block is slidably connected on this tooth bar.

2. the manometric quantitative material feeder of making according to claim 1, it is characterised in that: described driving stem and the arc plate place of offseting are arc.

3. the manometric quantitative material feeder of making according to claim 2, it is characterised in that: described back up pad upper spline is connected with sliding bar, and the sliding bar the other end is fixed.

4. the manometric quantitative material feeder of making according to claim 3, it is characterised in that: described arc plate and the driving stem place of offseting are provided with smooth plate.

5. the manometric quantitative material feeder of making according to claim 4, it is characterised in that: described cam is connected with motor.